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Heat Release Design Method for HCCI in Diesel Engines
Technical Paper
2005-01-3728
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
A simple thermodynamically based engine design tool is developed to allow engine designers to start with the engine peak pressure limit, desired IMEP, and restraints on rate of pressure rise and thus generate an idealized Wire-Frame cylinder pressure cycle. After conversion into crank-angle based pressures, the apparent heat release rate (AHRR) is generated. The resulting AHRR1 represents an idealized heat release rate which is required to achieve the engine performance goals. This target AHRR is thus known prior to engine testing and serves as a guide to HCCI combustion test engineers.
Using the Wire-Frame cycle tool, the ideal heat release rate for HCCI combustion is identified. For low IMEP, this is a single mode HRR centered at TDC. However, for medium and high loads, a second mode of combustion is required to achieve maximum efficiency and retain the benefits of HCCI combustion. The second combustion mode ramps up to maintain the cylinder pressure at the desired firing pressure.
Based upon the indications of the Wire-Frame HRR design tool, a few methods are identified and explored which allow higher IMEP from HCCI combustion. Reducing the engine compression ratio and slowing the rate of combustion are practical means to increase the IMEP from single mode HCCI combustion, however, with an efficiency penalty.
Analysis of results from the model indicate that achieving full load IMEP in a practical engine may require the development of a two-stage combustion process, with HCCI serving the first stage.
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Citation
Hampson, G., "Heat Release Design Method for HCCI in Diesel Engines," SAE Technical Paper 2005-01-3728, 2005, https://doi.org/10.4271/2005-01-3728.Also In
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