Duple Sinha scite author profile

Transesterification of waste cotton cooking oil (WCCO) is reported here. The GC-MS analysis of WCCO oil was studied and the major fatty acids were found to be Palmitic acid (28.26%) and Linoleic acid (43.14%). The molecular weight of the oil was 872.049 g/mol (GC-MS). The results showed maximum biodiesel yield of 96% when the reaction temperature, time, methanol/oil ratio and catalyst loading were fixed at 65 C, 45 min, 6:1 and 2% (wt.%) respectively. Partial purification of the biodiesel was performed for better engine performance and improved emission characteristics. The flash point and fire point of WCCO biodiesel were found to be 158 C and 165 C respectively. The brake thermal efficiency of WCCO10 biodiesel was 26.64% for maximum load and the specific fuel consumption for diesel was 0.3479 kg/kWh at maximum load. The use of biodiesel blends showed a reduction of carbon monoxide and hydrocarbon emissions and a marginal increase in nitrogen oxide emissions.

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Comparative studies on biodiesel production from Waste Cotton Cooking Oil using alkaline, calcined eggshell and pistachio shell catalyst

Sinha

Murugavelh

2016

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Duple Sinha

Biodiesel production from waste cotton seed oil using low cost catalyst: Engine performance and emission characteristics

Biodiesel production from waste cotton seed oil: engine performance and emission characteristics

Comparative studies on biodiesel production from Waste Cotton Cooking Oil using alkaline, calcined eggshell and pistachio shell catalyst

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