Title of article
Spark-ignited engine NOx emissions in a low-nitrogen oxycombustion environment
Author/Authors
Van Blarigan، نويسنده , , Andrew and Kozarac، نويسنده , , Darko and Seiser، نويسنده , , Reinhard and Chen، نويسنده , , J.Y. and Cattolica، نويسنده , , Robert and Dibble، نويسنده , , Robert، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
10
From page
22
To page
31
Abstract
This paper investigates the formation of the pollutant nitric oxides (NOx) in the low-nitrogen (N2) environment of methane oxycombustion in a spark-ignited (SI) internal combustion engine. Working fluid composition, N2 concentration, O2 concentration, compression ratio (CR) and spark-timing have been investigated to evaluate the feasibility of operating such a system below NOx regulation levels without after-treatment systems.
issions in g/kW h are shown under equivalent CR, intake temperature, and indicated mean effective pressure (IMEP) at maximum brake torque spark-timing, to have an approximately linear dependence on N2 concentration from no N2 to normal air combustion. At a given N2 concentration, NOx emissions were found to be adversely correlated with power, thermal efficiency, and the coefficient of variation of IMEP. It was found that with 2–3% N2 by volume in the working fluid, it was possible to reduce NOx emissions to satisfy regulation levels, but this corresponds to non-ideal engine performance in other metrics. Satisfying regulations while operating at the maximum thermal efficiency required the N2 concentration be reduced to 1–2% by volume.
stem was simulated using an AVL Boost model, with results indicating that the increasing NOx concentrations at higher O2 cases and earlier spark-timings can largely be attributed to higher burned-gas temperatures. An additional simulation utilizing CHEMKIN and the GRI 3.0 mechanism was used to estimate NOx formation, and with results indicating that air-calibrated NOx mechanisms maintain reasonable accuracy in low-N2 environments.
Keywords
NOX , Exhaust gas recirculation (EGR) , Simulation , Experiment , Oxycombustion , SI engine
Journal title
Applied Energy
Serial Year
2014
Journal title
Applied Energy
Record number
1607241
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