HomeMy WebLinkAboutRESPONSE - RFP - 7163 ON CALL PROFESSIONAL ELECTRICAL AND INSTRUMENTATION ENGINEERING SERVICENo Text
Assigned Personnel
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Carollo Engineers offers the City unparalleled
capabilities in electrical, instrumentation, and control
engineering services. Our team is proven, enthusiastic,
and motivated. We want to work with your staff to
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deliver projects of which we can all be proud.
he City of Fort Collins Water Utilities has always been
a high priority client for Carollo, regardless of project
size and fee.
Carollo wholeheartedly believes that consistency is a
critical asset for our clients. Anthony Morroni, Ron
Burdick, and Monte Richard have been the lead
engineers on a majority of your projects dating back
to 1992. To supplement their abilities and experience,
we also recognize the need for support engineers and
staff with the right level of knowledge and experience
to maintain redundancy, efficiency, and a high level of
service.
We will continue to leverage the work of
our knowledgeable staff to provide you with
value that exceeds project expectations.
Your projects will be managed locally, utilizing both
Anthony Morroni and Bill Tomerlin. Bill Tomerlin, as
project manager, will be the primary contact for the
City. He will manage the progress and coordinate the
efforts of the local EI&C team and technical advisors.
Monte Richard and Chris Heger will serve as the
supporting engineers. Robert Morroni will provide
technical oversight and quality management. All of the
team members presented here are available to complete
projects throughout the duration of the contract. They
can be mobilized immediately to meet your project
needs.
Our team is experienced in water and wastewater
treatment process; electrical, instrumentation, and
control system design; communications systems; system
architecture; digital bus; computer networking; and
control room design. Key team member qualifications
are outlined on the following pages; full resumes are
contained in the Appendix.
Our team members adhere to Carollo's rigorous
procedures for project management, developed and
refined over our 77-year history. Our philosophy
embraces client meetings, and we will continue to be
available to meet with the City whenever necessary, and
certainly as required by the scope of work. Information
on our project management philosophy and procedures
is contained at the end of this section.
The Carollo team combines decades of experience with an
innovative approach.
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Assigned Personnel
TECHNICAL ADVISOR AND
QUALITY MANAGEMENT
Robert Morroni
City of
Fort Collins
I Water Utilities
PROJECT MANAGER
Bill Tomerlin
ELECTRICAL AND INSTRUMENTATION/
CONTROL ENGINEERS
Monte Richard
Chris Heger
ELECTRICAL EXPERTISE INSTRUMENTATION EXPERTISE
Chris Carvalho, PE
Ron Burdick, PE
Large Project
Large Project Networks
Todd Hackett, PE
Guy Ehlers, PE
Large Machines,
PLC Hardware, Software
Electrical Modeling
ManoJ Yegnaraman, PE
Chris Loving, EIT
Instrumentation & Control
Electrical Modeling
Amit Sandev
Marissa Petty, EIT
Digital Bus, Networking
Detailed Design
Core Team
Expert Support Team
PARTNER -IN -CHARGE
Anthony Morroni
IT, CAD AND
TECHNICAL SERVICES
Al Buffone
TECHNICAL SUPPORT
Steve Funckes
3-D
Scott Wallace
P&ID, Electrical Layout
Debi Imada
P&ID
Jeremy Brehm, PE
Database
Hal Johnson
Constructdbility
Assigned Personnel
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Key Team Profiles
Bill Tomerlin
Project Manager
— BS Mathematics
— MS Chemistry
— 34 Years of Experience
— Years Working with Fort Collins
Water Utilities: 30
Relevant Experience with Fort Collins Water
Utilities:
• Class A water treatment operator.
• Class A wastewater treatment operator.
• Fort Collins/Carollo team manager.
• Fiber optic and network specialist.
• Senior project manager.
• Asset management.
Monte Richard, P.E.
Electrical/Instrumentation and Control Engineer
— BS Engineering Electrical
— MS Engineering Electrical
— 7 Years of Experience
— Years Working with Fort Collins
Water Utilities: 7
Relevant Experience with Fort Collins Water
Utilities:
• Electrical power systems.
• Instrumentation/control.
• Construction support.
• Startup support.
• Digital bus.
• Networks.
• Electrical modeling.
We propose a small core team as the
direct day-to-day interface with an
extensive support team to provide
specific expertise when needed.
I
Chris Heger, E.I.T.
Electrical/Instrumentation and Control Engineer
— BS Engineering Electrical
— 2 Years of Experience
— Years Working with Fort Collins
Water Utilities: 2
tI
km'
Relevant Experience with Fort Collins Water
Utilities:
• Electrical power systems.
• Instrumentation/control.
• Construction support.
• Digital bus.
• Electrical modeling.
Anthony Morroni, P.E.
Partner -in -Charge
— BS Engineering Physics
— BS Engineering Mathematics
— MS Engineering Physics
— 34 Years of Experience
— Years Working with Fort Collins
Water Utilities: 18
Relevant Experience with Fort Collins Water
Utilities:
• Chief electrical.
• Chief instrumentation.
• Carollo partner -in -charge EI&C.
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Assigned Personnel
Robert Morroni, P.E.
Technical Advisor/Quality Management
— BS Engineering Physics
— Graduate Studies Electrical
Engineering
— 28 Years of Experience
li— Years Working with Fort Collins
Water Utilities: 18
Relevant Experience with Fort Collins Water
Utilities:
• Senior electrical.
• Senior instrumentation/control.
• Quality manager.
• Carollo EI&C resource manager.
• Denver Littleton office manager.
Project Management
Responsiveness to Client Needs
Carollo's project management philosophy and
procedures have been developed and refined over
our 77-year history. It includes:
• Key senior staff involvement at all project stages.
• An emphasis on communication with the client
and within the project team.
• Frequent comparison of planned versus
actual budget and schedule.
Carollo has at least one partner, a firm owner,
actively participating in each project. This provides
a person with a direct personal stake in the project's
success.
Communication is also an important aspect of
good project management. It is very important
to establish your expected role and level of
participation during the project. For instance,
the frequency and required participants at key
meetings should be established. The decision -
making process, including who should be involved
in making decisions, is also important. This final list of
expectations should be reviewed regularly and modified
as necessary to reflect changes to the project direction.
Our most direct way to communicate with you will be
by meetings, as required. Regular progress meetings are
scheduled at least monthly. An agenda is prepared. We
typically forward the agenda one week in advance so
that staff is made aware of the issues to be discussed,
and the people required to make the necessary
decisions can be in attendance. Meeting notes are
prepared for each meeting to document decisions
made.
Carollo will continue to maintain a user-friendly,
secure network and database archive of all client
documentation and information.
Continuity - Transitions
We have performed water and wastewater EI&C design
support for the Fort Collins Water Utilities since 1992.
All of the team members that have worked on Fort
Collins' projects for the past 18 years are in one role or
another on our team.
We have transitioned roles over the years with needed
overlap to provide a continuum of services to the City.
Bill Tomerlin
Anthony Morroni • Robert Morroni
Ron Burdick
Monte Richard
This timeline shows our I
team's history with the City. It
Chris Heger
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Assigned Personnel
No Text
• Firm's Capability
G Oo r
Co
• 1�
• Firm Information
Water and Wastewater Experts
Carollo is an environmental engineering firm
• specializing in the planning, design, and construction of
• water and wastewater facilities and infrastructure. We
• currently maintain 31 offices in 12 states.
During our 77-year history, Carollo has completed more
- than 15,000 projects for public sector clients. Carollo
• is currently ranked within Engineering News Record's
- (ENR) top 100 design firms. More importantly, ENR's
annual Source Book ranks Carollo among the top 20
for water treatment plant design.
1
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•
All of our work is performed in the areas
of water and wastewater, resulting in
a level of understanding of key project
•
issues that few can match.
•
•
Unlike our competitors, Carollo only provides water
and wastewater engineering services. The benefit to
Fort Collins Water Utilities is that all of our support
disciplines are professionals dedicated to the water
industry. We recruit nationwide and hire technical staff
who have extensive background and training specific
-` = field. For that reason, the
quality and professional
standing of our core
group of wastewater and
water professionals equals
or exceeds that provided
by some of the largest
ngineering firms in the
Duntry.
Vith annual billings of more than
150 million, Carollo is currently
finked No. 15 in Engineering News
Record's list of the Top 20 Water
Design Firms.
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National Perspective
Carollo's staff numbers more than 600 employees
including 325 registered engineers located throughout
the United States. We are a full -service company
with experienced and qualified professionals to
successfully manage projects of any size. Our broad
base of national work has
allowed us to resolve just
about every challenge
faced by municipal water
and wastewater agencies '
today. Carollo's exposure
to a wide variety of
water supply and water{�,�
quality management
situations across the
country supports
recommendations
based on the real- -- - -
world experience is ranked No. 7among the
nation's Top Electrical Design
of many similar Firms, according to EC&M
agencies. Our Magazine (May2070), and is
national perspective the only firm in the Top 40 that
brings Fort Collins experienced more than 100%
Water Utilities an growth in electrical design from
added degree of value 2008 to 2009.
by incorporating the most appropriate experiences
of others into solutions tailored to meet your needs.
Carollo shares our knowledge and regional experience
anywhere in the company through the use of our total
computer resources, including local -area networks
within each office, and a wide -area network between
offices to facilitate communication, document
transmittal, and workload sharing. We maintain video
conferencing in all of our offices to provide you with
access to national expertise at a moment's notice.
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Firm's Capability
Electrical and Instrumentation/Control
Experience
Carollo is an industry leader in planning, design,
and implementation of EI&C systems for water
and wastewater agencies. Our experience with
computerized SCADA/telemetry for water, sewer,
wastewater, and storm drain systems spans more than
25 years. We have completed more than 40 water and
wastewater SCADA projects during the past five years.
Our projects cover every aspect of water and
wastewater control systems: telemetry, SCADA, DCS
systems, PLC systems, PC -based computer systems,
digital bus networks, operator interface software, local
area networks, information management systems,
radio telemetry, and the full range of physical and
analytical instruments. Our clients have ranged from
small municipalities to some of the largest utilities in
the country. Treatment plants have ranged in size from
under 1 mgd to more than 400 mgd.
Carollo has extensive knowledge and experience in
EI&C design.
The Carollo electrical and instrumentation group
consists of 50 engineers and technicians making this
group one of the largest in the water and wastewater
industry. Carollo's electrical engineering capabilities
include: power designs at voltage levels from 120 to
42,000 volts, designs and specifications for motors
from fractional horsepower to in excess of 3,000 hp,
electrical services from 10 KVA to 22 MVA, standby
generation systems from 25 KW to 8 MW, and
cogeneration facilities up to 8.5 MW including gas
turbines and combined cycle steam turbines.
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We have provided engineering services
to some clients for more than 60 years,
demonstrating a high degree of satisfaction
and confidence in Carollo's services.
We regularly perform coordination, fault current, and
arc flash studies, using any of the major electrical
distribution programs: EDSA, SKM, and ETAP.
Lighting analysis is computer based using 3-D models
and point-to-point calculations for cost and energy
efficient designs.
We are fully versed in designing for hazardous classified
areas (NFPA 820 standards), as well as meeting
requirements for seismic, wet, and corrosive areas.
We work closely with electrical utilities to coordinate
electrical service requirements. This includes rate
recommendations and selections, demand analysis,
and flicker studies. We create facilities that are non -
impacting, energy -efficient, and cost-effective to
operate.
Our experience includes extensive work in sustainable
design and implementation of renewable energy.
Carollo has standardized on providing energy -
efficient electrical design and has recently completed
photovoltaic design projects in California for Kern
County.
A Strong Local Presence
Carollo serves Colorado clients with an experienced
engineering team whose members live and work within
the area, from two Denver -area offices.
Our Denver offices include registered engineers in
civil, sanitary, environmental, structural, electrical, and
control systems disciplines, as well as CADD design
and administrative support.
Corolla has two
Denver -area
offices, including
our Littleton office,
which is home to a
high concentration
of D&C specialists.
Firm's Capability M
Carollo contributes to the many facets of Fort Collins Utilities'
water and wastewater needs and can continue to offer complete
EI&C services.
Carollo's EI&C team has compiled a wide variety of
projects for local clients, including the following:
• Denver Water.
• City of Boulder.
• City and County of Broomfield.
• Upper Blue Sanitation District (Breckenridge).
• City of Aurora.
• Ute Water Conservancy District (Palisades).
• Littleton WTP.
• Metro Wastewater Reclamation District (Denver).
• Colorado Springs Utilities.
• City of Fort Collins.
• Centennial Water & Sanitation District.
• Pinery Water & Wastewater.
• Arapahoe County.
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Our Littleton office is home to a national EI&C design
center that serves Colorado clients, including all of the
City of Fort Collins water and wastewater facilities, all
of Carollo's work for Denver Metro Water Reclamation
District, and the Breckenridge Sanitation District's
complete overhaul of electrical and SCADA system at
the Farmers Korner WWTP.
Carollo partners Anthony and Robert Morroni
lead a highly experienced EI&C team to support
regional water facility design projects. Our Denver
EI&C team also serves some of our most prominent
national projects, including on -going plant designs in
Oklahoma, Texas, California, Nevada, Washington,
Florida, and many other states.
We offer 19 local engineers and technicians who work
only with the electrical, instrumentation, SCADA,
and communications aspects of water, wastewater, and
infrastructure projects, providing Fort Collins with the
benefit of on -the -spot resources.
References
Carollo invites you to contact the references in the
table below, or any other of our clients, who will attest
to the quality of our work.
City of Fort Collins, CO
Mr. Kevin Gertig
Water Resources &Treatment
Operations Manager
970-221-6700
Metro Wastewater
Mr. Jean Larson
Reclamation District,
Electrical/I&C Division Head
Denver, CO
303-286-3421
Mr. Mike Elfert
Instrumentation & Controls
Engineering Manager
303-286-3282
South Valley Water
Mr. Hugh Hedges
Reclamation Facility,
Assistant General Manager/
West Jordon, UT
Facility Engineer
801-495-5441
Soldier Canyon Water
Mr. Bill Roberts
Treatment Facility,
Plant Manager
Fort Collins, CO
970-482-3143
Kern County Water
Mr. Martin Varga
Agency, CA
Assistant IN Manager
661-634-1400
Firm's Capability
Project Experience
Drake WRF
City of Fort Collins, CO — Various Projects
Carollo has successfully completed a variety of Fort
Collins projects over the last 18 years. Carollo is the
EI&C engineer for all of the Fort Collins Water Utilities
alternative delivery projects. Our experience includes:
Water Treatment Plant Master Plan
Carollo provided the original
electrical master plan in
1997. This master plan was
re -assessed and updated in
2007. The scope for this
project included electrical and
instrumentation design and/or
evaluation for the following:
• Complete one -line updates.
• Electrical load list that
cataloged all electrical equipment.
• Fuel source evaluation.
• Load shedding practices and generator load tables.
• Analysis of utility power options.
• Risk assessment and fault tree analysis for the
electrical distribution system.
• Distribution system drawing updates.
• Electrical and instrumentation document
management procedures.
• Protective device coordination study.
• Fault current study.
• Arc flash and shock hazard study.
LaPorte WTP
The Carollo team has provided ongoing EI&C design
services for numerous design -build projects to upgrade
the La Porte WTP and associated distribution systems.
Recent work has included the addition of a permanent
standby generator for the backwash pump station,
an on-line UPS system to support critical systems
including networking and PLC cabinets, updates to
record P&IDs, a complete update of the record one
lines, elevations, and panel schedules, and a complete
electrical distribution systems study.
Carollo has provided ongoing EI&C design services
working closely with the established design build
team at the Drake WRF. Recent projects include
the complete electrical and instrumentation design,
construction, and start-up services for the addition of.
• Preliminary/primary odor control system.
• Biotower odor control system.
• Solids odor control system.
• Polymer feed station upgrades.
• Magnesium hydroxide system upgrades.
• Dewatering polymer system upgrades.
• DAFT HVAC upgrades.
• Digester HVAC upgrades.
• Boiler replacement.
• Motor control center MCC1210 replacement.
• Motor control center MCC1205 and MCC1206
replacement.
• Storage building.
• Pollution control lab uninterruptible power supply.
• Septage grit pumping.
Mulberry WRF
Electrical design and construction services for the
improvements to the Mulberry Water Reclamation
Facility including a complete replacement of the
existing electrical distribution system; new preliminary
effluent pump station; new aeration basins; headworks
improvements; new RAS, WAS, and influent pump
stations; final clarifier upgrades; and a new effluent
bypass line to the 42-inch DWRF Interceptor.
Carollo utilized new
technology and good
design practices to
provide an energy
efficient design,
including the use
of efficient lighting,
variable frequency
drives, power factor correction capacitors, and the
use of premium efficiency motors. The electrical
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Firm's Capability
distribution system included an upgrade to the existing
utility service, automatic transfer switchgear with
digital bus communication, motor control centers with
digital bus communications, power factor correction
capacitors, several VFDs ranging from 1HP to 250HP.
An interior and exterior lighting design including
utilization of LED and compact fluorescent luminaries
for improved efficiency. Every motor starter at the
facility as well as all main feeder breakers monitor
voltage, current, and power consumption to aid in
preventative maintenance and process efficiency
optimization.
Kern County Water Agency, CA
Photovoltaic System
Carollo designed a solar photovoltaic (PV) system
project for the Kern County Water Agency
Improvement District No. 4 (ID4), Bakersfield,
California. The project included a 1-MW, single -axis
tracking solar photovoltaic system for the Henry C.
Garnett Water Purification Plant. The PV system is
connected to the facility power distribution system, and
at maximum output, provides approximately 12 percent
of the plant's peak power demands.
Carollo developed performance -based specifications, a
site plan, and Rule 21 interconnection drawings. The
Kern County Water Agency hired Carollo to develop
the alternative energy source for participation in the
Pacific Gas and Electric's (PG&E) Self -Generation
Program, which offers a monetary incentive. Carollo
assisted the Kern County Water Agency and made
application on its behalf for PG&Es 2007 California
Solar Initiative Program. The application was the first
qualifying application for this program and could total
as much as $5 million for the agency.
Henry C. Garnett Water Purification Plant Expansion
Carollo designed the expansion of the Henry C.
Garnett Water Purification Plant expansion for Kern
County Water Agency. The design goals doubled the
filter plant capacity by adding a second treatment
train including a raw water and treated water pump
station, filters, flocculation and sedimentation basins,
and chemical systems. The design also included the
complete rehabilitation of the existing treatment
train. The design
replaced the
existing PLC and
SCADA control
systems to meet
the current
process and
control standards
of the Agency.
The PLC network consisted of nearly 25 Modicon
Quantum PLCs on an independent and secure process
network with a fiber optic backbone. The SCADA
network design included: SCADA terminal services;
remote operation laptops, allowing operations staff to
access the SCADA system anywhere in the plant; a
network attached storage system; and an independent
and secure SCADA network with a fiber optic
backbone.
Notably, the design included control strategies to
maximize efficiency for the raw water pumping and
flow split by utilizing variable frequency drives in
conjunction with pipe headloss measurements and inlet
valve control. The design included an automatic dual
cell backwash system including filter -to -waste, filter
resting, rinse to waste, surface wash, and combined
wash. The various selections for the backwash
sequence could be simply configured and observed
through the new SCADA system.
Henry C. Garnett Water Treatment Plant Service
Entrance Upgrade
Carollo provided EI&C engineering services for the
115-kV Henry C. Garnett Water Treatment Plant sub-
station project. The project consisted of the design
and inspection services during construction for two
10-MVA, 115-kV substations in a fully redundant
configuration. The electrical utility supply was from
a PG&E transmission line. The design included a
V-break main interrupter -isolation switch, V-break
isolation switches at each transformer, SF6 interrupter
switches connected to protective relays at each
transformer, and two 10-mV, 115-kV to 4.16-kV
substation transformers. The 4.16-kV system was
connected to a 5-kV switchgear line-up in a main -tie -
main arrangement, with two 2,000-kW diesel drive
stand-by engine generators.
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Firm's Capability
Ca go Wr
Engineers... Working Wonders With Water'
August 31, 2010
It" -
Mr. James B. O'Neill II, CPPO, FNIGP
Director of Purchasing & Risk Management
City of Fort Collins Water Utilities
Purchasing Division
215 North Mason Street, 2nd Floor
Fort Collins, CO 80524
Subject: Proposal to Provide Professional Engineering Services —
On -Call Professional Electrical & Instrumentation Engineering Services, RFP No. 7163
Dear Mr. O'Neill:
The City of Fort Collins has been a valued Carollo Engineers' client since 1992. We have served as your
electrical, instrumentation, and controls (EI&C) consultant for the past two decades. While our experience with
the City eliminates the typical consultant learning curve, we also know we must continue to earn your trust and
confidence with each project we perform.
By selecting Carollo to continue as your on -call consultant, you will benefit from a technically superior group of
local engineers who can efficiently perform on -call projects as they arise, with an insider's understanding of your
facilities, operations, and objectives. Selecting Carollo will also benefit the City because of the following:
We Have the Local Resources You Need. With one of the largest Denver -area EI&C teams focusing only on
water and wastewater, Carollo hires the best and brightest throughout the country, bringing top-notch talent into
Denver. Our project team, including Bill Tomerlin, Anthony Morroni, Robert Morroni, Monte Richard, and
Chris Heger, has completed a variety of similar projects for clients in the Front Range and beyond.
We Bring the Nation's Best Water and Wastewater Innovations to You. Our EI&C team uses the latest water
and wastewater engineering technologies in proven, cost-effective ways. We can provide the City with state-of-
the-art equipment and procedures successfully being used in other parts of the United States.
We Have Strong Relationships with Fort Collins. The Carollo team has listened to your needs and worked
hard to always find a way to make your projects successful. We are committed to keeping the City satisfied.
Sincerely,
CAROLLO ENGINEERS, INC.
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Anthor Morroni, P.E.
Partner -in -Charge
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JJTomerlin
Project Manager
10822 West Toiler Drive, Suite 200, Littleton, CO 80127
P. 303.980.8260 F. 303.980-8277
carollo.com
Centennial Water and Sanitation District, CO
McClellan Pump Station No. 2
Highlands Ranch Water Treatment Plant
Carollo's EI&C team provided electrical and
instrumentation design services for the Highlands
Ranch Water Treatment Plant for the Centennial
Water and Sanitation District in Highlands Ranch,
Colorado. Carollo's responsibilities include designing
the primary medium -voltage distribution system for
the water treatment plant and the Zone 2 clearwell
pump station. Carollo designed the electrical site duct
bank systems between the existing facility, the chemical
feed-flocculation/sedimentation building, the filter
building, the Zone 2 clearwell pump station, and the
waste washwater pump station. Carollo also provided
complete on -site electrical and instrumentation
construction services for the existing facility, the
chemical feed-flocculation/sedimentation building, the
filter building, the Zone 2 clearwell pump station, and
the waste washwater pump station.
Southern Well Field Project
Carollo provided EI&C engineering services for the
Southern Well Field project. The project included
design of an electrical power system and control system
for ten deep wells located over a 30,000-acre site.
The electrical design involved the coordination of the
primary power distribution system with the electrical
utility. It also included individual site 480-V power
system design, the interfacing and connection of the
variable speed drives, and the step-up transformers.
Well horsepower ranged from 125 to 500. The wells are
remotely controlled via a radio -based telemetry system
from the water treatment plant.
McClellan Pump Station No. 1
Carollo provided EI&C engineering services for the
McClellan Pump Station No. 1. The project included
complete electrical and instrumentation design for the
raw water pump station. It consists of four raw water
pumps (125 to 300 hp) and a 750-kW standby engine -
driven generator. The pump station control system
design is PLC -based and remotely controlled via a
radio -based telemetry system from the water treatment
plant.
Carollo provided EI&C engineering services for the
McClellan Pump Station No. 2. The project included
complete electrical and instrumentation design for
the pump station. It consists of four raw water pumps,
two of which are 500-hp electrically -driven pumps and
two that are engine -driven. The pump station control
system design is PLC -based and remotely controlled
via a radio -based telemetry system from the water
treatment plant.
Zone 3 Pump Station
Carollo provided complete electrical and
instrumentation design for the Zone 3 Pump Station. It
consists of five finished water pumps, four of which are
electrically -driven
pumps and one that
is engine -driven.
The engine -driven
pump has a pony
generator also
attached to the
engine to provide
station power in the
event of a power
outage. The control system design is PLC -based and
remotely controlled from the water treatment plant.
South Valley Water Reclamation Facility, UT
South Valley Water Reclamation Facility
Improvements
Carollo provided EI&C engineering services for
the South Valley Water Reclamation Facility, West
Jordan, Utah. The project scope involved replacement
of influent lift pump VFDs, as well as a five -phase
plant renovation. The Phase 4A plant renovation
included headworks renovation, step screens, a
vacuum conveyance system, washer compactors, grit
cyclones, aerated grit chambers, a blower building, UV
disinfection, a sodium hypochlorite disinfection system,
and a sodium bisulfate de -chlorination system. Also
included in Phase 4A was a new gigabit fiber optic
backbone, a plant -based PLC control system, and an
electrical master plan.
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Firm's Capability
Phase 4B included a dissolved air flotation thickener
and supplemental air system. Phase 4C included a new
fine bubble diffusion reactor and a blower building with
three 800-hp single -stage medium voltage blowers,
a 12-kV electrical switchgear line-up in a main -tie -
main arrangement, two new 4.16-kV substations
and switchgear, and two new 480-V substations and
switchgear.
Phase 4D included
the conversion
of the existing
oxidation ditches
to four fine -bubble
diffusion reactors;
addition of two
800-hp single -stage
blowers; substations
ES-1, ES-2, and ES-3; and new motor control centers
for the reactors. Intermediate phase projects include
the interim blower facility with four 125-hp positive
displacement blowers, electrical renovation of the
power and controls for the solids dewatering facility,
two new DAFT facilities, and a tertiary water filtration
plant.
Arapahoe County Water and Wastewater
Authority, CO
Electrical, Instrumentation and Control Services
Carollo provided EI&C engineering services for
a SCADA system master plan at the Deer Trail
Wastewater Treatment Plant. Electrical and
instrumentation design included the renovation of
Well No. 3 and the replacement of the control system
for Pump Station and Tank No. 1.
Colorado Springs Utilities, CO
Pump Station Electrical Upgrades
Carollo provided EI&C engineering services for the
replacement of the pump station electrical system for
the Colorado Springs Water Utilities.
McCullough Water Treatment Improvements
Carollo provided EI&C design and construction
services for the McCullough Water Treatment
Improvements. The project included electrical power,
instrumentation, and control for the addition of a
liquid hydrofluosilicic acid feed system for the plant.
Woodmen Water Treatment Plant Expansion
Carollo provided EI&C engineering design services
for the Woodmen Water Treatment Plant Expansion.
The M project included a
new electrical service
instrumentation
backbone, DeviceNet,
and Profibus industrial
networks. The project
scope encompassed
multiple well sites, new
filters and a 450 Hp
transmission pump.
Metro Wastewater Reclamation District, CO
South Secondary Treatment Improvements
Carollo provided engineering services for the PAR
1085 South Secondary Treatment Improvements
project. The project goal was to convert the complex
from a high purity oxygen activated sludge process to a
biological nutrient removal air activated sludge process
to meet discharge permit levels while increasing the
capacity to 100 mgd.
The project included: interfacing to two new Xcel
Energy 13.2 kV Feeders; one new 15 kV switchgear
line-up; modifications to an existing 15 kV switchgear
line-up; one new 5 kV switchgear line-up; seven new
480 V double -ended low -voltage switchgear line-ups;
three new 7500 kVA 13.2 kV/4.16 kV substation
transformers; fourteen new 13.2 kV/480 V substation
transformers of various sizes; sixteen new motor control
centers with DeviceNet capabilities; five new 2000 Hp
blowers, 5 kV reduced voltage soft -starters (RVSS);
five new 18-pulse VFDs for 480 V, 450 Hp, 360 rpm
pumps; fourteen new 18-pulse VFDs for 480 V, 125
Hp pumps; extensive cable tray systems; lighting,
receptacles, HVAC, paging system, and Fire Alarm
system to support all new facilities; site electrical
demolition, relocation and new installation including
concrete reinforced duct banks, manholes, handholes,
grounding.
VAC1ient79\FortCo1 Tins\Prop\OnCaIIElec-20I0\Indd\03-Firm.indd
Firm's Capability
Extensive digital bus architecture is used throughout
the facilities. Networks encompass Profibus DP, Profibus
PA, ControlNet, DeviceNet, Modbus TCP EtherNet/IP
MODBUS TCP/IP and wireless 802.11g/n.
North Secondary Treatment Improvements
Carollo provided engineering services for their North
Secondary Treatment Improvements project. The
project consists of
capacity and operational
improvements to
MWRD's 160-mgd
Central Treatment Plant
(CTP). The CTP site is
home to two separate
treatment plants, each
rated from 60 to 90
mgd. The South Plant
is a high -purity oxygen
(HPOS) activated sludge
process designed for carbonaceous BOD removal
only. Carollo provided preliminary and final design
engineering of two important components of the
facility upgrades required to move the CTP facility
toward compliance with future discharge criteria. The
estimated cost for the North Secondary Treatment
Improvements project is approximately $55 million and
is in construction.
Upper Blue Sanitation District, CO
Farmers Korner Centrifuge Replacement
Carollo provided engineering services for the Farniers
Korner Centrifuge Replacement project. The project
includes the addition of power and control for a new
centrifuge and sludge pump system. In addition one of
the existing motor control centers will be replaced with
a new DeviceNET intelligent motor control center.
Farmers Korner Wastewater Treatment Plant SCADA
System Upgrade
Carollo provided engineering services for the Farmers
Korner Wastewater Treatment Plant SCADA System
Upgrade. The project includes renovating and
upgrading the control system for the entire facility. The
design utilized DeviceNET Motor Control Centers,
for new PLC -based control panels and an Ethernet
network system.
Farmers Korner North Plant Expansion
Carollo provided engineering services for design of the
Upper Blue Sanitation District for a 2-mgd expansion
(to 6 mgd) to the Farmers Korner WWTP to meet
future growth. The project follows the engineering
study completed by Carollo, which evaluated treatment
alternatives and associated costs for the next two
decades at both the Iowa Hill Water Reclamation
Facility (IHWRF) and the Farmers Korner Treatment
Plant (FKTP).
A major challenge of the project was selecting the
right treatment alternative. The District's two main
treatment plants (IHWRF and FKTP) have stringent
phosphorus limits that are only duplicated at a few
plants across the U.S.
The expansion,
which currently is
under construction,
will include
headworks, influent
pumping, activated
sludge, secondary
clarification,
chemical phosphorus
removal using high -rate flocculation/clarification,
tertiary filtration, disinfection, and aerobic digestion.
Other key elements of this project include: a fast -track
schedule, and permitting and planning to navigate
the regulatory process with Summit County and its
officials, as well as state and federal agencies such
as the Colorado Department of Public Health and
Environment (CDPHE) and U.S. Army Corps of
Engineers.
City of Broomfield, CO
Storage Tank Project
Carollo provided EI&C design services for a 3-million
gallon water storage tank for the City of Broomfield.
The new tank includes an ultrasonic level transducer,
radio telemetry, and tank lighting.
VACI ient79\Fo rtCo I It ns\Prop\O nCa I Elec-20I0\Indd\03-Firm.indd
Firm's Capability
Pinery Water & Wastewater, CO
City of Boulder, CO
Electrical, Instrumentation and Control Services
Carollo provided engineering services for various
projects including deep wells, shallow wells, pump
stations and harmonic evaluations. The deep
wells utilize low -voltage VFD and RVSS starters.
Transformers are used to step-up the starters output
potential to a medium -voltage level for the down -hole
feeders to reduce cable losses.
City of Aurora, CO
Aurora Prairie Waters Project, Aurora Reservoir
Water Purification Facility Third -Party Construction
Management
Carollo was selected by the City of Aurora to provide
third -party construction management for the Aurora
Reservoir water purification facility. It is the largest
of 11 projects comprising the overall Prairie Waters
project for the City of Aurora. The site is a Greensfield
site located
next to Aurora
Reservoir. The
contractor,
WSCI, has
made excellent
progress in
pulling the
project ahead
of schedule.
Currently they are 13 percent ahead of the planned
schedule percent complete. The cost growth on the
project has been less than one percent.
Carollo's construction management services include
provide on -site project controls, contract change
management, submittal and RFI tracking and directing,
and full inspection services for quality assurance. The
contractor is responsible for quality control. Carollo has
subcontracted for a portion of these QA services.
Betasso WTP Settling Residuals Project
Carollo provided engineering services to evaluate,
predesign, design, and construct a system to improve
residuals handling; enhanced rapid mix, flocculation,
and sedimentation performance; and implement other
potential plant modifications that helped improve plant
operations and finished water quality.
The phase upgrade to the 42-mgd plant established
the status and future vision for the plant; evaluated
alternatives for improving residuals handling,
pretreatment, and other necessary plant modifications;
and created a predesign report that became the basis
for final design and construction.
Carollo completed final design and construction of
the recommended process improvements, including
preparing final design documents, conducting project
workshops, QM review, and project and construction
management.
Ute Water Conservancy District, CO
Ute Water Treatment Facility Upgrades
Carollo designed the upgrade of the Ute Water
Treatment Facility. The project involved rehabilitating
two of the existing
mixed media filters
and the addition
of four additional
filters. The PLC
and SCADA
programming
was upgraded to
provide an improved
automated backwash
control system. Carollo worked closely with the
established design build team to provide design services
as well as construction and startup support.
VACI ient79\FortCoIIi ns\Prop\OnCaIIElec-2010\Indd\03-Firm.indd
Firm's Capability
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• Cost and Work Hours
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We propose providing our services on a project -by -
project basis. We will negotiate a fee for each project
based on scope, budget, and schedule to meet your
needs, taking care to provide the City with accurate,
reliable cost and work hour estimates. Our current
2010 fee schedule is presented below.
Carollo Engineers, Inc. Fee Schedule
as of March 1, 2010
Engineers/Scientists
Hourly Rate
Assistant Professional
$125.00
Professional
158.00
Project Professional
189.00
Lead Project Professional
195.00
Senior Professional
195.00
Technicians
Technicians
100.00
Senior Technicians
125.00
Support
Word Processing/Clerical
81.00
Project Equipment Communication
Expense (PECE)
Per DL Hour
9.00
Other
Travel and Subsistence
At Cost
Mileage IRS Reimbursement Rate
Subconsultant
Cost + 10%
Other Direct Cost
Cost + 10%
Expert Witness
Rate x 2.0
Note: This fee schedule is subject to annual revisions
due to labor adjustments.
Cost and Work Hours
VAC1ient79\FortCo11ins\Prop\OnCaIIElec-2010\Indd\04-Cost.indd
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William 1. Tomerlin
Education
MS Chemistry, Arkansas
State University, 1980
BS Mathematics,
Arkansas State
University, 1973
Licenses
Water Treatment Plant
Operator, Class A,
Colorado
Wastewater Treatment
Plant Operator, Class A,
Colorado
Mr. Tomerlin, a process and operations
specialist with Carollo Engineers, has
35 years experience in water and
wastewater treatment plant operations,
maintenance, control systems, and
management. He works on a company -wide
basis with plant operators and managers to
test, start-up, optimize, and troubleshoot
water and wastewater treatment plants.
Prior to joining Carollo, Mr. Tomerlin
operated municipal water and wastewater
treatment plants in Arkansas and Colorado.
His experience includes staff development,
start-up, optimization, and training for the
Paragould Water Works (PWW) water
treatment facility as operation supervisor
and plant superintendent for wastewater
treatment facilities. In Colorado, his water
and wastewater experience includes staff
development, start-up, optimization, and
training as an industrial pretreatment
program manager, wastewater plant
supervisor, wastewater plant
superintendent, water and wastewater
Capital Improvement Program (CIP)
project manager, and water and wastewater
process and systems manager for Fort
Collins Utilities (FCU).
Mr. Tomerlin's municipal water treatment
experience includes master planning,
design review, start-up, operation, and
training of most major unit processes
utilized for treating municipal water
treatment, including flow blending, rapid
mix, flocculation, sedimentation, filtration,
disinfection, solids handling, pumping, and
storage facilities. Water treatment support
systems experience includes UV
disinfection, electrical distribution and
power feed systems, instrumentation and
control systems, and chemical feed systems
for alum, chlorine, chlorine dioxide,
powder activated carbon, polymers,
potassium permanganate, fluoridation,
lime, and carbon dioxide.
Mr. Tomerlin's municipal wastewater
experience includes master planning,
design review, start-up, operation, and
training of most major unit processes
currently utilized for treating municipal
V:\Client79TortCollins\Prop\OnCallElec-2010\Resumes\01-Tomerlin W.doc
wastewater including headworks, primary
treatment, biotowers, trickling filters,
secondary nitrification and denitrification
systems, disinfection, solids digestion,
thickening and dewatering processes,
composting, and odor control systems.
Wastewater treatment support systems
experience includes electrical distribution
and power feed systems, instrumentation
and control systems, and chemical feed
systems for ferric chloride, magnesium
hydroxide, alum, chlorine, sulfur dioxide,
and polymer.
Water and Wastewater Projects
• Project manager of the facilities
evaluation for FCU's Asset Management
Program. Responsible for data collection,
condition assessment, risk scoring, and
renewal forecasting for the water,
distribution, wastewater, and stormwater
facilities.
• Project manager for the carbon
footprint evaluation for FCU's two water
reclamation facilities.
• Project manager and process systems
supervisor for development of supervisory
control and data acquisition (SCADA)
systems used for FCU water and treatment
facilities, including on -going system
upgrades.
• Process and systems supervisor for
FCU water and wastewater in-house
SCADA system design, installation, and
upgrades, including operation and
maintenance functional descriptions, loop
and control descriptions, maintenance
management program, programmable
logic controllers, human -machine
interfaces, process and historical
databases, systems start-up, and training.
• Project manager for FCU water and
wastewater treatment master planning and
subsequent updates, wastewater sludge
master plan, 20-year water and wastewater
facility master plans, water and wastewater
budgeting and capital improvement, and
replacement program projects.
QCaru191,
Engineers... Working Wonders With Water"
William J. Tomerlin
• Project manager and process systems supervisor
for development and upkeep of operation,
maintenance, and engineering process, and
instrument diagrams, equipment databases,
operation and maintenance manuals, and standard
operating safety procedures for FCU water and
wastewater facilities.
• Project manager and process systems supervisor
for FCU design -build projects, resident engineering,
start-up assistance, and training for 87-mgd water
treatment facility expansion, waste solids processing
facilities, 6-mgd Mulberry wastewater facility, 23-
mgd Drake wastewater facility, septage facility and
chemical feed stations.
• Project manager for FCU water and wastewater
treatment electrical system master planning, system
implementation, and start-up services. Project
manager for master planning, conceptual and final
design, installation, programming, and control and
loop descriptions for treatment, support
instrumentation, and control systems.
• Operations specialist for value engineering of
the Sammamish Water Reclamation facility, King
County, Washington.
Wastewater Operations
• Program manager for the industrial pretreatment
program implementation and monitoring program
for compliance with NPDES permit for FCU and
PWW. Developed FCU wastewater utility ordinance
for municipal and industrial discharges and waste -
load surcharge program.
• As PWW plant superintendent developed and
implemented program to hire, train, and certify
wastewater staff to maintain and operate two
wastewater treatment facilities and 23 remote
pumping facilities.
• As plant supervisor developed personnel
structure and job descriptions used by FCU
wastewater treatment division featuring
specialization of duties and supervision by function
rather than individual facility; provided mechanism
for shift personnel to move into new roles with
career advancement opportunities; created a
structure that absorbs million dollar expansions with
minimal or no staff additions.
V:\Client79\FortCollins\Prop\OnCallElec-20I O\Resumes\01-Tomerlin W.doc
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• Process and systems specialist for FCU
wastewater studies related to pH, chemical and
nutrient addition, capacity optimization, beneficial
reuse of sludge, solids applications on range land,
digester gas reuse, energy management, and
brewery wastewater treatment.
Water Operations
• Chief operator for 3-mgd ground water pumping,
ferric oxidation, chlorination, fluoridation,
distribution pumping, and storage facilities at
PWW.
• Process and systems specialist for FCU during
design, start-up, testing, and training for two 23-
mgd water treatment trains including alum,
polymer, pre -lime and carbon dioxide feed systems,
backwash water recycle pumping and UV
disinfection system, fluoride feed system, post
stabilization lime and carbon dioxide feed systems,
and a powder activation carbon feed system for taste
and odor.
QCar�
Engineers... Working Wonders Kith Water"
Monte Richard
Education
MS Electrical
Engineering, Colorado
School of Mines, 2009
BS Electrical
Engineering, Colorado
School of Mines, 2003
Licenses
Professional Engineer,
Colorado
Professional
Affiliations
Institute of Electrical and
Electronic Engineers
Illuminating Engineering
Society of North America
Mr. Richard, brings more than seven
years experience in electrical and
control system engineering and design. His
focus is in electrical distribution systems,
process control, and industrial
instrumentation for water and wastewater
facilities. His project experience includes:
Electrical and Instrumentation
• Electrical and instrument design
engineer for the Point of the Mountain
Water Treatment Plant for Metropolitan
Water District of Salt Lake City and Sandy,
Utah. This project involved the
implementation of a new filtration plant
and raw water pumping station. The
pumping station required medium -voltage,
variable frequency drives to run 1,250 and
2,000-Horsepower motors.
• Lead electrical design engineer for the
City of Richmond, Missouri, Wastewater
Improvement Project. This project involved
the addition of a clarifier and blower
structure to the existing wastewater plant.
• Lead electrical and instrumentation
design engineer for a new filter plant for
the Mountain House Water Treatment
Plant, San Joaquin County, California. This
design -build project required working in
conjunction with the general contractor to
provide efficient design and on -site
construction services. The project included
the design of an electrical distribution
system consisting of a new service
entrance, switchgear, motor control centers,
and associated electrical distribution
equipment. The project consisted of the
design of a new SCADA network system,
fiber communications backbone and a
security system with a dedicated
communication network. Electrical,
instrumentation and control construction
management services where provided
throughout construction and startup.
• Project manager and lead electrical and
instrumentation design engineer for various
projects for the City of Fort Collins,
Colorado. This series of design -build
projects required on -site construction
services and a close working relationship
V:\Client79\Foncollins\Prop\Oncallelec-2010U tesumes\02-Richardm. Doc
with the contractor. The projects included
the design and construction of a new
chemical storage facility, pump station,
fluoride, mag, and polymer chemical feed
system, emergency generator, PAC system
improvements, an odor control system,
seepage receiving, several MCC
replacements, UPS support systems, and
several other plant improvements.
• Project manager and lead engineer
responsible for providing an Electrical
Master Plan to the City of Fort Collins,
Colorado water treatment facility. The
plan detailed the electrical distribution
system along with vulnerability studies
and suggested improvements. An
improvement plan was provided to assist
the client in budgeting construction and
improvement efforts for ten years of
reliable operation.
• Project manager and lead engineer
responsible for providing an Arc Flash
Study to the City of Fort Collins, Colorado
water treatment facility. The study
included field investigations to create a
fault current study, protective device and
coordination study, and arc flash study. A
document management plan was provided
to assist the client in keeping the
documents current as required by
applicable codes and standards.
Lead electrical and instrumentation
design engineer for the Betasso Water
Treatment Plant improvements for the City
of Boulder, Colorado. The project
included various upgrades to the water
treatment plant including flash mix, sludge
drying beds and a new PAC system
design.
• Lead electrical and instrumentation
design engineer for the Turkey Creek
pump station improvements project for
Johnson County Wastewater, Kansas. The
project included a complete replacement
of the existing electrical distribution
system including new service entrance
switchgear, motor control centers, variable
frequency drives, and related electrical
distribution equipment. The project
included the design of a new plant
Qca•-
Engineers... Working Wonders With Water-
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• TABLE OF CONTENTS
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• Scope of Proposal
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• — Resumes
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Monte Richard
SCADA system, PLC system, fiber communications
backbone running along a new force main and a
spread spectrum radio system.
• Lead instrumentation design engineer for a filter
plant expansion for the Henry C. Garnett Water
Purification Plant expansion in Kern County,
California. The project involved doubling the filter
plant capacity by designing a second treatment train
including a raw water and treated water pump
station, filters, flocculation and sedimentation
basins, and chemical systems. The project included
the design of a new plant -wide SCADA system,
PLC system and redundant fiber communications
backbone.
• Lead instrumentation design engineer for the Ute
Water Treatment Plant filter upgrades project for
City of Ute, Colorado. This design -build project
included an addition of four media filters and the
rehabilitation of four existing filters. The project
involved upgrades to the existing SCADA and PLC
network as well as a new plant fiber optic backbone.
In order to give flexibility during a backwash a new
automated control strategy was implemented,
allowing operators to select an automated filter to
waste, scour wash, rinse to waste and filter resting.
• Project Manager and lead instrumentation and
electrical design engineer for the Mulberry Water
Reclamation Facility upgrades project for City of
Fort Collins, Colorado. This design -build project
included a complete replacement of the existing
electrical distribution system including service
entrance switchgear, motor control centers, variable
frequency drives and related distribution equipment.
The project also included an upgrade of the existing
control system including the implementation of a
digital bus communications network for all major
electrical distribution components as well as
instrumentation.
• Performed electrical and instrumentation
QA/QC review of the final design of the Dawson
Creek Pump Station for Clean Water Services in
Oregon. The design review included the electrical
distribution system as well as the control and
instrumentation system.
• Electrical and instrumentation design engineer
for VFD replacements at the South Valley Water
Reclamation Facility in Utah. The project included
V:\Client79\Foncollins\Prop\Oncallelec-201 Mesumes\02-Richardm.Doc
Page 2
the replacement of six 250-Horsepower VFDs and
associated controls for the headworks lift pumps.
• Electrical and instrumentation design engineer
for expansion of a filter plant for Ashley Valley
Water Treatment Plant in Utah. The project
included electrical distribution design for the
addition of flocculation and sedimentation basins,
mixed media filters, chemical additions and
associated instrumentation and control.
• Lead instrumentation and control design
engineer for the City of Oceanside, California,
Water Treatment Plant SCADA Improvements
Project. This project involved the design of a
distributed PLC and SCADA system on a fiber optic
network backbone.
• Lead electrical, instrumentation and control
design engineer for the City of Bellingham,
Washington, Water Treatment Plant Improvements
Project. This project involved the addition of air
scour to the filter backwash as well as upgrades to
the automated filter backwash system.
• Electrical, instrumentation and control design
engineer for the City of San Diego, California,
Influent Pump Stations No. 1 and No. 2
improvements. This design -build project included
the replacement of two medium voltage service
entrance switchgear lineups, two unit substations,
and six medium voltage starters for 1250-
Horsepower motors.
• Lead electrical and instrumentation design
engineer for a new administration building and
control center for the Mountain House Water
Treatment Plant, San Joaquin County, California.
The project included the design of a central SCADA
control center for automated operation of the water
treatment plant.
• Lead electrical and instrumentation design
engineer for two distribution pump stations for the
Mountain House Wastewater Treatment Plant, San
Joaquin County, California. The project included
the electrical distribution, standby generation
system, and instrumentation and control design for
two remote wastewater pump stations being added
to the Mountain House wastewater distribution
system.
QCary
Engineers... Working wonders With Water—
Monte Richard
• Lead instrumentation design engineer for the Ute
Water Treatment Plant filter upgrades project for
City of Ute, Colorado. The project included an
addition of four media filters and the rehabilitation
of four existing filters. The project involved
upgrades to the existing SCADA and PLC network
as well as a new plant fiber optic backbone. In order
to give flexibility during a backwash a new
automated control strategy was implemented,
allowing operators to select an automated filter to
waste, scour wash, rinse to waste and filter resting.
V : \Client79\Fortcol f ins\Prop\Oncallelec-2010\Resumes\02-Richardm.Doc
Page 3
Qca 7
Engineers... Working Wonders With Water'-
Christopher A. Heger
Education
BS Electrical
Engineering, Colorado
School of Mines, 2008
Licenses
Engineer -in -Training,
Colorado
Professional
Affiliations
Institute of Electrical and
Electronics Engineers
Mr. Heger joined Carollo in 2008,
gaining experience in construction
management and electrical and
instrumentation design for both water and
wastewater treatment facilities.
He also has in-depth knowledge of a variety
of software packages including Word,
ETap, AmpCalc and Excel. Common tasks
with automated sequences include conduit
schedules, voltage drop worksheets, and
load studies.
Water
• Electrical design for the Naval Air
Station Water Treatment Plant Upgrades in
Lemoore, California. In the project, an
Ammonia Feed Facility was added to the
plant. Design included one -lines,
elevations, and conduit/duct bank routing.
• Electrical design of the Generator
Replacement Project for the Laporte Water
Treatment Facility of Fort Collins. The
project included the replacement of three
on -site generators and fuel storage for 72
hours of running capacity. Design included
one -lines, electrical gear elevations, conduit
and duct bank routing, automatic transfer
gear, and P&IDs.
Wastewater
• Electrical, instrumentation and control
design of Mulberry Water Reclamation
Facility for City of Fort Collins. The
project included the addition of an aeration
basin, blowers, odor control, sludge
pumping and renovation of the final
clarifier and headworks facility. Design
included one -lines, motor control center
and switchgear elevations, conduit and duct
bank routing, switchgear, process P&IDs,
Profibus network, and process control
descriptions.
Electrical and instrumentation design
for the UV disinfection project for the
Belton Wastewater Treatment Facility. The
project included the addition of a UV
disinfection system and the replacement of
the facilities non -potable water pumps.
Design included one -lines, standby power
generation studies, conduit routing,
V:\Cli ent79\FortCol Tins\Prop\OnCal I EI ec-2010\Resumes\03-H egerC. doc
switchgear, automatic transfer gear,
schematics, and process P&IDs.
• Electrical design for Pump Stations I
and 2 for the City of San Diego. The
project included replacing the service
entrance switchgear and distribution
equipment for the 6 — 600 HP pumps at
Pump Stations I and for the 6 — 2250 HP
pumps at Pump Station 2. Design included
switchgear and relaying design, one -lines,
elevations, conduit and duct bank routing,
and P&IDs.
Construction Management
• Construction management services
during the construction of Mulberry Water
Reclamation Facility for the City of Fort
Collins. The project included the addition
of an aeration basin, odor control, sludge
pumping and miscellaneous renovation
projects. Construction responsibilities
included submittal reviews, design
changes, site inspections, and as -built
drawings.
• Construction management during the
construction of PAR 942 North Secondary
Complex Improvements for the Metro
Wastewater Reclamation District, Denver,
Colorado. The project included renovation
for the secondary aeration basins,
secondary clarifiers, new CaRRB basins,
and electrical switchgear structures.
Construction responsibilities included
submittal reviews, and design changes.
Other
• Electrical system study for the City of
Fort Collins Mulberry and Drake Water
Reclamation Facilities and the Laporte
Water Treatment Facility for the City of
Fort Collins. The study included a load
study, shock hazard analysis, arc flash
hazard analysis, and the protective device
coordination studies.
• Carbon Footprint analysis for the City
of Fort Collins Mulberry and Drake Water
Reclamation Facilities.
QCar�
Engineers... Working Wonders With Water^
M
Education
L. Morroni
MS Physics, Colorado
School of Mines, 1974
BS Engineering Physics,
Colorado School of
Mines, 1971
BS Engineering
Mathematics, Colorado
School of Mines, 1971
Licenses
•
Professional Engineer,
•
Colorado, North
Carolina, Florida,
•
Alabama, Georgia, South
Carolina, Utah,
•
Wisconsin, West Virginia,
Kansas, Maine, Montana
Electrical Engineer,
Washington, Wyoming,
Idaho, New Mexico,
South Dakota, California,
Minnesota, Kentucky
Professional
Affiliations
American Water Works
Association
Institute of Electrical and
Electronic Engineers
Instrument Society of
America
International Association
of Electrical Inspectors
National Council of
Examiners for
Engineering and
Surveying
National Society of
Professional Engineers
Mr. Anthony Morroni, a partner with
Carollo Engineers, has an extensive
background in the electrical
engineering field, from both a practical and
a theoretical perspective. His work
integrates a strong background in
mathematics and physics to provide
effective, innovative solutions to
engineering problems. Hands-on
experience allows Mr. Morroni to combine
electrical engineering knowledge and field -
proven construction techniques to
consistently produce sound electrical
projects.
Mr. Morroni is a former president of
Morroni Engineering, Inc., which merged
with Carollo in 2001. His experience has
focused on electrical power systems design
and electronic instrumentation since 1972.
Representative projects include:
Alternative Energy/Cogeneration
• Technical advisor for a solar
photovoltaic (PV) system design project for
the Kern County Water Agency
Improvement District No. 4 (ID4),
Bakersfield, California. The project
included a 1-MW, single -axis tracking solar
photovoltaic system for the Henry C.
Garnett Water Purification Plant, where it is
connected to the facility power distribution
system. The PV system, at maximum
output, provides approximately 12 percent
of the plant's peak power demands.
Carollo developed performance -based
specifications, a site plan, and Rule 21
interconnection drawings. The Kern County
Water Agency developed the alternative
energy source to participate in Pacific Gas
and Electric's (PG&E) Self -Generation
Program, which offers a monetary
incentive. Carollo assisted the Kern County
Water Agency and made application on its
behalf for PG&Es 2007 California Solar
Initiative Program. The application was the
first qualifying application for this program
and could total as much as $5 million for
the agency.
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• Electrical and I&C engineer for the
8.5-MW digester gas cogeneration facility
at the South Wastewater Treatment Plant
for the King County Department of
Natural Resources, Seattle, Washington.
The project included the complete
electrical and instrumentation design for
two 3.5-MW gas turbines, one 1.5-MW
combined cycle steam turbine, two heat
recovery steam generators, and complete
electrical power system interconnection
design to Puget Sound Electrical Utilities'
115-kV power grid. The project also
included an electrical energy audit, a
lighting system efficiency report, an
influent pump station variable frequency
drive report, and a digester gas boiler
project.
Water Treatment - Granular
Media Filters
• Lead electrical and instrumentation
engineer for the Henry C. Garnett Water
Treatment Facility for the Kern County
Water Agency, California. The project
consisted of designing a new 30-mgd
water treatment facility complete with
flocculation, sedimentation, and mixed
media filters; the rehabilitation of the
existing 30-mgd water treatment plant; and
the design of a new 2,000-hp raw water
pump station.
• Lead electrical and instrumentation
engineer for the Point of the Mountain
Water Treatment Plant for Metropolitan
Water District of Salt Lake and Sandy,
Utah. This 70-mgd green -field facility is
expandable to 210 mgd. The power system
includes a 21-MW, 12.24-kV service; a
15-kV switchgear line-up in a min -time -
main configuration; 6-MW of standby
generation expandable to 8 MW; a 5-kV
switchgear line-up for the pump station;
and five 480-V double -ended substations.
The control system is comprised of all
field bus controls utilizing Foundation
field bus, Profibus DP, Profibus PA, and
device net. The entire input/output for the
plant is on one of the field bus networks
except for 70 discrete points that float
switch inputs.
CrCar�so
Engineers... working wonders With water-
Anthony L. Morroni Page 2
• Electrical and I&C engineer providing complete
power, control, and instrumentation design for
Phase I and Phase II of the Marden Street Water
Treatment Plant for United Water Idaho. The
project included a standby power system, an in -
plant SCADA system, an influent screening facility,
raw water wells, a raw water pump station, super
pulsator clarifiers, a flocculation basin, constant
level filters, a chlorination system, chemical feed
systems, and a finished water pump station.
• Designed electrical and instrumentation
engineering systems for the Moorhead Water
Treatment Plant for the City of Moorhead Water
Utilities, Minnesota.
• Provided complete electrical and instrumentation
design for the 35-year-old Ogden Water Treatment
Plant for the City of Ogden Water Utility, Utah. The
project also involved review of the distribution
reservoir and telemetry system.
• Electrical and I&C engineer for various projects
for the Weber Basin Water Conservancy District,
Langdon, Utah. These projects included the Water
Treatment Plant No. 4 Filter Modifications and
Additions Project, the Water Treatment Plant No. 4
Chemical Feed Facility Project, the Water
Treatment Plant No. 4 New Electrical Service and
Standby Power Project, the Water Treatment Plant
No. 4 Fluoride and UV Disinfection Project, the
Water Treatment Plant No. 3 complete plant
replacement project, and the Water Treatment Plant
No. 2 complete plant replacement project. All
projects included completely new PLC -based
control systems, PC -based SCADA systems, and
new power systems with standby diesel engine -
driven generators.
• Electrical and I&C engineer for the Southeast
Regional Water Treatment Plant Actiflo®
Pretreatment Facility Project and the Jordan Valley
Water Treatment Plant Flash Mix System Project
for the Jordan Valley Water Utility, Utah.
• Electrical and I&C engineer for the Rawlins
Water Treatment Plant Actiflo® Pretreatment and
DE Filter Modifications Project for the City of
Rawlins Water Utility, Wyoming.
Ongoing electrical and I&C design services for
numerous design -build projects to upgrade water
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and wastewater treatment facilities for the City of
Fort Collins, Colorado. These projects have been in
progress since 1995, with a total estimated contract
amount of over $35 million. A recent upgrade to
Fort Collins' conventional water treatment facility
added two new treatment trains, bringing the total
number of granular media filters on-line to 23. The
chemical feed equipment was upgraded to provide
capacity to treat 90 mgd.
At Fort Collins' LaPorte Water Treatment Plant,
work included upgrade of the pressure dissipation
vault, the chlorine dioxide chemical feed system,
the chlorine feed system, Treatment Trains Nos. 5
and 6, the primary power distribution system, the
control systems for Filters 1 through 20, the
addition of Filters 21 through 23, a backwash pump
station, the Tri-District Intertie, and the fluoride
feed system. Work included complete record P&IDs
and complete record electrical one -lines of the
existing facility. Work also included additional
upgrades to the Goat Hill Reservoir and Telemetry
System, as well as the Foothills Reservoir and
Telemetry System.
• Electrical and I&C engineer for the Sioux Falls
Water Treatment Plant Filter/Chemical System
Upgrade for the City of Sioux Falls Water Utilities,
South Dakota. The project replaced the existing
filter underdrain with a new cast -in -place, nozzle -
type underdrain. Work included installation of filter
"adsorber" media consisting of 20 inches of GAC
over 10 inches of sand. Based on pilot studies and
full-scale investigation, work also included filter
rehabilitation resulting in a total filter area of 7,000
square feet and a rating of 60 mgd.
• Provided electrical and instrumentation design
services for the Highlands Ranch Water Treatment
Plant for the Centennial Water and Sanitation
District in Highlands Ranch, Colorado. Responsible
for the design of the primary medium -voltage
distribution system for the water treatment plant and
the Zone 2 clearwell pump station. Designed the
electrical site duct bank systems between the
existing facility, the chemical feed-
flocculation/sedimentation building, the filter
building, the Zone 2 clearwell pump station, and the
waste washwater pump station. Also provided
complete on -site electrical and instrumentation
construction services for the existing facility, the
chemical feed-flocculation/sedimentation building,
QCA F
Engineers... Working Wonders With Water'
Anthony L. Morroni Page 3
the filter building, the Zone 2 clearwell pump
station, and the waste washwater pump station.
• Performed electrical and instrumentation
QA/QC review of the final design of the Boyd Lake
Water Treatment Plant for the City of Greeley
Water Utility, Colorado. The design review
included the primary medium -voltage distribution
system, the low -voltage system, and the control and
instrumentation system. The project included review
of the pump station; the filter/control building; the
underground power system; the low-, medium-, and
high -voltage power distribution systems; the
flocculation basins; and the sludge system.
• Electrical and I&C engineer for a renovation
project for the Havre Water Treatment Plant for the
City of Havre, Montana. The project scope included
complete renovation of the existing filters including
a new control system, addition of two new rate -of -
flow control filters, a new inlet structure with
pumped flash mix, a flocculation and sedimentation
basin, a new chemical feed facility, new electrical
service, a new switchgear, an engine generator and
automatic transfer system, and a complete in -plant
SCADA system.
• Electrical and I&C engineer for the Garden City
Water Utility, Boise, Idaho.
• Electrical and I&C engineer for a preliminary
design report for the new Ave Maria Water
Treatment Facility for the Barron Collier Company,
Collier County, Florida.
• Electrical and instrumentation design of the new
chemical facility for Green River Water Treatment
Plant for the City of Tacoma, Washington.
• Electrical and I&C engineer for various projects
for the El Dorado Irrigation District, California.
• Electrical and I&C engineer for the Ute Pass
Water Treatment Plant and soda ash facility for the
Colorado Springs Water Utilities, Colorado.
• Complete electrical and instrumentation system
design of the McCall Water Treatment Plant for the
City of McCall, Idaho.
V 9C1ient79\rortCo11 ins\Prop\0nCa11E1ec-2010\Resumes\04-MorroniA.doc
• Electrical and I&C engineer for the lime
saturator and chemical feed system for the City of
Lake Oswego, Oregon.
• Electrical and instrumentation design for a new
raw water inlet facility, a chemical feed facility,
three rapid mix trains, six flocculation and
sedimentation basins, and a disinfection facility for
the Lake Stanley Draper Water Treatment Plant for
Oklahoma City, Oklahoma.
• Electrical and I&C engineer for design of the
upgraded facilities at the 8-mgd water treatment
plant for United Water Missouri in Jefferson City,
Missouri, which uses lime softening for treating the
Missouri River raw water supply. The first phase of
this project included the addition of new chemical
feed storage facilities along with new emergency
power.
• Complete electrical and instrumentation design
for a filter -to -waste system, chemical feed building,
and disinfection facility for the Jefferson City Water
Treatment Plant for United Water Missouri in
Jefferson City, Missouri.
• Complete electrical and instrumentation design
for a filter -to -waste system, chemical feed facility,
and sodium hypochlorite disinfection system for the
Naches River Water Treatment Plant for the City of
Yakima, Washington.
• Electrical and I&C engineer for the Missouri
River Water Treatment Plant for the City of Helena,
Montana. The project included a new treated water
pump station, a chlorine feed system, and a chlorine
scrubber system. The project also included a new
plant SCADA system with complete remote control
capabilities so that this new facility can be remotely
operated from the Ten Mile Water Treatment Plant.
• Electrical and I&C engineer for a pre -final
design of facilities for a Northwest Area Water
Supply Project for the North Dakota State Water
Commission and the Garrison Diversion
Conservancy District, North Dakota. The plan
includes treatment of water from the Missouri
River, Lake Sakakawea, and Lake Audubon at
expanded and upgraded water treatment plants at
Williston, Parshall, and Minot. The project included
distribution using pump stations and reservoirs
Qcarr
Enginoors... Working Wanders Wth Water-
Anthony L. Morroni Page 4
through three separate transmission systems and
design of a completely radio -based SCADA system.
• Electrical and I&C engineer for the Port of
Umatilla Water System for the City of Hermiston,
Oregon. The project scope includes the complete
renovation of the control system for a river intake
pump station and potable and non -potable water
treatment plants. The project also includes re-
programming of the Bristol Babcock 3330
distributive process controllers and upgrade and re-
programming of the Wonderware Intouch process
visualization software.
• Provided electrical engineering services for the
Maple Grove Filter Plant for the Consolidated
Mutual Water Company in Lakewood, Colorado.
Water Treatment - Micro filtration
Membranes
• Responsible for electrical and I&C design
services for the new membrane filtration plant
consisting of two trains of Memcor 90MI OC
microfiltration (MF) racks and one train of Memcor
108M 1 OC MF racks, with a summer capacity of 20
mgd and a winter capacity of 10 mgd for the
Kenosha Water Utility in Wisconsin. A new 40-mgd
treated water pump station with six 400-hp vertical
turbine pumps was also included, along with a raw
water pump station of the same capacity. New
power service consisted of transformers, primary
distribution gear, engine generators, and automatic
transfer equipment. Work also included design and
installation of a new water distribution radio -based
SCADA system. Services included a complete
metering system for all mains and branches, which
is monitored through a PC in the control room.
• Responsible for electrical and I&C design
services, including design of process and I&C
systems, for the Carmichael Water District's new
Bajamont Way Membrane Filtration Plant in
Sacramento, California. This new 18.3-mgd
ultrafiltration membrane plant consists of two trains
of 6-Memcor 90M 1 OC MF racks; a raw water pump
station consisting of three 300-hp vertical turbine
pumps, driven by clean power VFDs and sitting
atop a 120-foot-deep, raw water caisson; and a
treated water pump station consisting of three 300-
hp vertical turbine pumps, two driven by clean
V:\Client79\FortCollins\Prop\OnCalIEIec-201 Mesumes\04-MorroniA.doc
power VFDs and the third driven by a reduced
voltage solid-state starter (RVSS). A second stage
of membrane micro -filters takes the backwash reject
from the main plant and treats this waste stream to
reduce the amount of backwash reject. This
microfiltration plant also consists of 2-Memcor
48MIOC MF racks. Initially, the filtrate from this
plant was supposed to be recycled at a raw water
caisson; however, after sufficient performance tests,
the filtrate may be routed to the clearwell. The
resultant waste stream for this 18.3-mgd plant is 72
gpm, resulting in a treatment facility that is 99.5
percent efficient.
• Responsible for electrical and I&C design
services for the South Bend Membrane Filtration
Plant for the City of South Bend Water Utility,
Washington. This new membrane microfiltration
plant consists of two 6-Memcor 48M 1 OC MF racks
with a capacity of 720 gpm, a raw water pump
station consisting of three 25-hp raw water pumps
driven by VFDs, and a treated water pump station
consisting of three 40-hp pumps driven by RVSSs.
• Electrical engineer for design of the new 24-mgd
lime softening water treatment plant for the City of
Appleton, Wisconsin. The project involved
conventional lime softening coupled with MF to
treat the hard, organic -rich Lake Winnebago raw
water supply. Engineering services included
electrical design, instrumentation, and process
control.
• Electrical engineer responsible for complete
electrical and instrumentation design of the Lake
Forest Water Treatment Plant for the City of Lake
Forest, Illinois.
• Electrical and instrumentation engineer
responsible for a predesign report for the Yucaipa
Membrane Filtration Plant for the Yucaipa Water
Utility, California.
Water Treatment - Reverse Osmosis
Membranes
• Electrical engineer for a project expanding the
brackish groundwater treatment plant from 1.5 mgd
to 3 mgd for the South Island Public Service
District, Hilton Head, South Carolina. This project
QCaru�
Engineers... Working Wanders With Water'
Anthony L. Morroni
included new reverse osmosis (RO) membrane
equipment for geothermal well water.
• Electrical and instrumentation quality manager
for the Alameda County Flood Control and Water
Conservation District Zone 7 Water Agency Mocho
Groundwater Demineralization Project in
Pleasanton, California.
• Electrical and instrumentation lead engineer for
the Jordan Valley Water Conservancy District
Southwest Groundwater Treatment Plant RO
treatment facility in West Jordan, Utah.
• Electrical and instrumentation lead engineer for
the Pinewoods Water Treatment Plant Reverse
Osmosis Expansion Design for Lee County
Utilities, Fort Meyers, Florida.
Wastewater Treatment Plants
• Electrical and I&C engineer for plant
renovations to the South Valley Water Reclamation
Facility, West Jordan, Utah. The project scope
involved replacement of influent lift pump VFDs, as
well as a five -phase plant renovation. The Phase 4A
plant renovation included headworks renovation,
step screens, a vacuum conveyance system, washer
compactors, grit cyclones, aerated grit chambers, a
blower building, UV disinfection, a sodium
hypochlorite disinfection system, and a sodium
bisulfite dechlorination system. Also included in
Phase 4A was a new gigabit fiber optic backbone
and plant -based PLC control system and an
electrical master plan. Phase 4B included a
dissolved air flotation thickener and supplemental
air system. Phase 4C included a new fine bubble
diffusion reactor and a blower building with three
800-hp single -stage medium voltage blowers, a 12-
kV electrical switchgear line-up in a main -tie -main
arrangement, two new 4,16-kV substations and
switchgear, and two new 480-V substations and
switchgear. Phase 41) included the conversion of the
existing oxidation ditches to four fine -bubble
diffusion reactors; addition of two 800-hp single -
stage blowers; substations ES-1, ES-2, and ES-3;
and new motor control centers for the reactors.
Intermediate phase projects include the interim
blower facility with four 125-hp positive
displacement blowers, electrical renovation of the
power and controls for the solids dewatering
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Page 5
facility, two new DAFT facilities, and a tertiary
water filtration plant.
• Electrical and I&C engineer for multiple projects
for the Drake Water Reclamation Facility for Fort
Collins Water Utilities, Colorado. The 1992 plant
headworks project included a new headworks,
primary sedimentation basins, a diversion structure,
a scum system, a grit system, a screening system, an
odor control facility, a bio-tower, a bio-tower pump
station, a north process train blower building, a
chlorine facility, a dechlorination facility, and a
sample building. Additional projects included
complete renovation of the primary distribution
system, renovation of the digester gas compressor
building, renovation of Digesters 1 through 3
including power and controls, addition of Digester
No. 4, addition of a ferric chloride feed system,
addition of a centrifuge system for thickening and
dewatering, renovation of the dissolved air flotation
thickener, addition of a dissolved air flotation
thickener odor control system, and a new septage
receiving facility. Also provided complete record
P&IDs and complete record electrical one -lines of
the existing facility.
• Electrical and I&C engineer for multiple projects
for the Mulberry Water Reclamation Facility for
Fort Collins Water Utilities, Colorado. The projects
included replacing the existing electrical power
distribution system; renovating the plant headworks,
grit chamber, and primary clarifiers; replacing the
plant control system; and adding a UV disinfection
system. Also provided complete record P&IDs and
complete record electrical one -lines of the existing
facility.
Electrical and I&C lead engineer for the
renovation of the Mulberry Water Reclamation
Facility for Fort Collins Water Utilities, Colorado.
This project included the replacement of the
existing trickling filter with a new fine bubble
reactor, the addition of blower facility with four
125-hp high-speed blowers, new electrical service
in a main -tie -main configuration from two utility
sources, and various other process area
modifications.
• Electrical and I&C engineer for the preliminary
design report for the 1.4-mgd expansion of the
Central County Water Reclamation Facility in
Sarasota County, Florida.
QCarCr%1� ns
EngineoM...Working Wonders With Water'-
Anthony L. Morroni
• Electrical and I&C engineer for the preliminary
design report for the Barron Collier Company's new
Ave Maria Wastewater Treatment Plant in Collier
County, Florida.
• Electrical and I&C engineer for a collection
system project for the King County Department of
Natural Resources, Seattle, Washington. The project
included a collection system energy audit of six
pump stations.
• Electrical and I&C engineer for the tertiary filter
plant for water reuse at the Deer Creek Wastewater
Treatment Plant for the El Dorado Irrigation
District, California.
• Lead electrical and instrumentation engineer for
the peer review of the Newtown Creek Wastewater
Treatment Plant Secondary Headworks Project,
New York City, New York.
• Electrical and I&C engineer for multiple projects
at the Squaw Creek Wastewater Treatment Plant for
the Upper Eagle Valley Sanitation District, Vail,
Colorado. The projects included a new headworks
and aeration basin design, a centrifuge facility, and
an auto-thermophilic anaerobic digester facility.
• Electrical and I&C engineer for an aeration
blower system design at the Vail Wastewater
Treatment Plant for the Upper Eagle Valley
Sanitation District, Vail, Colorado.
• Electrical and I&C engineer for a solids handling
belt filter press facility at the Eagle Wastewater
Treatment Plant for the Upper Eagle Valley
Sanitation District, Vail, Colorado.
• Complete electrical and instrumentation design
of a regional solids handling facility including
thickening, dewatering, and digestion at the
Regional Solids Handling Facility for the Upper
Eagle Valley Sanitation District, Vail, Colorado.
• Electrical and I&C engineer for electrical and
control system renovation at the Air Park
Wastewater Treatment Plant for the Pueblo
Sanitation District, Pueblo, Colorado.
Responsibilities included complete renovation of
the plant's electrical power and control system and
the addition of rotating bioreactors.
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• Electrical and I&C engineer for a headworks
replacement project for the Orange County
Sanitation District's Plant No. 2 in Huntington
Beach, California.
• Electrical and I&C engineer for the Willow Lake
Wastewater Treatment Plant Expansion Project for
the City of Salem Wastewater District, Oregon. The
project included replacement of the entire electrical
power and control system.
• Electrical and I&C engineer for a SCADA
system master plan at the Deer Trail Wastewater
Treatment Plant for the Arapahoe County Water and
Wastewater Authority, Colorado.
Complete electrical power and control system
design services for the Southern Ute Indian Tribe's
Wastewater Treatment Facility in Ignacio,
Colorado, including the influent pump station,
headworks, oxidation ditches, aerobic digesters,
chemical feed, and UV disinfection system.
• Complete electrical and instrumentation design
for the sludge composting facility at the Silver
Creek Treatment Plant for the Snyderville Basin
Water Reclamation District, Park City, Utah.
• Electrical and I&C engineer for the electrical
design at the Avon Wastewater Treatment Plant in
Avon, Colorado, for the Upper Eagle Valley
Consolidated Water and Sanitation District. The
project included complete electrical design
including power, lighting, control, and
instrumentation for the addition of a solids handling
facility to the existing plant. Also provided
complete electrical procurement specifications for
the belt -filter press.
Additional power, control, and instrumentation
design modifications to the Avon Wastewater
Treatment Plant included modifications to the
headworks, primary clarifiers, primary sludge
pumping station, odor control facility, nonpotable
water system, belt thickeners, and belt presses. The
project also included detailed electrical,
instrumentation, and control design services for the
installation of two Sharples DS401, 100-gpm, 75-hp
dewatering centrifuges to replace two existing belt
presses.
QCa#-��
Engineers... Working Wonders With Water"
Anthony L. Morroni Page 7
• Electrical and I&C engineer for electrical design
expansion services at the Squaw Creek Wastewater
Treatment Plant in Squaw Creek, Colorado, for the
Upper Eagle Valley Consolidated Water and
Sanitation District. The project included complete
electrical design including power, lighting, control,
and instrumentation for the expansion of the
existing plant. The expansion involved the addition
of a headworks, including bar screen, grit washer
and grit collector; construction of two aeration
basins and a blower room; clarifiers; and a solids
handling building. Responsibilities included
complete electrical specifications for the belt -filter
press, blowers, bar screen, grit collector, grit
washer, and clarifier. Additional responsibilities
included field observation services during
construction and startup of plant, power and control
system design for the relocation of the belt press
from the Avon plant to the Squaw Creek Plant, and
new septage facility.
• Electrical and I&C engineer for power,
instrumentation, and control system design of UV
disinfection and a raw water wastewater pump
station facility as part of the Wastewater UV
Disinfection System and the North Shore Pump
Station project for the City of Lewiston, Idaho.
• Electrical and I&C engineer for power and
control system design of sludge valve controls for
six leaching fields for the Kirkwood Meadow Public
Utility District's water and wastewater treatment
facilities' leach field control system in Kirkwood,
California.
Electrical and I&C engineer for re -design of the
primary interruptible and ground fault control
system for the main service entrance switchgear at
the Marcy Gulch Wastewater Treatment Plant for
the Centennial Water and Sanitation District,
Highlands Ranch, Colorado. Additional services
included field observation and startup of the plant
during re -wiring and testing of the control system.
• Electrical and I&C engineer for complete
electrical, instrumentation, and control systems
design of the Blackhawk-Central City Wastewater
Treatment Plant for the Blackhawk-Central City
Wastewater District, Blackhawk, Colorado. The
project included design of the influent rotary screen,
aeration blower, standby power system, primary
clarifiers, final clarifiers, chlorination and
V:\CI ient79\FortCol I ins\Prop\OnCal I EI ec-20I O\Resumes\04-M orron iA. doc
dechlorination facility, and the solids handing
facility.
• Electrical and I&C engineer for power and
control system design of biosolids basins at the
Sioux Falls Facultative Biosolids Basins, Sioux
Falls, South Dakota. The design included
modifications to the solids pumping system, basin
power and controls, aerators, and dredge and solids
monitoring equipment.
• Electrical and I&C engineer for renovation of
the industrial waste treatment facility for Hill Air
Force Base, Ogden, Utah.
Wastewater Treatment Membrane
Bioreactors
Electrical and instrumentation lead engineer for
the Carnation Treatment Plant for the King County
Department of Natural Resources, Washington. The
0.4-mgd 0.4 mgd membrane bioreactor (MBR)
wastewater treatment facility includes five parallel
membrane trains, each allowing space for additional
membrane units to be installed when required
• Electrical and instrumentation lead engineer for
the Phase I improvements for the City of
Modesto, California, Jennings Road Wastewater
Treatment Plant. The project consists of a 2.3-mgd
tertiary system based on an MBR, including
nitrification/denitrification followed UV
disinfection.
• Electrical and instrumentation lead engineer for
the Phase 2 improvements for the City of Modesto,
California, Jennings Road Wastewater Treatment
Plant. The Phase 2 project consists of a 12.6-mgd
expansion to provide biological nutrient removal
and tertiary treatment through 2018.
• Complete electrical and instrumentation design
of an MBR and water reuse facility at the
Sammamish Valley Wastewater Reclamation Plant
for the King County Department of Natural
Resources, Seattle, Washington.
Water Well Projects
• Electrical and I&C engineer for the Southern
Well Field for the Centennial Water and Sanitation
District, Highlands Ranch, Colorado. The project
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included design of an electrical power system and
control system for ten deep wells located over a
30,000-acre site. The electrical design involved the
coordination of the primary power distribution
system with the electrical utility and the individual
site 480-V power system design, the interfacing and
connection of the variable speed drives, and the
step-up transformers. Well horsepower ranged from
125 to 500. The wells are remotely controlled via a
radio -based telemetry system from the water
treatment plant.
• Electrical and I&C engineer for the South Santa
Fe Augmentation Well Field for the Centennial
Water and Sanitation District, Highlands Ranch,
Colorado.
• Electrical and I&C engineer for renovation of
Well No. 3 for the Arapahoe County Water and
Wastewater Authority, Arapahoe County, Colorado
• Complete electrical power and control system
design for a groundwater remediation facility
including six supply wells, eight injection wells, and
a treatment plant for the GE South Valley Water
Remediation Facility, Albuquerque, New Mexico.
• Complete power and control system design for
the Fairmount Cemetery Pump Station for the
Fairmount Cemetery Association, Denver,
Colorado. The 60-hp and 125-hp pumps were used
for irrigation purposes.
• Electrical and I&C engineer for the Gillette
Water Well Field for the City of Gillette, Wyoming.
Performed a survey of problems in the Madison
Well Field and made recommendations for the
distribution system, control system, downhole
voltage, and pump and motor selection. This system
supplies water to the City of Gillette and consists of
eight wells and four booster pumps varying from
200 to 350 hp with variable frequency drives.
Pump Stations
• Lead electrical and I&C engineer for the Point of
the Mountain High -Service Pump Station for
Metropolitan Water of Salt Lake and Sandy, Utah.
The high -service pump station is a 10,000-hp
facility with two 2,000-hp, 5-kV VFDs, and three
2,000-hp, 5k-V solid-state reduced voltage starters.
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• Electrical and I&C engineer for McClellan
Pump Station No. 1 for the Centennial Water and
Sanitation District, Highlands Ranch, Colorado.
Provided complete electrical and instrumentation
design for this raw water pump station, which
consists of four raw water pumps (125 to 300 hp)
and a 750-kW standby engine -driven generator. The
pump station control system is PLC -based and
remotely controlled via a radio -based telemetry
system from the water treatment plant.
• Electrical and I&C engineer for McClellan
Pump Station No. 2 for the Centennial Water and
Sanitation District, Highlands Ranch, Colorado.
Provided complete electrical and instrumentation
design for this pump station, which consists of four
raw water pumps, two of which are 500-hp
electrically -driven pumps and two that are engine -
driven. The pump station control system is PLC -
based and remotely controlled via a radio -based
telemetry system from the water treatment plant.
• Electrical and I&C engineer for the Zone 3
Pump Station for the Centennial Water and
Sanitation District, Highlands Ranch, Colorado.
Provided complete electrical and instrumentation
design for this pump station, which consists of five
finished water pumps, four of which are electrically -
driven pumps and one that is engine -driven. The
engine -driven pump has a pony generator also
attached to the engine to provide station power in
the event of a power outage. The control system is
PLC -based and remotely controlled from the water
treatment plant.
• Electrical and I&C engineer for the pump
stations telemetry system for the City of Fargo,
North Dakota.
• Electrical and I&C engineer for replacement of
the pump station electrical system for the Colorado
Springs Water Utilities, Colorado Springs,
Colorado.
• Electrical and I&C engineer for replacement of
the control system for Pump Station and Tank No. 1
for the Arapahoe County Water and Wastewater
Authority, Arapahoe County, Colorado.
• Electrical and I&C engineer for the finished
water pump station and chlorine disinfection facility
QCarv�
Engineers... Wonting Wonders With Water-
Anthony L. Morroni
at the Helena Water Treatment Plant for the City of
Helena, Montana.
• Complete electrical and instrumentation design
for the Colorado River Intake Pump and Booster
Station at the Ute Water Treatment Plant for the
Grand Junction Water Utility, Grand Junction,
Colorado.
• Complete electrical, instrumentation, and
telemetry design for the South Finished Water
Pump Station for the City of Fort Collins, Colorado.
• Electrical and I&C engineer for various pump
stations for the Consolidated Mutual Water
Company, Lakewood, Colorado. Projects included
the 1 st and Garrison Booster Pump Station, the 23rd
and Iris Booster Pump Station, the 26th and Quail
Booster Pump Station, and the 32nd and Kendrick
Booster Pump Station.
Electrical/Instrumentation
• Partner -in -charge and lead electrical engineer for
the I I5-kV Henry C Garnett Water Treatment Plant
sub -station project for Kern County Water Agency.
The project consisted of the design and service
during construction for two 10-MVA, I I5-kV
substations in a fully redundant configuration. The
electrical utility supply was from a PG&E
transmission line. The design included a V-break
main interrupter -isolation switch, V-break isolation
switches at each transformer, SF6 interrupter
switches connected to protective relays at each
transformer, and two 10-mV, 115-kV to 4.16-kV
substation transformers. The 4.16-kV system was
connected to a 5-kV switchgear line-up in a main -
tie -main arrangement, with two 2,000-kW diesel
drive stand-by engine generators.
• Partner -in -charge for the North County Regional
Water Treatment Plant Instrumentation and Control
and SCADA design project for Collier County,
Florida. The project included system evaluation,
predesign, system design, and system
implementation.
• Designed, performed plan reviews, developed
future planning scenarios, developed utility rate
selections, observed construction, and performed
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field engineering modifications for many water and
wastewater facilities.
• Performed electrical plan reviews for other
consultants, some of which have included the Boyd
Lake Water Treatment Plant, Colorado; Kirkwood
Wastewater Treatment Plant, California; and Deer
Trail Wastewater Treatment Plant, California.
• Designed power and control systems and
modified existing systems for water well -field
projects including the Highlands Ranch, Colorado,
water well -field, which contains in excess of 30
planned or outfitted wells from 100 to 350 hp, most
of which use variable frequency drives and high
voltage submersible motors.
• Lead electrical or supervising electrical/control
system engineer for many water pump stations.
• Integrally involved with the design of many
electrical power systems, including primary voltage
levels of 13,800 or 13,200 volts, large motor
operating voltage levels of 4,160 or 2,400 volts, and
final distribution voltage levels of 480, 277, 240,
208, or 120 volts.
• Designed primary high -voltage power
distribution systems for many power -intensive
facilities. Work has included in -plant overhead
primary distribution systems; underground primary
distribution systems; transformer and high -voltage
switchgear specifications, selection, and
evaluations; transformer protection studies and
coordination studies; high -voltage motor controllers
and connection designs; construction observation;
high potential testing; and forensic investigation of
system failures.
• Designed hundreds of low -voltage power
systems. Work has included switchboard and
transformer design; conduit and wire system design;
overcurrent and short circuit protection designs;
layout of motor control centers, custom machinery
control panels and motor control switchboards;
grounding and bonding system design; and area,
flood, and task lighting design.
• Designed controls for refrigeration systems,
materials handling systems, process controls, and
energy and demand controllers. Controls system
designs range from electromagnetic control and
Engineers... Waking Wonders With Water—
Anthony L. Morroni Page 10
electronic controls at the component and board
levels to programmable logic controllers.
• Designed, specified, and updated the control
system for large refrigeration warehouses, where
typical projects involved the use of a PLC to control
the +25F, -25F, and -40F suction and discharge
pressures. Operation involved sequencing on and
off and loading and unloading a system with three
condensers, three water pumps, four fans, five screw
compressors with individual capacity control, and
two rotary compressors with discrete capacity
control. The software developed for this controller
optimized compressor efficiency and load control in
order to maintain a flatter electrical demand profile.
• Instrumental in developing specifications,
conducting evaluations, performing installation
design, and conducting performance testing and
startup of uninterruptible power supply systems.
These included rotating, battery back-up, static,
high-speed switching, and on -site generating
systems.
• Integrally involved with site planning and design
of grounding and bonding, power conditioning, and
precision refrigeration and air-conditioning systems.
Also involved in power systems surveys for both
quality and capacity, and 60- and 400-hertz power
systems.
• Designed power systems and control systems for
natural gas processing, refining, and pressurizing
plants for both privately -owned and utility -owned
facilities. These facilities require special design of
grounding and bonding systems. In addition, these
facilities are classified explosive and hazardous
areas and, as such, the electrical systems designs
must conform to the area classification.
• Conducted extensive power systems studies of
plant power systems involving loading, future
loading capability, power rate suitability, safety
hazards, short circuit analysis, power factor
correction, fault current coordination, and
equipment suitability.
• Intimately familiar with variable speed drives.
Work has included specification, selection,
evaluation, installation design, and startup. These
drives have included motor -generator driven
variable speed DC drives, wound rotor variable
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speed drives, eddy current coupled drives, motor
alternator variable frequency drives, and static
variable frequency AC. Experienced with drives
ranging from fractional to 2000 horsepower.
• Involved in budgeting, bidding, and managing
construction of over 100 electrical projects for
owners, contractors, and public agencies. For
example, the Thompson Pipe and Steel Spiral Mill
projects, located in Colorado and Kentucky,
involved equipment and machinery specifications;
building power and support systems; 13.2-kV, 480-
V, 277-V, 24 tester control and power system
designs. Conducted construction observation, field
engineering modifications, contractor assistance,
and startup for six buildings over a six -year
construction period.
• Worked as an electrical contractor prior to
focusing on electrical engineering. Work in the
construction field involved new construction and
renovation of existing facilities. Also served as on -
call troubleshooter for electrical power systems,
electromagnetic controls, solid-state motor drives,
programmable controllers, and computer controlled
process systems. Is intimately familiar and qualified
to work on and design power and control systems
for 15kV, 480V, 240V, 208, 120V power, control,
lighting design; material handling systems control
system, hydrostatic testing equipment, welding
equipment, refrigeration systems, etc.
Alternative Delivery
• Served as the president of Morroni Engineering
from 1972 to 2001, at which time Morroni
Engineering merged with Carollo Engineers.
Morroni Engineering was founded in 1945 as an
electrical engineering and contracting firm. From
1945 to 1980, 100 percent of Morroni Engineering's
work was design -build, where Morroni Engineering
acted as both the engineer and electrical -
instrumentation -control contractor. From 1980 to
2001, approximately 70 percent of Morroni
Engineering work was in the design -build arena
where Morroni Engineering either furnished the
electrical -instrumentation -control design, or
provided both the design and contracting services.
• Lead electrical and instrumentation engineer for
the City of San Diego, California, electrical
QCarv� ,
Engineers... Working Wonders With Water
Anthony L. Morroni
renovation projects for Wastewater Pump Stations
No. 1 and No. 2. Provided all engineering services
including electrical, instrumentation, control,
structural, architectural, mechanical, and civil to
Berg Electric in this design -build project. With Berg
Electric as the lead on this design build project.
• Lead electrical, instrumentation, and control
engineer for the City of Fort Collins Mulberry
Water Reclamation Facility Re -habilitation, the
LaPorte Water Treatment Plant Expansion, the
Drake Water Reclamation Facility Capital Projects,
the Southwest Pump Station, and Mulberry Water
Reclamation Facility 2009 Upgrades. All of these
projects were alternative delivery where the
contractor, owner, and engineer worked as a team
directly for the city from conceptual design through
start-up as a modified design -build team. These
projects span the period from 1995 through 2010.
The LaPorte Water Treatment Expansion project
was a $22 million project and the Mulberry Water
Reclamation Facility 2009 upgrades was a $30
million project.
• Lead electrical, instrumentation, and control
engineer for Leaf Candies for the $22 million
molded candy production line and the $15 million
kiss wrap production line at the Jolly Rancher
Candy Plant in Wheat Ridge, Colorado. These
projects were industrial design -build projects
spanning 1988 through 1994.
• Lead electrical instrumentation and control
engineer for the Kersey and Vessels Oil and Gas
Natural gas refining and pressurizing plants. The
facilities were design -build facilities for Associated
Natural Gas and Vessels and Gas constructed in the
late 1970s.
•
• Owner's electrical, instrumentation, and control
engineering representative for Dome Petroleum's
•
Oklahoma City and Tulsa, Oklahoma, cryogenic
•
natural gas plants that were $7 million design -build
facilities constructed in the mid 1970s.
UV Disinfection Systems
• Designed power and control systems for a 70-
mgd closed reactor UV disinfection system for the
Metropolitan Water District of Salt Lake and Sandy,
Utah, Point of the Mountain Water Treatment Plant.
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The power system included a UPS system to
provide continuous conditioned power to the UV
system with diesel engine generators for back-up.
The control system fully integrated into the plant's
overall PLC -based control system, with operator
interface through SCADA.
• Designed the power and control systm for a 30-
mgd closed UV reactor disinfection system for
Water Treatment Plant No. 3 for the Weber Basin
Water Conservancy District, Langdon, Utah. The
power system included a provision for future
addition of a UPS system to provide continuous
conditioned power to the UV system. The design
included standby power with diesel engine
generators for back-up.
• Designed the power and control systems for a
closed reactor UV disinfection system used to
disinfect backwash return water at the LaPorte
Water Treatment Facility for the City of Fort
Collins, Colorado.
• Designed the power and control system for a 10-
mgd closed reactor UV disinfection system at Water
Treatment Plant No. 4 for the Weber Basin Water
Conservancy District in Bountiful, Utah. The power
system included a provision for future addition of a
UPS system to provide continuous conditioned
power to the UV system. The design also included
standby power with diesel engine generators for
back-up.
• Designed the power and control system for an
open -channel UV disinfection system for this a
0.25-mgd wastewater treatment facility for the
Southern Ute Indian Tribe in Ignacio, Colorado.
The design included interface to the plant PLC
controllers and software, channel level control, and
power failure blocking and diversion controls.
• Designed the power and control system for an
open -channel UV disinfection system for the 30-
mgd South Valley Water Reclamation Facility in
West Jordan. Utah. The design included interface to
the owner -furnished PLC controllers and software,
channel level control, and power failure blocking
and diversion controls. Upon sensing a power
interruption, the influent stream to the UV channels
is automatically diverted to the sodium hypochlorite
disinfection system and then de -chlorinated using
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Enginoors_. Working Wonders With Water"
Anthony L. Morroni Page 12
sodium bisulfate before being discharged to the
Jordan River.
• Designed the power and control system for an
open -channel UV disinfection system for the 8-mgd
Mulberry Water Reclamation Facility for the City of
Fort Collins, Colorado. The design included
interface to the owner -furnished PLC controllers
and software, channel level control, and power
failure blocking and diversion controls.
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CLCM
Engineers... Working Wonders With Water^
Robert A. Morroni
Education
BS Engineering Physics,
Colorado School of
Mines, 1976
Graduate Studies,
Electrical Engineering,
University of Colorado,
Denver
Licenses
Professional Engineer,
Colorado, Nebraska,
Ohio, Oregon, Illinois,
Oklahoma, Mississippi
Electrical Engineer,
Texas, Arizona,
Wyoming, Nevada,
Missouri
Professional
Affiliations
National Society of
Professional Engineers
Institute of Electrical and
Electronic Engineers
Illuminating Engineers
Society of North America
Instrumentation Systems
and Automation Society
National Fire Protection
Association
Water Environment
Federation
National Council of
Examiners for
Engineering and
Surveying
Mr. Robert Morroni, a partner with
Carollo Engineers, is experienced in
the planning, design, and construction of
electrical, instrumentation and control
features for municipal and industrial water
treatment systems, wastewater treatment
systems, and pump stations.
The former vice-president and co-owner of
Morroni Engineering, Inc., which merged
with Carollo in 2002, is one of two
Partners -in -charge of the Electrical,
Instrumentation and Control disciplines for
Carollo Engineers.
Mr. Morroni has provided electrical,
instrumentation, and control systems
designs for numerous water treatment,
wastewater treatment, well fields,
reservoirs, pump stations, industrial
manufacturing facilities, food processing
plants, and natural gas
processing/compression plants.
Mr. Morroni's experience includes:
Water Treatment and Supply
• Electrical and instrumentation technical
advisor for the design/build delivery of the
Pinewoods Water Treatment Plant for Lee
County, Florida. The project involved new
480-V automatic transfer switchgear, new
1500-kW standby engine generator, new
480-V motor control centers, 480-V power
distribution, lighting, instrumentation and
PLC control, to support the rehabilitation of
the existing 2.1-mgd nanofiltration facility
and the addition of 3 mgd of reverse osmosis
treatment, degasification, odor scrubbing
and expanded high service pumping.
• Electrical and instrumentation technical
advisor for the plant evaluation, preliminary
design, and design of the Robert Weese
Water Treatment Plant Expansion and
Upgrade for the City of Oceanside,
California. Capacity of the filtration plant is
being increased from 25 mgd to 37.5 mgd.
• Electrical and instrumentation technical
advisor for the conceptual design of the new
10-mgd Eastside Surface Water Treatment
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Plant, for the Palmdale Water District,
California.
• Electrical and instrumentation technical
advisor for the evaluation, predesign,
design, and construction of upgrades and
improvements at the 30-mgd conventional
water treatment plant for the Palmdale
Water Treatment Plant, for Palmdale Water
District, California. The project included
the complete electrical, instrumentation,
and radio control telemetry system
(including 480-V switchgear and
distribution, 1000-kW standby engine
generator, site lighting, extensive
modifications to the existing plant 480-V
electrical distribution system, and site
electrical) for raw water traveling screens,
coagulation, flocculation, sedimentation,
and chemical facilities.
• Electrical and instrumentation technical
advisor for the Eastern Municipal Water
District, California, Hemet Water Filtration
Plant Design Phase I. The design and
construction of the 10-mgd (ultimate
40-mgd) membrane filtration plant.
• Electrical and instrumentation technical
advisor for the Woodmen Water Treatment
Plant Expansion for Colorado Springs
Utilities, Colorado. The design/build
project included a new 350-hp transmission
pump on a variable frequency drive, a new
ATEC water filter, expansion of the
existing finished water pumping building,
as well as the construction of a new
metering and well vaults. The system was
designed utilizing DeviceNET and
Profibus industrial networks.
• Electrical and instrumentation technical
advisor for the design, and construction of
the Pine Valley Water Treatment
Improvements for the Colorado Springs
Utilities, Colorado. The project included
electrical power, instrumentation, and
control for the addition of a liquid
hydrofluosilicic acid feed system for the
plant.
• Electrical and instrumentation technical
advisor for the design, and construction of
the McCullough Water Treatment
<�fjcp,l
Engineers... Working Wonders With Water"
Robert A. Morroni
Improvements for the Colorado Springs Utilities,
Colorado. The project included electrical power,
instrumentation, and control for the addition of a
liquid hydrofluosilicic acid feed system for the plant.
• Electrical and instrumentation technical advisor
for the preliminary design, design, and construction
for the Mountain House Water Treatment Plant
Expansion Project for Trimark Communities,
California. The design/build project will replace the
existing 2.5 mgd Trident filter plant with a new 15
mgd (ultimate 20 mgd) conventional treatment plant
The project includes the addition of a new 480-V
automatic transfer switchgear, 1000-kW standby
engine generator, 480-V motor control centers,
480-V power distribution, lighting, variable
frequency drives to the existing 300-hp raw water
pump station, instrumentation and PLC control
system, and SCADA graphic system to support five
new chemical storage and feed systems, high rate
sedimentation, dual media filtration, and ultraviolet
disinfection.
• Electrical and I&C pre -design, design and
construction services for the Ogden Water Treatment
Plant, for the City of Ogden, Utah. The project
included completely renovating the entire electrical
and instrumentation systems, for the 35-year-old
plant, wells, distribution reservoir, and telemetry
system.
• Electrical and instrumentation technical advisor
for the design and construction of the Weiser Water
Treatment Plant Phases I and II improvements for the
City of Weiser, Idaho. The projects included a new
480-V electrical service, modifications raw water
pump station, a new chemical building, and
flocculation / sedimentation structure, a new
ultraviolet disinfection system, a new clearwell
structure, the replacement of existing packaged
filters with two conventional sand bed filters, a new
backwash pump station, and a 500-kW standby
engine generator.
• Electrical and instrumentation technical advisor
for the design, and construction of the arsenic
removal treatment plant for the Elsimore Valley
Municipal Water District, California.
• Electrical and instrumentation technical advisor
for the City of Oswego, new bulk sodium
hypochlorite, lime, and carbon dioxide feed facilities
at the 16-mgd Lake Oswego water Treatment Plant.
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• Electrical and I&C engineer providing complete
power, control, and instrumentation upgrade
(including 480-V automatic transfer switchgear,
500-kW standby engine generator, motor control
centers, power distribution, lighting,
instrumentation, PLC control system and SCADA
system) for the Havre Water Treatment Plant, City of
Havre, Montana. The project included the complete
renovation of existing filters including a new control
system, addition of two new rate of flow control
filters, new inlet structure with pumped flash mix,
flocculation and sedimentation basin and new
chemical feed facility.
• Electrical and I&C pre -design, design and
construction services for the expansion of Water
Treatment Plant No. 3 from 26 to 46 mgd for the
Weber Basin Water Conservancy District, Utah. The
expansion included a new medium -voltage power
distribution system, two main 480 V power
distribution systems, two (1000-kW and 400-kW)
standby power generation systems, instrumentation,
and control systems for a new chemical feed building
and inlet structure, flocculation and sedimentation
basins, conventional granular media filters, ozone
disinfection, and ultraviolet disinfection.
• Electrical and instrumentation technical advisor
for the design, and construction of the Rawlins Water
Treatment Plant for the City of Rawlins, Wyoming.
The project included a new electrical service;
chemical feed systems, high -rate clarifiers, and
booster pumps. The control system was integrated
with the existing filter control system to allow the
systems to operate together, and the existing system
was modified with a new filter -to -waste strategy and
new flow control strategies. Tasks included electrical
and instrumentation design, including coordination
with the high -rate clarifier supplier.
• Electrical and I&C pre -design, design and
construction services for Phases I and II of the
Marden Street Water Treatment Plant for United
Water, Idaho. Initially designed as an 8-mgd facility,
expanded to a 16-mdg plant (20mgd ultimate
capacity) constructed on an environmentally
sensitive four acre site. Provided complete power,
control, and instrumentation design The project
included a 480-V electrical service, standby power
system, an in -plant SCADA system, an influent
screening facility, raw water wells, a raw water pump
station, super pulsator clarifiers, a flocculation basin,
QCaruUL
Engineers... Working Wonders With Water—
Robert A. Morroni
constant level filters, chlorination system, chemical
feed systems, and a finished water pump station.
• Electrical engineer providing design services for
the Highlands Ranch Water Treatment Plant for the
Centennial Water and Sanitation District, Colorado.
The design included the main medium -voltage
distribution duct bank system (between the existing
facility, the chemical feed -flocculation /
sedimentation building, filter building, Zone 2
clearwell pump station, and the waste-washwater
pump station for the water treatment plant and the
Zone 2 clearwell pump station). Additionally,
complete on site electrical and instrumentation
construction services were provided for the facilities
to support the new pumped injection flash mix,
three -stage flocculation with sedimentation,
self-backwashing filters with filter -to -waste.
• Electrical pre -design, design and construction
services for the Moorhead Water Treatment Plant
Expansion for the City of Moorhead Public Service
Department, Minnesota. The project included a new
power service, standby power, and detailed power,
lighting, instrumentation and control plans for a new
10-mgd lime softening plant for calcium and
magnesium removal and modifications to an existing
6-mgd treatment plant and high service booster
pumping station. The project included power and
control systems for oxidation and ozonation
facilities.
. Electrical and instrumentation engineer for the
design, and construction of the Bajamont Way
Membrane Filtration Plant for the Carmichael Water
District, California. The project included the design
of the electrical and instrumentation systems for a
new ultrafiltration (UF) membrane plant with a total
capacity of 18 mgd. Project scope included: A new,
membrane micro -filtration plant consisting of two
trains of 6-Memcor 90MI OC micro -filtration racks,
with a capacity of 18.3 mgd. Raw water pump station
consisting of three 300 HP vertical turbine pumps,
driven by clean power VFDs, setting atop a 120 foot
deep raw water caisson. Treated water pump station
consisting of three 300 HP vertical turbine pumps,
two driven by clean power VFDs and the third pump
driven by an RVSS. A second stage of membrane
micro -filters takes the backwash reject from the main
plant and treats this waste stream to reduce the
amount of backwash reject. This micro -filtration
plant consists of 2-Memcor 48M 1 OC micro -filtration
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racks. Initially the filtrate from this plant is to be
recycled to the raw water caisson; however, after
sufficient performance tests the filtrate may be
allowed to be routed to the clearwell. The resultant
waste stream for this 18.3 mgd plant is 72 gpm,
resulting in a treatment facility that is 99.5%
efficient.
• Complete electrical and instrumentation system
design of the McCall Water Treatment plant for the
City of McCall, Idaho.
Wastewater Treatment Plants
• Electrical and instrumentation technical advisor
for the Secondary Treatment Improvements Project,
for Metro Wastewater District, Colorado. The
project includes modifications and additions to the
electrical, instrumentation and control systems to
support the upgrades and modifications to the
existing aeration basins, secondary clarifiers to meet
more stringent effluent ammonia and nitrogen
requirements and to increase secondary treatment
capacity.
• Electrical and instrumentation technical advisor
for the Farmers Komer Wastewater Treatment Plant
SCADA System Upgrade for the Breckenridge
Sanitation District. The project includes renovating
and upgrading the control system for the entire
facility. The design utilized DeviceNET Motor
Control Centers, for new PLC -based control panels
and an Ethernet network system.
• Electrical and instrumentation technical advisor
for the Farmers Komer Centrifuge Replacement
project for the Breckenridge Sanitation District. The
project includes the addition of power and control for
a new centrifuge and sludge pumps system. In
addition one of the existing motor control center will
be replaced with a new DeviceNET intelligent motor
control center.
• Electrical and instrumentation technical advisor
for the evaluation, predesign, design, and
construction of upgrades and improvements of the
Wentzville Water Reclamation Center, Missouri.
The first phase of the four phase project includes the
design of a new headworks, a new treatment unit
(consisting of activated sludge, clarification, and
aerobic digestion, a new blower building, a new
effluent metering structure, a new UV disinfection /
post -aeration building. The electrical design includes
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Engineers... Working Wonders With Water'-
Robert A. Morroni
a new 13.8-kV main -tie -main switchgear (supported
from two separate power utilities), new 480-V
switchgear, MCCs and distribution systems for each
new building, new control system and infrastructure
backbone for future PLC and SCADA system.
• Electrical and instrumentation engineer for the
planning, design, and construction of the Northwest
Wastewater Treatment Plant for the City of
Springfield, Missouri. Work included a new dual
loop 13.8-kV underground distribution system,
main -tie -main 480-V MCCs, power distribution,
lighting, and a new General Electric Fanuc PLC
control system with a Wonderware Intouch SCADA
graphics package. Electrical and instrumentation
improvements and upgrades supported the addition
of a new selector basin, mixed liquor recirculation
pump station, aeration basin upgrades to provide
biological nutrient removal, expansion and upgrade
of the headworks facility, new septage receiving
station, new blower building, new final clarifier, and
conversion of the existing
chlorination/dechlorination system to ultraviolet
disinfection.
• Electrical and instrumentation technical advisor
for the North and South Wastewater Treatment Plant
Upgrades for the City of Richmond, Missouri. The
project includes additions to the existing electrical,
instrumentation, and control systems for a new
influent flow metering and splitting structures, a new
clarifier splitter structure, a new secondary clarifier,
three new sludge storage basins, two new blower
buildings.
• Electrical and instrumentation technical advisor
for plant renovations to the South Valley Water
Reclamation facility, West Jordan, Utah. The project
is phased over three independent renovations. The
Phase 4A plant renovation included headworks, step
screens, a vacuum conveyance system, washer
compactors, grit cyclones, aerated grit chambers, a
blower building, UV disinfection, a sodium
hypochlorite disinfection system, and a sodium
bisulfite dechlorination system. Also included in the
Phase 4A was a new gigabit fiber optic backbone and
plant -based PLC control system and an electrical
master plan. Phase 4B included a dissolved air
flotation thickener and supplemental air system.
Phase 4C included the addition of biological reactor
No. 5, a reactor splitter box, equipping RAS Building
No. 2 with WAS pumps, blower building No. 3
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(provisions for up to 9 single stage 1,100 hp
blowers), Electrical Substation ES4, biosolids
thermal drying beds.
• Electrical and I&C pre -design, design and
construction services for the Sammamish Reclaimed
Water Production Facility, for King County
Department of Natural Resources, Washington. The
project consists of facility planning, preliminary
design, design, and construction management for a
new 5 mgd membrane bioreactor reclamation plant
and reclaimed water conveyance system.
• Electrical and I&C engineer for multiple projects
at the Squaw Creek Wastewater Treatment Plant for
the Upper Eagle Valley Sanitation District, Vail,
Colorado. The project included complete electrical
design (power, lighting, control, and
instrumentation) for the expansion of the existing
plant. The expansion involved the addition of a
headworks, including bar screen, grit washer, and
grit collector, construction of two aeration basins and
a blower room; clarifiers; and solids handling
building.
• Electrical and I&C engineer for the Eagle
Wastewater Treatment Plant for the Upper Eagle
Valley Sanitation District, Vail, Colorado. The
project included a new solids handling belt filter
press facility.
• Electrical and I&C engineer for the Regional
Solids Handling Facility for the Upper Eagle Valley
Sanitation District, Vail, Colorado. The projects
included a thickening, dewatering, and digestion.
• Electrical and I&C engineer for the Avon
Wastewater Treatment Plant for the Upper Eagle
Valley Sanitation District, Vail, Colorado. The
projects included modifications to the headworks,
primary clarifiers, primary sludge pumping station,
odor control facility, non -potable water system, belt
thickeners, and belt presses. The project also
included detailed electrical and control design
services for the installation of two Sharples DS401,
100-gpm, 75-hp dewatering centrifuges to replace
two existing belt presses.
• Electrical and I&C engineer for
Blackhawk-Central City Wastewater Treatment
Plant for the Blackhawk-Central City Wastewater
District, Colorado. The projects included the
complete electrical, instrumentation and control
QCa i
Engineers... Working Wonders With Water-
Robert A. Morroni
system design to support the installation of new
influent rotary screens, an aeration blower, standby
power system, primary clarifiers, final clarifiers,
chlorination and dechlorination facilities, and solids
handling.
Water Wells, Storage, and Pumping
Systems
• Electrical and instrumentation engineer for the
design of the Henderson Mill Tailing Pond Pumping
Barge for Climax Molybdenum, Colorado. The
project consisted of designing a 13.8-kV service
transformed down for 2.4-kV motor control for the
three 500-hp pumps power and control system for a
floating decant pump station set on a mill tailing
pond. The power and control system was designed to
accommodate the continuous vertical motion and
periodic relocation of the barge as the water level of
the reservoir increased over time. The pumps,
control valves, de-icing system, and other auxiliary
equipment are controlled via a PLC -based local
control system and remote control via a radio
telemetry system back to the Main Control Building.
• Electrical and instrumentation engineer for the
Port of Umatilla Water System for the City of
Hermiston, Oregon. The project scope includes the
complete renovation of the control system for the
river -intake pump station and potable and
non -potable water treatment plants. The project also
included re -programming of the Bristol Babcock
3330 distributive process controllers and upgrade
and re -programming of the Wonderware Intouch
process visualization software.
• Electrical and instrumentation engineer for the
design of a 3-million gallon water storage tank for
the City of Broomfield, Colorado. The new tank
includes an ultrasonic level transducer, radio
telemetry, and tank lighting.
• Electrical and instrumentation technical advisor
for the improvements to the Southeast Water Users,
Mantador, North Dakota. The project included
modifications to the electrical systems at numerous
booster pump stations over a 5 to 20 mile radius from
the District office. Modifications included new
control (PLC -based local control) and radio
telemetry to communicate status, alarms, and
setpoints to the District office.
V : \CI ient79\FortColl ins\Prop\OnCal I EI ec-20I 0\Resumes\05-Mouoni R.doc
Page 5
• Electrical and instrumentation technical advisor
for various projects for the Centennial Water
District, Colorado. The projects included designs and
modifications to several shallow wells, McLellan
Pump Station Phase II, Zone 3 Pump Station, and
rehabilitation of the existing McLellan Pump station.
The designs involved new electrical services,
automatic transfer switchboards, standby engine
generators, engine -driven pumps, pump controls,
and variable frequency drives.
• Electrical and instrumentation technical advisor
for the Skyridge Pump Station, Durango, Colorado.
The design was for a new pump station and reservoir.
The project included a new service, three variable
frequency driven pumps, and a PLC -based control
system to maintain reservoir level with provisions to
respond to fire flow demands.
• Electrical and instrumentation engineer for the
Sunrise Pump Station for the City of Colorado
Springs Utilities, Colorado. The design was for a
new pump station to serve a small area with two
booster pumps. The project included a new electrical
service and PLC -based control system to control the
booster pumps, a hydro -pneumatic tank, and fire
pump.
• Electrical and instrumentation engineer for the
Southern Well Field for the Centennial Water and
Sanitation District, Colorado. The project design
included the electrical power system and control
system for ten deep wells located over a 30,000-acre
site The electrical design involved the coordination
of the primary power distribution system with the
electric utility and the individual site 480-V power
system design, the interfacing and connection of
variable speed drives, and the step-up transformers.
The wells are remotely controlled via a radio -based
telemetry system from the water treatment plant.
• Complete electrical power and control system
design for a groundwater remediation facility,
including 6 supply wells, 8 injection wells, and a
treatment plant for the General Electric South Valley
Water Remediation Facility, Albuquerque, New
Mexico.
Electrical / Instrumentation
• Designed electrical power systems, including
primary voltage levels of 15-kV, large motor
operating voltage levels of 4,160-V or 2,400-V, and
Ica•-w,f
Engineers... Working Wonders With Water"
L A
Scope of Proposal
Project Understanding
The City of Fort Collins Utilities will be enlisting
an experienced consultant to fulfill the following
requirements for the On -Call Professional Electrical
and Instrumentation Engineering Services:
• Update and/or create new process and
instrumentation diagrams (P&IDs) for all facilities.
• Update and/or create new electrical one -line
diagrams, elevations, and panels schedules for all
facilities.
• Update and/or create new electrical site plans for all
facilities.
• Provide consulting services and engineering
calculations as required for changes, modifications,
additions, or deletions to existing and/or new
facilities.
• Provide engineering services for individual facility
power systems.
• Assist maintenance staff in answering questions,
problems, troubleshooting, and modifying water and
wastewater facility power and control systems, as
needs arise.
• Assist in selecting, specifying, and purchasing
electrical and instrumentation equipment.
• Maintain and update the City's standard electrical
and instrumentation equipment specifications.
• Maintain and update the City's standard electrical
and instrumentation legends, details, symbols, and
abbreviations.
• Assist in modifying, updating, and creating loop
drawings for the individual control systems.
• Creating all drawings in AutoCAD.
A Rich History With Fort Collins
Carollo Engineers has provided electric,
instrumentation, and controls (EI&C) engineering
services for the City since 1992. Anthony Morroni
and Monte Richard have spearheaded the effort to
build a complete set of documents encompassing both
the P&IDs and power systems drawings for the Drake
WRF, Mulberry WRF, and the LaPorte WTP. For nearly
two decades, Carollo has supported the City's goals of
providing high -quality designs, as well as maintaining a
system of support documentation for these systems.
• In the spirit of partnership, Carollo assisted City
staff in creating the current P&ID standard. This
led to the development of more than 300 P&IDs
representing all processes at the three treatment
facilities.
• Our project team also developed a full set of one -line
diagrams for each of the facilities, including extensive
panel schedules, motor control center elevations, and
switchgear elevations.
• Carollo developed a master electrical site plan for
each of the facilities using a grid system, updating the
individual grids on a project -by -project basis.
• Our team generated detailed loop descriptions for
each process at the WTP and the Mulberry WRF.
It is based on the City's standard format, a practice
which we have followed since 1996.
For nearly two decades, we have
supported the City's goals of providing
high -quality designs, as well as
maintaining a system of support
documentation for these systems.
VACI ient79\PortCol li ns\Prop\O Ka I l Elec-2010\I ndd\01-Scope. i ndd
Scope of Proposal
Robert A. Morroni
final distribution voltage levels of 480-V, 277-V,
240-V, 208-V, or 120-V.
• Designed several in -plant overhead primary
distribution systems; underground primary
distribution systems. Included in these designs are
transformer and switchgear specifications, selection,
protection and coordination studies, construction
observation, high potential testing, and forensic
investigations.
• Designed numerous low -voltage power systems.
Including switchboard, switchgear and transformer
designs; detailed conduit and wire systems;
short-circuit and protective device coordination
studies, motor control center layouts, custom control
panel layouts, grounding, and bonding.
• Worked as an electrical and controls contractor
before focusing on electrical engineering. Work
included new construction and renovation of existing
facilities primarily within the industrial
manufacturing and food processing industries.
• Participated in the electrical, control SCADA,
and telemetry system design, equipment
specification, construction specification,
construction observation, and startup of numerous
water and wastewater treatment plants.
Representative work for water facilities includes the
Marden Water Treatment Plant, Boise, Idaho;
Moorehead Water Treatment Plant, Moorehead,
Minnesota; Ogden Water Treatment Plant, Ogden,
Utah; and Havre Water Treatment Plant, Havre,
Montana. Representative wastewater/water
remediation projects include work for the Upper
Eagle Valley Consolidated Sanitation District, Vail,
Colorado; Blackhawk Wastewater Treatment Plant,
Colorado; SUN Refinery Remediation Plant, Tulsa,
Oklahoma; and South Valley Water Remediation
Plant, Albuquerque, New Mexico.
• Designed the electrical, instrumentation, and
control system for Red Cedar Gathering's Arkansas
Loop Compressor Station. This natural gas
compressor station is located approximately 17 miles
from Durango, Colorado. Due to the remote location,
the plant is powered by three 765-kW natural gas
fueled engine generators. There are five buildings:
the control building, the generator building, the
compressor building with six gas compressors, and
two amine stripping plants. Distribution of power
and control is done primarily with armored cabled
V:\Client79\FortCollins\Prop\OnCaI IEI ec-2010\Resumes\05-Morroni R. doc
Page 6
routed underground or on an extensive cable tray
system throughout the facility. All the
instrumentation and control systems are configured
on several Allen-Bradley PLCs distributed
throughout the facility and networked together.
• Provided power system studies for industrial
plants, which included determinations on plant
loading, future loading capacity, power rate
suitability, safety hazards, short circuit analysis,
power factor correction, fault current coordination,
and equipment suitability.
• Worked extensively with and designed numerous
RTU systems for the Xcel Energy Natural Gas
Group. Xcel Energy has metering stations located
throughout the front range of Colorado, which
monitor the pressure, temperature, flow, and gas
quality, and in some instances control the flow of the
natural gas throughout the distribution system. All of
this information is locally controlled and monitored
by Bristol Babcock 3330 Distributive Process
Controllers, which are then connected via radio or
telephone to a remote Master Load Control Facility.
• Designed and specified numerous PLC and DCS
hardware systems, and gained extensive experience
with Allen Bradley, GE Fanuc, Modicon, IDEC,
Reliance, Fisher Provox, and Honeywell TDC-3000.
In addition, has specified or had direct "hands-on"
experience with several PC based man -machine
interface software packages, such as Wonderware's
InTouch, Intellution's FIX Dynamics, and
Nematron's Paragon systems.
• Designed electrical systems for computer rooms
and computer room environments. Also designed a
remote terminal network system for a large computer
system with over 50 remote terminals located
throughout a nine -story office complex. Has made an
integral contribution in the development of
specifications for the installation, design, and startup
of an uninterruptible power supply system for a
distributed process control system for natural gas
compressor stations.
• Designed numerous exterior and interior lighting
systems for industrial and commercial clients. These
designs have included office lighting and parking lot
lighting; production, manufacturing, and inspection
area lighting; wet, corrosive, or hazardous area
lighting; emergency and exit lighting; and area
floodlighting. Designs and analyses have included
QCarLILIs
Engineers... Working Wonders With Water
Robert A. Morroni
task, general, and floodlighting, color rendition, and
economic and environmental suitability.
• Designed numerous electronic instrumentation
devices for specialized industrial control systems,
including such devices as digital batch counters and
totalizing counters, roll multipliers, and digital
production tachometers. In the field of water quality
testing, designed a solid-state, wet -dry precipitation
collector capable of sensing various degrees of
precipitation and collecting, then splitting, the
precipitation fallout in samples for analysis. Has
designed electronic circuitry, provided artwork for
printed circuit boards, fabricated, assembled,
burned -in, and tested all devices.
• Has provided "As -Built' drawings for numerous
industrial control systems and electrical systems in
order to provide clients with "Record" electrical
drawings of existing systems, many of which had no
previous documentation. In addition, has developed
troubleshooting control diagrams and flow charts to
enable maintenance personnel to diagnose and repair
the electrical problems for the system.
Construction
• Direct experience in all phases of electrical
construction, including pre -design construction cost
estimates and budget analysis; equipment
specifications and procurement procedures; design
of electrical and instrumentation construction
drawings; preparation of contract documents and
specifications; shop drawing review; and
construction management of a project including
pre -bid meeting, contract award, construction
meetings, progress billing, contract changes, punch
lists, and system shake -down and testing.
Hazardous Materials
• Extensive experience in design of complete
electrical systems for hazardous locations. These site
designs are primarily for Class I Division 1 and 2
areas and Class II Division 1 and 2 areas. Designs
include plant main service, power distribution,
control, lighting, grounding, annunciation,
instrumentation, SCADA, and telemetry. Facilities
are classified explosive and hazardous and, as such,
the electrical systems must conform to the area
classification. Designs of this nature have included
natural gas processing; refining and pressurizing
plants for private and utility -owned facilities;
V : \Cli ent79\ForiCol I ins\Prop\OnCal I EI ec-20I0\Resumes\05-M orroni R. doc
Page 7
woodworking; and spray painting areas. Has
provided hazardous location designs for such
companies as Xcel Energy Natural Gas Group, Red
Cedar Gathering Company, Vessels Oil and Gas
Company, Kinder -Morgan (KN Energy), Thunder
Creek Gas Services, Big -Sur - Pillow Kingdom
Manufacturing, and Samsonite Corporation.
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Engineers... Working Wonders With Water"
• Carollo partnered with City staff in creating an
arc flash and electrical systems study to improve
safety in the workplace. Carollo has also recently
provided tools such as 3-D modeling to assist with
coordination during construction, and P&ID I/O
extraction templates using AutoCAD Electric to
develop database queries for project startup and
asset management.
• The master electrical specifications, details, symbols
and abbreviations, and legend sheets were created
by Carollo Engineers in collaboration with City
staff, and have been maintained and updated on a
project basis to uphold the documentation standard
that the City expects.
• We have assisted the City in procuring equipment
via pre -negotiated purchasing contracts with Allen
Bradley, GE, and Siemens.
Our commitment to the City spans nearly two decades. We are
motivated to continue providing the quality of work that has
sustained your trust.
Our experienced team has proven qualifications
for these specialized engineering services. That
knowledge, along with our ongoing professional
relationship with the City, will enable us to "hit the
ground running" and to seamlessly provide on -call
services to your staff. We will apply this knowledge
and expertise to deliver your projects in a manner that
is technically sound and cost-effective.
The Carollo team understands and fully supports the
partnering concept of the design/build process, and
we are committed to sustaining and improving the
partnership with the City and its selected contractors.
Commitment to Quality
Carollo's extensive Quality Management Program
(QMP) is based on continually improving the quality of
our services. The quality goal is simple: Deliver the right
project, on -time, on -budget, and meet or exceed your
expectations. This goal is achieved through adhering to
procedures established and refined by the company over
the past 77 years. The QMP is overseen by a Quality
Management Committee of partners, associates, and
quality management officers within each office.
Key aspects of the QMP include:
• Pre -Contract Planning. The Carollo approach to
quality management begins with developing an
understanding of the project's critical success factors,
project goals, and developing a scope and budget that
reflect the level of service required.
• Special Requirement Identification. Identifying special
requirements that may impact the project can include:
special permits and regulatory approvals that impact
schedule, teaming arrangements, project delivery, or
other project -specific constraints. We recognize and
support the City's unique approach to design and
construction.
• Work Plan Development. A work plan is developed
for each project to establish the project critical path,
key decisions to be made, project milestones, project
workflow, and deliverables.
• Project Management Plan. A project management
Plan is developed for every project and details the
project lines of communication, scope, schedule,
budget, staffing plan, and special requirements.
Specific Review Checks. Every project receives a series
of reviews at specific project milestones. Peer reviews
are performed by senior company experts to verify, at
an early stage, that key project components and goals
will be achieved. Peer review checks are scheduled at
the 10 to 25 percent complete phase and again at the
50 percent design phase. Owner reviews are scheduled
at set milestones. Constructability reviews are
performed at 50 and 95 percent complete stages.
• Independent Final Checks. Senior engineers who
have not been involved in the final project deliverables
perform internal review of the project and final cross -
discipline checking. The deliverable is reviewed using
established checking procedures and comprehensive,
overall, and discipline -specific checklists.
VAClient79WortColIins\Prop\OnCallElec-2010\Indd\01-Scope.indd
Scope of Proposal
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A critical piece of our work with the City is
creating high quality documentation and
system studies to improve workplace safety.
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Carollo has teamed with the
City to maintain the master
electrical site plans for each of
the facilities, including recent
upgrades to the Mulberry WRF,
pictured here.
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Scope of Proposal
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Corolla can provide creative design solutions aimed
at simplifying the guess work during construction.
A 3-D interactive model was provided to the design/
build contractor to assist in construction of the
electrical distribution system for the Mulberry WRF
brew building, pictured here.
Corolla assisted City staff in creating your current
P&D standard, leading to the development of
more than 300 P&Ds representing all processes at
the three treatment facilities.
Carollo is dedicated to working with City
staff to maintain existing standards and
creating new ones as required. Pictured to
the left is the digital bus MCC layout created
for the upgrades at the Mulberry WRE
V,.\Client79\FortCollins\Prop\OnCaliElec-2010\lndd\01-Scope.indd
Scope of Proposal U
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