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United States Department of Agriculture

Agricultural Research Service

Research Project: IMPROVING THE PERFORMANCE OF ALTERNATIVE FUELS AND CO-PRODUCTS FROM VEGETABLE OILS Title: Evaluation of Biodiesel Obtained from Cottonseed Oil

Authors
item Rashid, Umer - PAKISTAN UNIV OF AGRIC
item Anwar, Farooq - PAKISTAN UNIV OF AGRIC
item KNOTHE, GERHARD

Submitted to: Energy and Fuels
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: May 12, 2009
Publication Date: June 9, 2009
Citation: Rashid, U., Anwar, F., Knothe, G.H. 2009. Evaluation of Biodiesel Obtained from Cottonseed Oil. Energy and Fuels. 90(1):1157-1163.

Interpretive Summary: Biodiesel is an alternative diesel fuel derived from vegetable oils such as soybean oil or other sources such as animal fats and waste frying oils. However, all known sources of biodiesel do not suffice to replace all diesel fuel obtained from petroleum. Therefore, it is important to find additional sources of biodiesel, including vegetable oils which have found less attention as potential feedstocks. This work discusses the production of biodiesel from cottonseed oil. Important fuel properties of the biodiesel fuel derived from cottonseed oil are reported.

Technical Abstract: Esters from vegetable oils have attracted a great deal of interest as substitutes for petrodiesel to reduce dependence on imported petroleum and provide a fuel with more benign environmental properties. In this work biodiesel was prepared from cottonseed oil by transesterification with methanol, using sodium hydroxide, potassium hydroxide, sodium methoxide and potassium methoxide as catalysts. A series of experiments were conducted in order to evaluate the effects of reaction variables such as methanol/oil molar ratio (3:1-15:1), catalyst concentration (0.25-1.50%), temperature (25-65 deg C), and stirring intensity (180-600 rpm) to achieve the maximum yield and quality. The optimized variables of 6:1 methanol/oil molar ratio (mol/mol), 0.75% sodium methoxide concentration (wt%), 65 deg C reaction temperature, 600 rpm agitation speed and 120 min reaction time offered the maximum methyl ester yield (96.9%). The obtained fatty acid methyl esters (FAME) were analyzed by gas chromatography (GC) and 1H-NMR spectroscopy. The fuel properties of cottonseed oil methyl esters (COME), cetane number, kinematic viscosity, oxidative stability, lubricity, cloud point, pour point, cold filter plugging point, flash point, ash content, sulfur content, acid value, copper strip corrosion value, density, higher heating value, methanol content, free and bound glycerol were determined and are discussed in the light of biodiesel standards such as ASTM D6751 and EN 14214.

Last Modified: 9/10/2014
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