Production of algae-based biodiesel using the continuous catalytic Mcgyan® process

This study demonstrates the production of algal biodiesel from Dunaliella tertiolecta, Nannochloropsis oculata, wild freshwater microalgae, and macroalgae lipids using a highly efficient continuous catalytic process. The heterogeneous catalytic process uses supercritical methanol and porous titania microspheres in a fixed bed reactor to catalyze the simultaneous transesterification and esterification of triacylglycerides and free fatty acids, respectively, to fatty acid methyl esters (biodiesel). Triacylglycerides and free fatty acids were converted to alkyl esters with up to 85% efficiency as measured by 300 MHz ¹H NMR spectroscopy. The lipid composition of the different algae was studied gravimetrically and by gas chromatography. The analysis showed that even though total lipids comprised upwards of 19% of algal dry weight the saponifiable lipids, and resulting biodiesel, comprised only 1% of dry weight. Thus highlighting the need to determine the triacylglyceride and free fatty acid content when considering microalgae for biodiesel production.     

魔芋葡甘聚糖磷酸酯化反应的研究(Ⅰ)

本文旨在研究干法条件下魔芋葡甘聚糖磷酸化反应,反应温度、时间、pH和磷酸盐用量对酯化反应以及酯化产物粘度的影响.利用红外光谱、X-射线衍射、扫描电镜及旋转粘度计等分析测试手段,探讨酯化产物的结构和性能之间的关系.     

利用麻风树油驯化筛选高活性脂肪酶产生菌及其催化酯化反应

以1株分解麻风树油的脂肪酶产生菌Pseudomonas sp. LP-1为出发菌株, 通过麻疯树油定向驯化筛选获得1株酶活较高且产酶稳定的菌株P. sp. X-2-45, 其水解酶活为29.79 U/mL, 比原始菌株提高了288%。对P. sp. X-2-45生长与产酶特征、对植物油脂水解能力及在有机相中催化脂肪酸和有机醇间的酯化反应研究发现, 该菌株生长速率和产酶速率明显加快, 培养30 h时生物量和酶活达到最大, 稳定期延长, 培养过程中脂肪酶在培养基中的稳定性提高。以麻疯树油诱导合成的P. sp. X-2-45脂肪酶对麻疯树油的水解能力比原始菌株提高了378%, 说明采用麻风树油定向驯化可提高脂肪酶对相应底物的水解能力。X-2-45脂肪酶可以催化月桂酸与正丁醇、正辛醇、月桂醇和丙三醇之间, 棕榈酸、硬脂酸与甲醇、正辛醇、月桂醇和丙三醇之间, 油酸与甲醇、正丁醇、正辛醇、月桂醇和丙三醇之间发生酯化反应。     

Immobilization of lipases for non-aqueous synthesis

Immobilization of lipases involves many levels of complications relating to the structure of the active site and its interactions with the immobilization support. Interaction of the so called hydrophobic ‘lid’ with the support has been reported to affect synthetic activity of an immobilized lipase. In this work we evaluate and compare the synthetic activity of lipases from different sources immobilized on different kinds of supports with varying hydrophobicity. Humicola lanuginosa lipase, Candida antarctica lipase B and Rhizomucor miehei lipase were physically adsorbed onto two types of hydrophobic carriers, namely hydrophilic carriers with conjugated hydrophobic ligands, and supports with base matrix hydrophobicity. The prepared immobilized enzymes were used for acylation of n-butanol with oleic acid as acyl donor in iso-octane with variable water content (0–2.8%, v/v) as reaction medium. Enzyme activity and effect of water on the activity of the immobilized derivatives were compared with those of respective soluble lipases and a commercial immobilized lipase Novozyme 435. Both R. miehei and H. lanuginosa immobilized lipases showed maximum activity at 1.39% (v/v) added water concentration. Sepabeads, a methacrylate based hydrophilic support with conjugated octadecyl chain showed highest immobilized esterification (synthetic) activity for all three enzymes, and of the three R. miehei lipase displayed maximum esterification activity comparable to the commercial enzyme.     

Enzymatic Synthesis of Ethyl-glucoside Monooleate with Lipase in Solvent-free Medium

Ethylglucoside monooleate was synthesized by esterification between ethylglucoside and oleic acid with immobilized lipase from Candida antarctica in a solvent-free system. It was shown that a stirred tank reactor was suitable for the enzymatic reaction process involving substrates with low miscibility, in which the biocatalyst was recycled five times without significant activity loss. Removal of the co-product, water, from the reaction medium by carrying out the reaction under reduced pressure benefited the esterification reaction and increased the monooleate yield up to 97% within 8 hours.     

Rhizopus delemar Lipase in Microemulsion-based Organogels: Reactivity and Rate-Limiting Study

The reactivity of Rhizopus delemar lipase immobilized in sodium bis(2-ethylhexyl) sulfosuccinate microemulsion-based organogels (MBGs) was investigated as a function of the water content in the gel. Gelatin was used as the gelling component of the MBGs. The maximal reaction rate of 6.5 μM s^?1 was obtained at a W_G (molar ratio of water to AOT in the MBG phase) value of 100. In the experimental W_G conditions, the reaction proceeded under an effectiveness factor of 0.02 to 0.04 giving the reaction-limiting regime.     

A novel mono- and diacylglycerol lipase highly expressed in Pichia pastoris and its application for food emulsifier preparation

A mono- and diacylglycerol lipase (MDL) was cloned from Penicillium cyclopium and expressed in Pichia pastoris strain GS115. The recombinant enzyme was named Lipase GH1. High cell density fermentation was performed by culture in a 7.5-L fermenter using BSMG medium, in which the phosphate in basal salt medium was replaced by sodium glycerophosphate (Na₂GP). The maximal lipase activity detected was 18,000 U per mL, and total protein content in the fermentation supernatant was 3.94 g per L. The activity of the liquid enzyme remained stable under alkaline conditions at 4 °C for 6 months and was 50% after one year. Lipase GH1 was used for the synthesis of mono- and diacylglycerols (MAGs and DAGs), which are commonly used emulsifiers for industrial applications. A conversion rate of 84% after 24 h of reaction was obtained using glycerol/oleic acid molar ratio 11:1, water content 1.5 wt%, enzyme dosage 80 U per g, and reaction temperature 35 °C. Lipase GH1 was more efficient for the synthesis of MAGs and DAGs than was Lipase G50 (a similar, commercially available lipase derived from Penicillium camemberti) when oleic acid was used as an acyl donor. Lipase GH1 has potential for food emulsifier preparation.     

Expedited Baeyer-Villiger oxidation of steroidal ketones by microwave irradiation

Microwave (MW) assisted reactions are currently having considerable importance in the synthesis of organic compounds. Considering the remarkable application of Baeyer–Villiger (BV) reaction in the synthesis of natural products and steroid–peptide conjugates, we report here some of our findings of BV oxidation of carbonyl compounds with special reference to steroidal ketones under MW irradiation justifying its accelerating effect.     

Accelerated esterification of free fatty acid using pulsed microwaves

It was demonstrated that pulsed microwave irradiation is a more effective method to accelerate the esterification of free fatty acid with a heterogeneous catalyst than continuous microwave irradiation. A square-pulsed microwave with a 400 Hz repetition rate and a 10-20% duty cycle with the same energy as the continuous microwave were used in this study. The pulsed microwaves improved the esterification conversion from 39.9% to 66.1% after 15 min in comparison with the continuous microwave under the same reaction conditions. These results indicated that pulsed microwaves with repetitive strong power could enhance the efficiency of biodiesel production relative to the use of continuous microwave with mild power.