International Journal of Applied Engineering Research, Dindigul
  • Year: 2010
  • Volume: 1
  • Issue: 3

Performance Evaluation of Low Heat Rejection Diesel Engine with Pure Diesel

  • Author:
  • P.V.K. Murthy1,, M.V.S. Murali Krishna2, A Sitarama Raju3, C.M. Vara Prasad4, N.V. Srinivasulu2
  • Total Page Count: 24
  • Page Number: 428 to 451

1Vivekananda Institute of Science and Information Technology, Shadnagar, Mahabubnagar

2Mechanical Engineering Department Chaitanya Bharathi Institute of Technology, Gandipet, Hyderabad.

3Mechanical Engineering Department J.N.T. University, Kukatpally, Hyderabad

4Sreenidhi Institute of Science and Technology, Na Yampet, Ghatkeswar Mandal, Hyderabad

*Email: maddalivs@gmail.com

Abstract

Investigations are carried out to evaluate the performance of a low heat rejection (LHR) diesel engine consisting of air gap insulated piston with 3mm air gap, with superni (an alloy of nickel) crown, air gap insulated liner with superni insert and ceramic coated cylinder head with pure diesel operation with varied injection timing and injection pressure. Performance parameters are determined at various magnitudes of brake mean effective pressure. Pollution levels of smoke and oxides of nitrogen (NOx) are recorded at the peak load operation of the engine. Combustion characteristics of the engine are measured with TDC (top dead centre) encoder, pressure transducer, console and special pressurecrank angle software package. Zero dimensional, multizone combustion model is assumed to predict combustion characteristics and validated with experimental results. LHR engine showed deteriorated performance at recommended injection timing and pressure and improved performance at advanced injection timing and higher injection pressure, when compared with conventional engine (CE). At peak load operation, brake specific fuel consumption (BSFC) decreased by 12%, while smoke levels by 16% and NOx levels increased by 34% with LHR engine at an injection timing of 32°bTDC (before top dead centre) and an injection pressure of 270 bars, in comparison with CE operating at an injection timing of 27°bTDC, and an injection pressure of 190 bars.

Keywords

Low heat rejection, Performance, Pollution levels, Combustion characteristics, Zero dimensional multizone combustion model