NTL Record

Title Highway Effects on Vehicle Performance
Record ID 18476
Personal Name
Creator
Klaubert, E. C.
Source NTIS Invoice #22018; NTIS Order #:PB2002100122
Corporate Creator John A. Volpe National Transportation Systems Center (U.S.)
Corporate
Contributor
United States. Department of Transportation. Federal Highway Administration. Turner-Fairbank Highway Research Center; United States. Department of Transportation. Federal Highway Administration. Office of Infrastructure Research and Development; United States. Federal Highway Administration. Office of Natural Environment and Planning
Publisher United States. Federal Highway Administration
Publication Date 20010101
Language English
Abstract A user-friendly model for personal computers, "Vehicle/Highway Performance Predictor," was developed to estimate fuel consumption and exhaust emissions related to modes of vehicle operations on highways of various configurations and traffic controls for highway designers and planners and strategists optimizing Intelligent Transportation Systems. This model simulates operations of vehicles by evaluations of the vehicle external loads or propulsive demands, which are determined by longitudinal and lateral accelerations, positive and negative road grades, rolling resistance, and aerodynamic drag for various transmission gears. The computations of fuel consumption and air pollutant emissions are then related to the vehicle maps of fuel consumption and air contaminant emission rates as evaluated from large-roll dynamometer measurements for vehicle operations under various loads, speeds, and transmission gears or as may be estimated based on engine maps, speeds, loads, and vehicle drive-train characteristics. The supportive experimental program for the model development showed the following: 1) Propulsive or external loads imposed by highway features such as curves and grades can be measured and simulated on a large-roll chassis dynamometer and are predictable, but the dynamometer simulation is not needed if the vehicle fuel consumption and air contaminant emission rates vs. total propulsive demand are used to create a vehicle data base; 2) Driveshaft torque measured on an instrumented vehicle showed that, for steady speeds on flat highway, the road load is a quadratic function of speed, a quadratic function of lateral acceleration, and a linear function of positive or negative grades or positive or negative longitudinal accelerations; 3) For one tested vehicle, the energy loss in drive axle and tires was described well as a loss of tractive force expressed as a quadratic function of only the total drive torque or tractive force; and 4) A prototype method was developed to compare rolling resistance of pavement surfaces based on known vehicle speeds, road grades, and total external load indicated by driveshaft torque.
Rosap ID dot:35905
Rosap URL https://rosap.ntl.bts.gov/view/dot/35905
TRT Terms Mechanical acceleration; Computer models; Drag; Drive shafts; Dynamometers; Exhaust gases; Fuel consumption; Highway curves; Highway design; Highway grades; Lateral acceleration; Measurement; Rolling resistance; Torque; Tractive forces; Vehicle operations; Vehicle performance
General Subjects Aerodynamics; Air quality; Emissions; Environmental protection; Estimates; Exhaust emissions; Fuel consumption; Motor vehicles; Procedures; Road grades; Speed; Vehicle performance; Longitudinal acceleration; Design; Energy; Highways; Pavements; Planning and Forecasting; Vehicles and Equipment; I21: Planning of Transport Infrastructure; I23: Properties of Road Surfaces; I90: Vehicles
Geographical
Coverage
United States
TRIS Online
Accession No
815902
Contract Number xppa14-GWA
Report Number FHWA-RD-00-164; DOT-VNTSC-FHWA-1HW14
Resource type Tech Report
URL https://ntlrepository.blob.core.windows.net/lib/18000/18400/18476/PB2002100122.pdf
Format PDF
Database NTL Digital Repository