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Home My WebLink AboutGATEWAY TO HARMONY ROAD PUD - PRELIMINARY - 1-88A - SUBMITTAL DOCUMENTS - ROUND 1 - TRAFFIC STUDY0 LJ a_ S _v J W C to W F— H Q • To: Ed Zdenek , ?'::'FK Rick En=dorff, Fort Collins Traffic Engineer From: Hatt Crel ich Date: February 1 Subject: Harmony Road right-in/right-out access to thc• McDonald' _.i te- - This memorandum documents rrry research and analysis with regard to the proposed Harmony Road right-in/right- out .acre_._ to the 1'1cDon•a.ld" _ site. City Staff requested information regarding the deceleration lane geometrics. for this access point. The design '_.Feed for Ha.rmon;: Road was assumed to be 35 mph which is the existing posted _.peed of the street. The proposed access i between College Avenue .and Mason Street. The centerline distance between these two streets is 540 feet. It i .assumed that the City Staff would require a. "pedestrian bulb" at the College Harmony intersection. This would require that the taper for the deceleration lane could begin no closer than 50 feet from the flaw line on the west side i rf College Avenue. I deal 1 y, the C i ty Staff would d like the proposed right—in/right-out access designed to criteria set forth in the State Highway Access Code. If standards t andard can not bmet, a r1�e t , other criteria/standards/examples shaul d be provided with regard to the necessary deceleration lane. For the 35 mph design speed, the State Highway Access Code requires adeceleration lane 4t 235 feet plus 120 feet of taper. (total - 55 feet) using .a 15 mph turn at the access point. A 15 mph turn requires 3. curb return radius of 40 feet. The deceleration lane based upon these criteria would place the right.-in/right-out acre_._ approximately 70 feet from the centerline of Mason Street, This is unacceptable to all parties concerned with this access. In order to have .a, developable lot on the northeast earner of the Harmony/Mason intersection, the centerline of the proposed right-in/right-out access must be approximately 150 feet east of the east right-of-way of Mason Street. Assuming a 30 firirt wide access, a, total of 1 95 feet are available for deceleration and taper. According to Design Criteria and St.a.ndard=• for Streets, Cit;. of Fort Collins, Jul; 1?86, Section 1.02.08, Deceleration Lane_. - Arterial Street•_., the deceleration lane plus taper is 250 feet for 30 mph and 370 feet for. 40 mph. Using the 10 feet (250 + 70 ; 2) for 35 mph, it can be seen that the Fort Col 1 i n=_. standard cannot be met. According to H Policy, on Geometric Design of Hi Qhway•_ and streets., AASHTO, 1984, pg. 874, "The length of the a.ux i 1 i •'try lanes for turning vehicles cons•is.ts of three components: (1) deceleration length, (2) storage length, and (3) entering taper. Desirably, the total length of the aux i 1 i ar::. 1 one _•haul d be the sum of the length for these three components. Common practice, however, is to accept a. moderate amount of deceleration within the through lanes and to consider the taper as a part of the deceleration length. Where intersections occur as frequently as four per mi 1 e, it is customary to forego most of the deceleration length and to provide only the storage length plus. taper• . " According to Figure 1, copied from A Policy on Geometric Design of Hiqkwa.ys. and Streets, f-+ASHTO, 1?$4, pg. 36, the distance needed to comfortably slow a vehicle trave l l i ng 35 mph (speed can Ha.rmony? to a. 15 mph turning speed is 160 feet. Given th i •__•, the length of decelera- tion lanes should be at least 160 feet. `_'since accesses. along both of these streets are more frequent than four per mi 1 e , this distance includes the taper. Storage length is not required on a. right -turn lane of this type since vehicle_ will not be delayed in entering the site. Given that there is 1?5 feet available for deceleration lane and taper, this distance should be used. The portion devoted to full width deceleration lane and the portion devoted to taper is an engineering judgment. if the taper length is as short as possible, then the exiting vehicle can fully uti 1 ize the full width of the deceleration lane being ful 1 y removed from the right through lane. This more abrupt type of design of the taper offers improved driver commitment to the emit maneuver and also contributes to driver security and safety because their vehicle can be fully out of the through lane. The shortened toper can only be introduced at lower design speeds and in urban situations, where frequent exits to deceleration lanes; are common place and expected. Offering early exit to a. full width deceleration lane could also improve the capacity of the arterial street because the slow -down interference to the through lane would be diminished. Using a. symmetrical reverse curve design (from Figure IX-65C: in A Policy on Geometric Design of Hiohw.axs and Streets, with a radius of 150 feet, a taper length of Sb feet for a 12 foot lane results. This allows 109 feet (195' - 86') of full widtl-, deceleration lane at this location. This is in excess of the minimum b r .a k: i n g d i _. t .=-,. n c e f or. we t F a. v e m e n t =. a. t :" 5 rr, F. h r 1 n p f e e t — r,:,e `r in Figure l?. Thi=_ de=.ign rr,ee t =. _ the cr i t.er i a i n the H ;'_HT0 de _ i cqn rr,a.nua.l a.nd ca.n be a.cccirrmmc,dated a.t the prapc.__.ed riQht—in.:'ri �ht —e-ut H.armc,r,' F.cD,.d .acce=._., 0 C� 80 w 70 Y Q n = 60 a z w -- I O 50 Q J w 40 Q 31 Q Q 30 P z A� X V/ Al i I p 100u 0 200 300 400 500 600 0 `- DISTANCE TRAVELED IFTI DECELERATION DISTANCES FOR PASSENGER VEHICLES APPROACHING INTERSECTIONS SPEED nEACIIED (COMFORTABLE "ATE) A = 50 MP11 8 = 40 MP11 C = 30 MI'11 D - 20 MP11 E - 0 M PFI MINIMUM BRAKING DISTANCE X = DRYfAVEMENT Y a WETPAVEMENT FIGURE 1