Callophyllum Inophyllum Linn (“honne”) Oil, A source for Biodiesel Production
Author Affiliations
- 1Bhagwant University, Ajmer, Rajasthan, INDIA
- 2Rajashri Chhatrapati Shau College, Kolhapur, Dist- Kolhapur, MS, INDIA
- 3Shardabai Pawar Mahila College, Shardanagar, Dist – Pune, MS, INDIA
Res.J.chem.sci., Volume 3, Issue (11), Pages 24-31, November,18 (2013)
Abstract
An increasing demand of fossil fuels has being a critical problem for us. The natural resources of fossill fuel are dwindling day by day. Biodiesel that may called natural fuel may be a good source or substitute for fossil fuel in future. Biodiesel can be produced from non edible oil like Jatropha curcus, pongamia pinnata, Madhuca indica, Gossypium arboreum, Simarouba glauca etc. and more. There is a best source as a raw material that is Calophyllum inophyllum (honne) oil for biodiesel production. As it is an evergreen tree and grows along the coastal area. Our study is focused on the collection of seeds and oil extraction then proceed for biodiesel production with molar ratio 8:1, KOH were 1.2wt%, tempreture 65c, reaction time 90minutes were used and testing of parameters as per ASTM 6751 standards. The physical properties like acid value, density, Calorific value, Flash point, Fire point and Moisture, Viscosity shows of calophyllum methyl esters were0.702,892gm/cc, 37.18MJ/Kg, 176°c, 182°c and 0.01% . The physico-chemical parameters showed that Calophyllum may works as a sustainable feedstock for biodiesel production that is equivalent to fissile fuel as per ASTM 6751.
References
- Zaltica J.P., Fuel, 87, 3522 (2008)
- Felizardo P., Neiva Correia M.J., Raposo I., Mendes J.F., Berkemeier R. and Bordado J.M., Waste Manage, 87, 26 (2004)
- Bobade S.N. and Khyade V.B., Preparation of Methyl Ester (Biodiesel) from Karanja (Pongamia Pinnata)Oil, Res. J. Chem. Sci., 2(8), 43-50 (2012)
- Bobade S.N., Kumbhar R.R. and Khyade V.B., Preparation of Methyl Ester (Biodiesel) from Jatropha Curcus Linn Oil, Res. J. A. F. Sci., 1(2), 12-19 (2013)
- Puhan S., Vedraman N., Rambrahaman B.V. and Nagrajan G., Mahua (Madhuca indica) seed oil: A source of renewable energy in India, J. Sci.Ind. Res.,64, 890-896 (2004)
- Deshpande D.P., Urunkar Y.D. and Thakare P.D., Production of biodiesel from castor oil using acid and base catalysts, Res. J. Chem. Sci., 2(8), 51-56 (2012)
- Mishra S.R., Mohanty M.K., Das S.P. and Pattanaik A.K., Production of biodiesel (Methyl Ester) from Simarouba Gauca oil, Res. J. Chem. Sci., 2(5), 66-71 (2012)
- El-Mashad H.M., Zhang R. and Roberto J.A., Biomass Engineering, 99, 220, (2008)
- Kadambi K., The silviculture of Calophyllum inophyllum Linn, Indian For., 83,559-562 (1957)
- National Council of Applied Economic Research (1965)
- Venkanna B.K., Venkataramana Reddy, Biodiesel production and optimization from Calophyllum (hanne oil)- A three stage method., Biosource Tech., 100, 5122-5125 (2009)
- Adeyeye A., Stdies on seed oils of Garcinia kola and Calophyllum inophyllum, Journal of Science of food and Agricultre 57, 441-442 (1991)
- Hemavathy J. and Prabhakar J.V., Lipid composition of calophyllum inophyllum in kernel. Journal of Americal Oil Chem. Soc. 67(12), 955-957 (1990)
- Kadambi K., The silviculture of Calophyllum inophyllum Linn, Indian For., 83, 559-562 (1957)
- Mueller-Dombois D., Fosberg F.R, Vegetation of the Tropical Pacific Island, Springer-Verlag, New York (1998)
- Little E.L. Jr. and Skolmen R.G, Common forest trees of Hawaii (Native and Introduced) Agricultureal Handbook No 679. USDA Forest service, (1989)
- Uphof J.C., Directory of economic Plants, Verlag von, J. Cramer, Lehre, Gremany (1968)
- Arora R.B., Mathur C.N. and Seth S.D., Calophylloide, a complex coumarin anticoagulant from Calophyllum inophyllum linn, Journal of Pharmacy and Pharmacology, 14, 534 (1962)
- Sundaram B.M., Gopalkrishnan C, and Subramanian S., Antibacterial acitivity of xanthones from calophyllum inophyllum linn., Arogya journal of health science, 12,48-49, (1986)
- Petard P., Tahiti-Palynesian medicinal plants and Tahitian remedies, Noumea, New Caledonia, South Pacific Commission, (1972)
- Bhalla T.N., Saxena R.C., Nigam S.K., Kisra G. and Bhargava K.P., Calophylloide, a new nonsteriodal anti-inflametory agent, Indian J. Med. Res., 72, 762-5 (1980)
- Nandkarni K.M., Nandkarni A.K., Indian material Medica- with Aurvedic, Unani-Tibbi, Siddha, Allapathic, Homeopathic, Naturopathic and Home Remedies. , Popular Prakashan Private Ltd, Bombay, India (1999)
- Givindchari T.R., Viswanathan N., Pai B.R., Rao R. and Srinivasan M., Triterpenses of calophyllum inophyllum linn, Tetrahedron, 23(4), 1901-1910, ISSN 0040-4020 (1967)
- Bryan R.M., Biodiesel production, properties and feedstocks:Invited review, In vitro cell Div. Biol. Plant, 45, 229-226
- Sanz S., Nogh G.C., Rozita Y, An overview on Transesterification of natural oils and fats, Biotechnology and Bioprocess Engineering, 15, 891-904 (2010)
- Gerpen J.V., Biodiesel production and fuel quality University of Idaho, Moscow,1-12, (2003)
- Tapasvi D., Wisenborn D., Gustafson C., Process model for biodiesel production from various feedstocks, Trans, ASAE, 48 (6), 2215-2221, (2005)
- Keim G.I. and Newark J.N.,Treating the fats and fatty oils, US patents No- 2383601 (1945)
- Varde K.S., Bulk modulus of vegetable oil-diesel fuel blends, 63,713-5, (1984)
- Rakopoulos C.D., Antonopoulos K.A., Rakopoulos D. C., Comparative performance and emissions study of a direct injection diesel engine using blends of diesel fuel with vegetable oils or bio-diesel of various origins, Energy Conversion and Management, 47, 3272-3287, (2006)
- Kamimoto T, Matsuoka S., Prediction of spray evaporation in receiprocating engine, SAE, (1977)
- Trembly A.Y., Cao P., Dube M.A., ‘Biodiesel production using ultra low catalyst concentrations, Energy and Fuels22) 2748-2755 (2008)