Investigation into Production of Bio diesel from Honge Oil and its use for Compression Ignition Engine

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2017 by IJETT Journal
Volume-50 Number-6
Year of Publication : 2017
Authors : Dr. Nandkishore, Dr. Sanjay patil

Citation 

Dr. Nandkishore, Dr. Sanjay patil " Investigation into Production of Bio diesel from Honge Oil and its use for Compression Ignition Engine", International Journal of Engineering Trends and Technology (IJETT), V50(6),329-332 August 2017. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group

Abstract
In this paper, an effort is made to prepare bio disel from a non edible oil obtained from Pongamai pinnata (Honge) seeds. Various properties of diesel, neat Honge oil (HO) and methyl ester of Honge oil (HBD) are determined. HBD exhibits better properties in terms of viscosity, calorific value, flash and fire point etc. Experimental investigations have been carried out to evaluate the use of HBD on performance characteristics of a compression ignition engine. Use of HO for diesel engine is limited due to its higher viscosity and poor volatility. The HO shows lower thermal efficiency higher exhaust gas temperature and higher brake specific fuel consumption, etc. Use of HBD indicates improvement in engine characteristics. The engine performance with the HBD is in closer approximation with diesel fuel. It could be concluded that HBD can be a good substitute for diesel.

Reference
1)Sinem Caynak, Metin Guru, Ahmet Bicer, Ali Keskin, YakupIcingur, “Bio-diesel production from pomace oil and improvement of its properties with synthetic manganese additive” Fuel, 88, 2009; 534-538
2) Kaya C., Hamaine L C., and Baysal, “ A Methyl ester of peanut seed oil as a potential feedstock for bio-diesel production” Renewable Energy, 34, 2009; 1257-1260.
3) Sahoo PK, Das LM. Process optimization for bio-diesel production from Jat-ropha Karanja and Polanga oils. Fuel 2009;88(9):1588–94.
4) Chavan S.B, Kumbhar, R.R and Deshmukh R.B. Calophyllum inophyllum Oil, “A Source of biodiesel production”
5) T. Elangovan G. Anbarasu, L.Jeryrajkumar. development of calophyllum inophyllum biodiesel and analysis of its properties at different blends.
6) GauravDwivedi, Siddharth Jain, Mahendra Pal Sharma “the best substitute for Kerosene is the karanja oil.”Smart Grid and Renewable Energy, 2011, 2, 184-189
7) Karmee, S and Chadha, “A Preparation of bio-diesel from crude oil of Pongamia pinnata. Bio resource Technology”, 96, 2005; 1425-1429.
8) Sinem Caynak, Metin Guru, Ahmet Bicer, Ali Keskin, YakupIcingur, “Bio-diesel production from pomace oil and improvement of its properties with synthetic manganese additive” Fuel, 88, 2009; 534-538.
9) P. L. Naik, D. C. Katpatal “ Reduction of high viscosity of Pongamiapinnata (Karanja) oil using esterification followed by transesterification and to assess the performance and emission characteristics of diesel engine” ISSN: 2319-7064.
10) Venkanna BK, Reddy CV. Bio-diesel production and optimization from Calophylluminophyllum Linn oil (honne oil) – a three stage method. Bioresource Technology 2009;100(21):5122–5.

Keywords
Compression Ignition engine, Vegetable oils, Biodiesel, Performance, Esterification