Vijay Kale scite author profile

Crude rice bran oil containing 16.5% free fatty acids (FFA) was deacidified by extracting with methanol. At the optimal ratio of 1.8:1 methanol/oil by weight, the concentration of FFA in the crude rice bran oil was reduced to 3.7%. A second extraction at 1:1 ratio reduced FFA in the oil to 0.33%. The FFA in the methanol extract was recovered by nanofiltration using commercial membranes. The DS-5 membrane from Osmonics/Desal and the BW-30 membrane from Dow/FilmTec gave average FFA rejection of 93-96% and an average flux of 41 L/m 2 ·h (LMH) to concentrate the FFA from 4.69% to 20%. The permeate, containing 0.4-0.7% FFA, can be nanofiltered again to recover more FFA with flux of 67-75 LMH. Design estimates indicate a two-stage membrane system can recover 97.8% of the FFA and can result in a final retentate stream with 20% FFA or more and a permeate stream with negligible FFA (0.13%) that can be recycled for FFA extraction. The capital cost of the membrane plant would be about $48/kg oil processed/h and annual operating cost would be about $15/ton FFA recovered. The process has several advantages in that it does not require alkali for neutralization, no soapstock nor wastewater is produced, and effluent discharges are minimized.Paper no. J8957 in JAOCS 76, 723-727 (June 1999).

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Optimum coordination of overcurrent relays in distribution system using genetic algorithm

Bedekar

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Kale

2009

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Vijay Kale

Wastewater treatment in dairy industries — possibility of reuse

An application of a tent map initiated Chaotic Firefly algorithm for optimal overcurrent relay coordination

Deacidifying rice bran oil by solvent extraction and membrane technology

Optimum coordination of overcurrent relays in distribution system using genetic algorithm

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