Trade openness and structural change in the Brazilian motor industry

Includes bibliography

Nitrous oxide emissions from gasohol, ethanol and CNG light duty vehicles

A sample of 21 light duty vehicles powered by Otto cycle engines were tested on a chassis dynamometer to measure the exhaust emissions of nitrous oxide (N2O). The tests were performed at the Vehicle Emission Laboratory of CETESB (Environmental Company of the State of Sao Paulo) using the US-FTP-75 (Federal Test Procedure) driving cycle. The sample tested included passenger cars running on three types of fuels used in Brazil: gasohol, ethanol and CNG. The measurement of N2O was made using two methods: Non Dispersive InfraRed (NDIR) analyzer and Fourier Transform InfraRed spectroscopy (FTIR). Measurements of regulated pollutants were also made in order to establish correlations between N2O and NOx. The average N2O emission factors obtained by the NDIR method was 78 +/- 41 mg.km(-1) for vehicles running with gasohol, 73 +/- 45 mg.km(-1) for ethanol vehicles and 171 +/- 69 mg.km(-1) for CNG vehicles. Seventeen results using the FTIR method were also obtained. For gasohol vehicles the results showed a good agreement between the two methods, with an average emission factor of 68 +/- 41 mg.km(-1). The FTIR measurement results of N2O for ethanol and CNG vehicles were much lower than those obtained by the NDIR method. The emission factors were 17 +/- 10 mg.km(-1) and 33 +/- 17 mg.km(-1), respectively, possibly because of the interference of water vapor (present at a higher concentration in the exhaust gases of these vehicles) on measurements by the NDIR method.

Environmental assessment of low speed policies for motor vehicle mobility in city centres

streets in local residential areas in large cities, real traffic tests for pollutant emissions and fuel consumption have been carried out in Madrid city centre. Emission concentration and car activity were simultaneously measured by a Portable Emissions Measurement System. Real life tests carried out at different times and on different days were performed with a turbo-diesel engine light vehicle equipped with an oxidizer catalyst and using different driving styles with a previously trained driver. The results show that by reducing the speed limit from 50 km h-1 to 30 km h-1, using a normal driving style, the time taken for a given trip does not increase, but fuel consumption and NOx, CO and PM emissions are clearly reduced. Therefore, the main conclusion of this work is that reducing the speed limit in some narrow streets in residential and commercial areas or in a city not only increases pedestrian safety, but also contributes to reducing the environmental impact of motor vehicles and reducing fuel consumption. In addition, there is also a reduction in the greenhouse gas emissions resulting from the combustion of the fuel.

Motor vehicle administration; a section of the Action program for highway safety, report.

Mode of access: Internet.

An evaluation of existing motor vehicle diagnostic inspection concepts. Volume I: executive summary. Final report.

National Highway Traffic Safety Administration, Washington, D.C.

An evaluation of existing motor vehicle diagnostic inspection concepts. Volume II: characteristics of motor diagnostic inspection facilities. Final Task 1 report.

National Highway Traffic Safety Administration, Washington, D.C.

An evaluation of existing motor vehicle diagnostic inspection concepts. Volume III: characteristics of periodic vehicle inspection programs. (Results of Task 2). Final Task 2 report.

National Highway Traffic Safety Administration, Washington, D.C.

An evaluation of existing motor vehicle diagnostic inspection concepts. Volume IV: methodology for developing the diagnostic inspection concepts. (Results of Task 3). Final report.

National Highway Traffic Safety Administration, Washington, D.C.

An evaluation of existing motor vehicle diagnostic inspection concepts. Volume V: motor vehicle diagnostic inspection planning manual. Final report.

National Highway Traffic Safety Administration, Washington, D.C.

Motor vehicle laws of Virginia.

"Reprint from the Code of Virginia of 1950 and the 1952 cumulative supplement."

Highway traffic safety self-instruction course: module 3 workbook - motor vehicle safety standards.

National Highway Traffic Safety Administration, Washington, D.C.

Cost evaluation for nine Federal Motor Vehicle Safety Standards - Vol. V. - FMVSS 213.

National Highway Traffic Safety Administration, Washington, D.C.

Effects of future conditions upon motor vehicle safety requirements. Final report.

National Highway Traffic Safety Administration, Washington, D.C.

Motor vehicle defects and recall campaigns.

Mode of access: Internet.

Program plan for motor vehicle safety standards 1970 through 1972.

Mode of access: Internet.