Evaluation of a Free-Piston Stirling Power Convertor for the Ultra-Low Emission Hybrid Vehicle Application 930047
Advanced energy conversion technologies are being investigated by the Power Technology Division (PTD) of the NASA Lewis Research Center. Among the technologies are batteries, induction motors, high frequency electric power management and distribution, dynamic energy storage, and Stirling cycle machines. While the emphasis of the Division is the application of these technologies to fulfill space power requirements, many terrestrial applications exist.
This paper presents a study assessing the feasibility of a hybrid electric vehicle based on some advanced technologies being investigated by the PTD. The study considers fuel economy, emissions, driveability, performance, and range of a mid-size, current production vehicle (Taurus) operating in the hybrid mode. A vehicle with a 20.1 kWe (27 hp) free-piston Stirling power convertor as the prime mover, and a flywheel as the energy storage device was modeled. Based on emission data from a Stirling powered vehicle, emissions are projected for the hybrid vehicle operating with gasoline and compressed natural gas as the fuel. The projections indicate that a Stirling powered hybrid electric vehicle based on current technology can comply with the California Ultra-Low Emission Vehicle regulations.
Citation: Schreiber, J., Shaltens, R., and Beremand, D., "Evaluation of a Free-Piston Stirling Power Convertor for the Ultra-Low Emission Hybrid Vehicle Application," SAE Technical Paper 930047, 1993, https://doi.org/10.4271/930047. Download Citation
Author(s):
Jeffrey G. Schreiber, Richard K. Shaltens, Donald G. Beremand
Affiliated:
NASA Lewis Research Center
Pages: 11
Event:
International Congress & Exposition
ISSN:
0148-7191
e-ISSN:
2688-3627
Also in:
Electric and Hybrid Vehicle Advancements-SP-0969
Related Topics:
Low emission vehicles (LEV) and zero emission vehicles (ZEV)
Hybrid electric vehicles
Electric power
Fuel economy
Natural gas
Batteries
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