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Page Title:
Development of Next Generation Systems for Medium-Duty Natural Gas Engines |
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 Re-Distributed by http://www.tpub.com
Office of Heavy Vehicle Technologies
Enabling Technologies - Fuels & Systems
Development of Next Generation Systems for Medium-Duty Natural Gas Engines
Directing Organization:
Subcontractor:
National Renewable Energy Laboratory
Southwest Research Institute
1617 Cole Boulevard
6220 Culebra Road
Golden, CO 80401-3393
San Antonio, TX 78238
Technical Monitor:
Subcontract Number: YCI-8-17074-01
Keith Vertin
Telephone: (303) 275-4422
Subcontract Period: 10/97 - 2/99
Principal Investigator:
Daniel J. Podnar
Telephone: (210) 522-2564
DOE Project Manager:
NREL Business Team Administrator:
Steve Goguen
Kathleen Roqué
Telephone: (202) 586-8044
Telephone: (303) 275-3124
Objective: To design and develop next generation systems needed to increase the part load and full load efficiency of lean burn
spark-ignited natural gas engines. The program seeks to demonstrate diesel-like efficiency while retaining or improving upon
the emissions benefits already demonstrated on state-of-the-art natural gas engines.
Approach/Background:
This systems research work seeks to investigate the feasibility of unthrottled DING (direct
injection) and PING (port injection) fuel system designs for improving thermal efficiency. A lean stratified charge fueling strategy
will be used at low load. A homogeneous charge strategy is to be used at higher engine loads. New DING and PING fuel systems
are to be designed. Prototype hardware will be procured and tested on the end cylinder of a Deere 8.1 litre gas engine. System
performance and emissions testing will be carried out to assess unthrottled, stratified charge engine operation at part load. Control
strategies will be developed to meet performance and emissions objectives.
Status/Accomplishments:
The design of the DING/PING 500 psi fuel injection system is complete. Most prototype
hardware has been procured and fitted to the engine. The prototype engine has been used to perform preliminary testing of the
DING fuel system at part-load conditions. The design of the 500 psi fuel-injection system was completed and fitted to the prototype
engine. The end cylinder of the engine has been used to perform DING fuel system experiments at part-load conditions. Stratified
charge engine operation has been successfully demonstrated, and substantial fuel consumption improvements are apparent at part-
load. However, high hydrocarbon and NOx emissions have been measured due to the design limitations of the experimental fuel
injector. The wastegated and variable geometry turbocharger evaluations are complete, and significant improvements in part-load
efficiency have been quantified. The Phase I draft report has been delivered and is undergoing peer-review.
Future Direction: To be determined.
Major Project Reports (*=new): A poster of next-generation engine design concepts was presented at the DOE CCM
in October, 1997.
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Document: c:\docs\quarter.rpt\FY98Q4.rpt
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