Effects of Charge Motion, Compression Ratio, and Dilution on a Medium Duty Natural Gas Single Cylinder Research Engine
Recent advances in natural gas (NG) recovery technologies and availability have sparked a renewed interest in using NG as a fuel for commercial vehicles. NG can potentially provide both reduced operating cost and reductions in CO₂ emissions. Commercial NG vehicles, depending on application and regio...
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| Published in | SAE International journal of engines Vol. 7; no. 4; pp. 1650 - 1664 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Warrendale
SAE International
01.10.2014
SAE International, a Pennsylvania Not-for Profit |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1946-3936 1946-3944 |
| DOI | 10.4271/2014-01-2363 |
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| Abstract | Recent advances in natural gas (NG) recovery technologies and availability have sparked a renewed interest in using NG as a fuel for commercial vehicles. NG can potentially provide both reduced operating cost and reductions in CO₂ emissions. Commercial NG vehicles, depending on application and region, have different performance and fuel consumption targets and are subject to various emissions regulations. Therefore, different applications may require different combustion strategies to achieve specific targets and regulations. This paper summarizes an evaluation of combustion strategies and parameters available to meet these requirements while using NG in a spark ignited engine.
A single-cylinder research engine using a modified diesel cylinder head was employed for this study. Both stoichiometric combustion with cooled exhaust gas recirculation (EGR) and lean-burn were evaluated. Testing quantified the effects of dilution (EGR or excess air), swirl ratio, and compression ratio on the operating limits, engine-out emissions, and fuel efficiency at operating conditions typical for heavy-duty vehicle applications.
The data acquired indicates that lean-burn is a viable option for moderate NOx emission applications such as Euro IV and V. Stoichiometric combustion enables the use of a three way catalyst which provides low tailpipe NOx as required for more stringent standards. Stoichiometric combustion with cooled EGR enabled greater full load torque capability than lean combustion, but lean combustion provided improved fuel efficiency. In both cases, higher compression ratio resulted in an increase of efficiency but reduced full load capability, and increased swirl extended the dilution capability. |
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| AbstractList | Recent advances in natural gas (NG) recovery technologies and availability have sparked a renewed interest in using NG as a fuel for commercial vehicles. NG can potentially provide both reduced operating cost and reductions in CO2 emissions. Commercial NG vehicles, depending on application and region, have different performance and fuel consumption targets and are subject to various emissions regulations. Therefore, different applications may require different combustion strategies to achieve specific targets and regulations. This paper summarizes an evaluation of combustion strategies and parameters available to meet these requirements while using NG in a spark ignited engine. Recent advances in natural gas (NG) recovery technologies and availability have sparked a renewed interest in using NG as a fuel for commercial vehicles. NG can potentially provide both reduced operating cost and reductions in CO₂ emissions. Commercial NG vehicles, depending on application and region, have different performance and fuel consumption targets and are subject to various emissions regulations. Therefore, different applications may require different combustion strategies to achieve specific targets and regulations. This paper summarizes an evaluation of combustion strategies and parameters available to meet these requirements while using NG in a spark ignited engine. A single-cylinder research engine using a modified diesel cylinder head was employed for this study. Both stoichiometric combustion with cooled exhaust gas recirculation (EGR) and lean-burn were evaluated. Testing quantified the effects of dilution (EGR or excess air), swirl ratio, and compression ratio on the operating limits, engine-out emissions, and fuel efficiency at operating conditions typical for heavy-duty vehicle applications. The data acquired indicates that lean-burn is a viable option for moderate NOx emission applications such as Euro IV and V. Stoichiometric combustion enables the use of a three way catalyst which provides low tailpipe NOx as required for more stringent standards. Stoichiometric combustion with cooled EGR enabled greater full load torque capability than lean combustion, but lean combustion provided improved fuel efficiency. In both cases, higher compression ratio resulted in an increase of efficiency but reduced full load capability, and increased swirl extended the dilution capability. Recent advances in natural gas (NG) recovery technologies and availability have sparked a renewed interest in using NG as a fuel for commercial vehicles. NG can potentially provide both reduced operating cost and reductions in CO2 emissions. Commercial NG vehicles, depending on application and region, have different performance and fuel consumption targets and are subject to various emissions regulations. Therefore, different applications may require different combustion strategies to achieve specific targets and regulations. This paper summarizes an evaluation of combustion strategies and parameters available to meet these requirements while using NG in a spark ignited engine. A single-cylinder research engine using a modified diesel cylinder head was employed for this study. Both stoichiometric combustion with cooled exhaust gas recirculation (EGR) and lean-burn were evaluated. Testing quantified the effects of dilution (EGR or excess air), swirl ratio, and compression ratio on the operating limits, engine-out emissions, and fuel efficiency at operating conditions typical for heavy-duty vehicle applications. The data acquired indicates that lean-burn is a viable option for moderate NOx emission applications such as Euro IV and V. Stoichiometric combustion enables the use of a three way catalyst which provides low tailpipe NOx as required for more stringent standards. Stoichiometric combustion with cooled EGR enabled greater full load torque capability than lean combustion, but lean combustion provided improved fuel efficiency. In both cases, higher compression ratio resulted in an increase of efficiency but reduced full load capability, and increased swirl extended the dilution capability. |
| ArticleNumber | 2014-01-2363 |
| Author | Stein, Joshua Wheeler, Jennifer Hunter, Gary |
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| Cites_doi | 10.4271/2005-01-0250 10.4271/2013-01-1123 10.4271/2000-01-1177 |
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| SubjectTerms | Combustion Combustion stability Combustion temperature Commercial vehicles Compression ratio Cylinders Dilution Engines Exhaust gases Fuel combustion Fuel consumption Gas temperature Natural gas Particulate emissions Regulations Vehicle emissions |
| Title | Effects of Charge Motion, Compression Ratio, and Dilution on a Medium Duty Natural Gas Single Cylinder Research Engine |
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