Search results for "bypass lane"

showing 3 items of 3 documents

Improving the sustainability of transportation: environmental and functional benefits of right-turn by pass lanes at roundabouts

2015

The functional performances of conventional roundabouts (single-lane and multi-lane) and innovative roundabouts (spiral, flower, C and turbo) can be improved through right-turn bypass lanes controlled by stop, yield or free-flow signs. The article presents evaluations of the emissions of air pollutants (carbon dioxide, nitrogen oxides, particle pollution (PM10 and PM2.5)), fuel consumption and construction, management, energetic and environmental costs in roundabouts without or with bypass lanes (controlled by stop, yield or free-flow). The suggested methodology has a general character and can be applied as a multi-parametric criterion for choosing road intersections, although, in the prese…

EngineeringPollutant emissionsTotal costYield (finance)lcsh:TJ807-830Geography Planning and DevelopmentRoundaboutlcsh:Renewable energy sourcesManagement Monitoring Policy and Lawpollutant emissionspollutant emissionTransport engineeringfuel consumptionAir pollutantsjel:Qroundaboutsroundabouts; bypass lane; capacity ; pollutant emissions; fuel consumption; total costsroundabouts; bypass lane; capacity; pollutant emissions; fuel consumption; total costsSettore ICAR/04 - Strade Ferrovie Ed AeroportiNitrogen oxideslcsh:Environmental scienceslcsh:GE1-350bypass laneSettore ING-IND/11 - Fisica Tecnica AmbientaleRenewable Energy Sustainability and the Environmentbusiness.industrylcsh:Environmental effects of industries and plantscapacitytotal costsjel:Q0jel:Q2jel:Q3jel:Q5lcsh:TD194-195Settore ICAR/05 - Trasportijel:O13RoundaboutSustainabilityFuel efficiencyjel:Q56business
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Right-turn Bypass Lanes at Roundabouts: Geometric Schemes and Functional Analysis

2012

Right-turn bypass lanes can be implemented in conventional and innovative roundabout intersections to increase the capacity and improve the global functional performances. The Right-turn bypass lanes (also called slip lanes) can be distinguished according to the planimetric layout and the entry control type (stop, yield slip or Free Flow acceleration lane). This paper presents a closed-form model for the estimation of capacity, delays and level of service of roundabout equipped with Right-turn bypass lanes, considering the effect of geometric slip lane schemes, control type, vehicular and pedestrian flow. In order to examine the traffic conditions which can benefit from slip lane roundabout…

MultidisciplinaryFree flowComputer scienceControl theoryLevel of serviceTraffic conditionsRoundaboutComputerApplications_COMPUTERSINOTHERSYSTEMSPedestrian flowSlip (materials science)right-turn bypass lanes geometric layout capacity delay and level of serviceModern Applied Science
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Calculation of turbo- roundabouts with slip lanes

2013

A turbo roundabout is a particular type of roundabout where all lanes are bounded by traffic signs and by non-mountable curbs installed at entering and circulating lanes. Turbo roundabouts also have a very particular shape to accomplish the splitting of traffic streams and to prevent cars weaving through. These aspects make turbo-roundabouts more appropriate than roundabouts when a higher level of safety has to be guaranteed, particularly in presence of relevant pedestrian and two-wheels traffic volumes. Only in some traffic conditions, turbo roundabouts can offer higher capacities than conventional double-lanes roundabouts, so if more capacity must be guarantee a bypass lane can be added t…

Turbo roundabouts Bypass lanes Capacity Delays Level of service
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