Karthickeyan, V. published the artcileExperimental investigation on combined effect of ignition promoters and ceramic coating fuelled with papaya seed oil methyl ester in DI diesel engine, Computed Properties of 929-77-1, the main research area is papaya seed oil methyl ester DI diesel engine effect.
The present work offered a comprehensive investigation of engine characteristics of diesel engine driven with diesel and papaya seed oil Me ester (POME). The chem. compositions of POME were explored using FTIR and GC-MS anal. 1% of Di-tert-Bu Peroxide (DTBP) and Pyrogallol (PY) were used as ignition promoters with POME for achieving improved cetane number and enhanced ignition. In order to utilize the maximum available energy in the fuel thermal barrier coating was attempted. Partially Stabilized Zirconia coating on combustion chamber components leads to diminished heat loss from engine. The aim of the present experimentation was to analyze the consequence of papaya seed oil biodiesel with presence of ignition promoter in coated and uncoated engine characteristics. In PSZ coated engine, POME and PY blend showed 3.15% of increased thermal efficiency with 2.17% of declined fuel consumption. Reduced emissions were noticed with POME and PY blend in PSZ coated engine. Superior combustion efficiency, in-cylinder pressure, heat release rate and combustion duration were witnessed with POME and PY blend in coated engine due to short ignition delay. The practice of using ignition promoter-treated biodiesel in thermally coated engine was said to be the prominent method for achieving enhanced engine characteristics.
Renewable Energy published new progress about Absorption. 929-77-1 belongs to class esters-buliding-blocks, name is Methyl docosanoate, and the molecular formula is C23H46O2, Computed Properties of 929-77-1.
Referemce:
Ester – Wikipedia,
Ester – an overview | ScienceDirect Topics