Mapping fuel savings through improved traffic now. - C&EN Global

Nov 7, 2010 - Mapping fuel savings through improved traffic now. Chem. Eng. News , 1978, 56 (45), Inside Front Cover. DOI: 10.1021/cen-v056n045.ifc. P...
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More miles per gallon . . . or rather, kilometers per liter. That's been the objective of many programs here at the General Motors Research Laboratories. One of these concerns urban traffic. Our scien­ tists have conducted studies to determine which traffic variables have the greatest effect on gasoline con­ sumption, and how much fuel could be saved through improved traffic flow. They began by driving instrumented cars in traffic at different levels of congestion. From a detailed multivariate analysis of the data, they found that a car's fuel consumption in city traffic was related simply and linearly to average trip time (see equation). Confirmed in traffic experiments, this rela­ F = A + BT tionship suggests that (valid up to ~ 60 km/h) drivers would use less F = fuel consumed per unit distance fuel if traffic conditions A = constant related to average permitted higher aver­ vehicle mass Β = constant related to average age trip speeds, thus idle fuel flow rate Τ = average travel time per unit shortening trip times. distance What order of fuel savings could be expected? An analysis was made of trip-speed data collected by GM in Chicago, Denver, Detroit, Los Angeles, New York, San Francisco, and Washington, D.C. Two results: If traffic flow improved so no trip averaged less than a modest 24 km/h (15 mph), a 2.5% fuel saving would result. If the average of all trip speeds equaled that attained in uncongested traffic, 13% would be saved (see graph).

Mapping fuel savings through improved traffic now.

DISTRIBUTION OF SPEEDS IN SEVEN CITIES C D = Observed § • = Calculated Distribution Distribution for Uncongested Traffic

0-10 110-20 I 20-301 30-40140-50 150-601 60-70 170-80 180-90190-1001 Average Trip Speed Ranges (km/h)

Our scientists also developed and validated a computer model to predict travel times throughout a complicated road network. It enables researchers to estimate fuel savings from traffic engineering improve­ ments, car-pooling, staggered work hours, etc. Traffic research: Driving toward better fuel economy and a more pleasant trip for you.

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