Influence of Injection Timing on Exhaust Emissions and Combustion Characteristics of Low Heat Rejection Diesel Engine with Air Gap Insulation
Pages : 3364-3371
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Abstract
Experiments were carried out to study exhaust emissions of diesel engine with air gap insulated low heat rejection (LHR–2) combustion chamber consisting of air gap insulated piston with 3 mm air gap, with superni (an alloy of nickel) crown and air gap insulated liner with superni insert with neat diesel with varied injection timing. Exhaust emissions of particulate emissions and nitrogen oxide (NOx) levels were determined at various values of brake mean effective pressure (BMEP) of the LHR-2 combustion chamber and compared with neat diesel operation on conventional engine (CE) at similar operating conditions. Combustion diagnosis was carried out using miniature Piezo electric pressure transducer, TDC (top dead centre) and special pressure-crank angle software package at full load operation. The optimum injection timing was found to be 31obTDC (before top dead centre) with conventional engine, while it was 29o bTDC for engine with LHR–2 combustion chamber with diesel operation. Engine with LHR–2 combustion chamber with neat diesel operation showed increased particulate emissions and NOx levels at manufacturer’s recommended injection timing of 27o bTDC, and the they improved marginally with advanced injection timing of 31obTDC in comparison with CE at 27obTDC.
Keywords: Conservation of diesel, conventional engine, LHR combustion chamber, Pollution levels, combustion characteristics
Article published in International Journal of Current Engineering and Technology, Vol.5, No.5 (Oct-2015)