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In this paper, we compare controllers for the electronic throttle and variable geometry turbocharger in boosted stoichiometric gasoline direct injection engines. The control objectives are fast response and small overshoot of the intake manifold pressure. The problem is treated within the multi-objective optimization framework, applied to a simulation model of the engine. Pareto optimal fronts are constructed for each of the controllers and compared to each other. The best controller is thereby identified and further options to improve its response via preview-based control are discussed.

Presented are the technique, mathematical model and software for implementation of the optimal design of the radiators in terms of the criterion of the minimum total mass with the added mass of the power board system accounted for. The mathematical model takes into account the losses of pressure required for pumping the heat-transfer fluid through the hydraulic system of the radiator. The optimum values of the geometric parameters of the radiator and heat-transfer fluid flow rate are determined. The generalized geometric programming algorithm is used for optimization. Obtained are the results of solution as regards the radiators of the Orbital space station “MIR” research module. The recommendations covering reduction of the design mass of the radiators are disclosed. Both the technique the results can be used in design of other radiator systems of the space stations.

This paper deals with review of the issues associated with modelling the dynamic processes in the spacecraft two-phase thermal control systems. The work presents the results of modelling the nonstationary conditions of the evaporative and condensation heat exchangers functioning, investigates their response to the characteristic external influences. Disclosed are the results of the computer-aided modelling the two-phase thermal control system with a pump. The dynamic characteristics of the change in the inputs of pressures, temperatures and vapour content of a coolant in various branches of the system, as well as the lengths of the heat transfer zones in the evaporator and condenser under effect of the typical disturbing actions are obtained. The attained transients are analyzed.

The design and composition of heat shields is becoming a major factor in the design of future automobiles. The optimization of heat insulation materials is crucial in keeping size, mass, and cost to a minimum. The purpose of this paper is to describe the testing of four different fibrous insulating materials simulating 150,000 miles of the Underbody heat shielding that a light duty truck may experience. The materials were tested before and after the thermal durability experiment to show the degraded conduction performance of each sample.

A bi-fuel (Compressed Natural Gas [CNG] and gasoline) pickup truck has been developed using the Ford Alternative Fuel Qualified Vehicle Modifier (QVM) process. The base vehicle's 4.9L engine has been specially modified for improved durability on gaseous fuels. The base vehicle's configuration has been designed for conversion to bi-fuel CNG operation. A complete CNG fuel system has been designed and qualified, including fuel tanks, fuel system, and electrical interface. The completed vehicle has been safety and emission certified, demonstrating CARB Low Emission Vehicle (LEV) emissions in MY95. This paper details the design objectives, development process, CNG components, and integration of the two fuel systems.

An extremely tough alumina based ceramic coating produced by a modified anodizing process developed at Moscow Aviation Institute has been evaluated for light weight, wear resistant component applications in automotive powertrain. The process details and test results from comparative evaluation of friction and wear properties for cylinder bore application, referenced to cast iron baseline, are presented and discussed.

The overall highway fatality rate has dropped almost contintinously since 1925, from 20 to 2.5 per hundred million miles of travel in 1984. Still, the almost 44, 000 fatalities in 1984 can, and will, be decreased. In 1983, 5, 475 of the 42, 584 highway fatalities were in accidents involving medium or heavy trucks. Only 18% of these were occupants of the trucks themselves. 82% were pedestrians or occupants of the “other vehicle.” The greatest number of combination truck accidents take place on two-lane rural roads. Single-vehicle accidents are responsible for 70% of heavy truck occupant fatalities. Doubles and heavier trucks appear to be as safe as other heavy trucks. Rollover and ejection are responsible for the greatest number of truck occupant fatalities.

The overall highway fatality rate has dropped almost continuously since 1925, from 20 to 2.5 per 100 million miles of travel in 1984. Still, the almost 44,000 fatalities in 1984 can and will be decreased. In 1983, 5,475 of the 42,584 highway fatalities were in accidents involving medium or heavy trucks. Only 18 percent of these were occupants of the trucks themselves; 82 percent were pedestrians or occupants of the other vehicle. The greatest number of combination truck accidents takes place on two-lane rural roads. Single-vehicle accidents are responsible for 70 percent of heavy truck occupant fatalities. Doubles and heavier trucks appear to be as safe as other heavy trucks. Rollover and ejection are responsible for the greatest number of truck occupant fatalities. When asked about her top priority as the new Secretary of Transportation, Mrs. Dole replied, “There's no higher mandate for the Department than to promote safety….”

Splash and spray conditions created by tractor-trailer combinations operating on the Federal highway system have been studied and tested for many years with mixed results. Past events are reviewed briefly in this paper. In additional testing during 1983, using new state-of- the-art splash/spray suppressant devices, some encouragement was provided that these devices could work. The 1984 Motor Vehicle Manufacturers Association (MVMA) test program was designed to develop practicable and reliable test procedures to measure effectiveness of splash and spray reduction methods applied to tractor-trailer combination vehicles. Over 40 different combinations of splash/spray suppression devices on five different tractors and three van trailer types were tested. The spray-cloud densities for some 400 test runs were measured by laser transmissometers and also recorded by still photography, motion pictures, and videotape. On-site observers made subjective ratings of spray density.