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The exact shape of the combustion chamber will not have a major effect in case of homogeneous type of combustion. However, presently engine needs to be operated in diesel mode during start-up and outside HCCI operating range to meet stringent emission norms. Hence, the combustion chamber is therefore optimized for conventional diesel mode operation for minimum emissions as well as benefit to HCCI mode operation with better swirl. When operated in pure HCCI mode, the exact shape of the combustion chamber is of little relevance-mainly because the fuel jets do not interact with the bowl at early injection conditions. However, at some operating conditions it is necessary to operate with partially premixed conditions where fuel is injected between 20 to 30° BTDC. Then bowl geometry plays significant role to promote homogeneous mixture of air and fuel. There is no need for late cycle turbulence generation in HCCI mode, since it is not a mixing controlled process.

Engine tests have been performed on a 9.6 liter spark-ignited engine fueled by natural gas and a mixture of 25/75 hydrogen/natural gas by volume. The scope of the work was to test two strategies for low emissions of harmful gases; lean burn operation and stoichiometric operation with EGR and a three-way catalyst. Most gas engines today, used in city buses, utilize the lean burn approach to achieve low NOx formation and high thermal efficiency. However, the lean burn approach may not be sufficient for future emissions legislation. One way to improve the lean burn strategy is to add hydrogen to the fuel to increase the lean limit and thus reduce the NOx formation without increasing the emissions of HC. Even so, the best commercially available technology for low emissions of NOx, HC and CO today is stoichiometric operation with a three-way catalyst as used in passenger cars.