Biodiesel Technology and Applications. Группа авторов
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Table 1.2 Some of the commonly used fungal lipases for biodiesel production.
Enzyme | Immobilized on | Substrate | Acyl acceptor | Yield | Reference |
---|---|---|---|---|---|
Candida antartica Lipase | Activated textile cloth | Waste cooking oil | Methanol | 91.08% | [157] |
Polyurethane foam | Soybean oil | Ethanol | 81% | [158] | |
Acrylic resin | Sunflower oil | Ethyl acetate | 92.7% | [78] | |
Soybean oil | Methanol | 83.31% | [95] | ||
Candida rugosa Lipase | Microporous bio silica-polymer | Scenedesmus quadricauda microalgal oil | Methanol | 96.4% | [59] |
Poly(styrenemethacrylic acid) microsphere | Soybean oil | Methanol | 86% | [159] | |
within an activated carbon as support | Palm oil | Methanol | 70% | [160] | |
Thermomyces lanuginosus Lipase | Olive pomace | Pomace oil | Methanol | 93% | [161] |
Phyllosilicate sol-gel matrix | Grease | Ethanol | 80-90% | [162] | |
Mesoporous polyhydroxybutyrate particles (PHB) | Oleic acid | Methanol and Ethanol | 90% | [163] | |
Toyopearl AF-amino-650M resin | Babassu oil | Ethanol | 86.6% | [164] |
Table 1.3 Some examples commercial lipases commonly used for biodiesel production.
Enzyme |
Substrate
|
---|