甘油作为TiO2光催化剂上牺牲制氢的优越电子源

Glycerine Production and Transformation - An Innovative Platform for Sustainable Biorefinery and Energy Pub Date : 2019-04-11 DOI:10.5772/INTECHOPEN.85810

M. Yasuda, Tomoko Matsumoto, Toshiaki Yamashita

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引用次数: 1

摘要

生物柴油作为一种新的可替代石油基燃料的可持续能源受到了广泛的关注。BDF是通过植物油或动物脂肪与甲醇的酯交换反应以及甘油的协同生产而生产的。事实上，植物油(136.5 g)与甲醇(23.8 g)在NaOH (0.485 g)存在下，在61°C下加热2小时，分别以83.7和73.3%的收率生成烷烃酸甲酯(BDF)和甘油。虽然BDF很容易通过相分离从反应混合物中分离出来，但甘油和未反应的甲醇仍然是废物。为了构建清洁的BDF合成，在高压汞灯紫外照射下，在负载pt的tio2催化剂上牺牲甘油和甲醇水溶液的h2生成。h2产率高。生成的h2的燃烧能量(Δ H)达到甘油和甲醇总Δ H的100.7%。因此，牺牲剂，如甘油和甲醇，所有的碳都附着在氧原子上，可以继续作为电子源，直到它们的牺牲能力耗尽。牺牲制氢为BDF合成副产物的利用提供了一条很有前途的途径。

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Glycerol as a Superior Electron Source in Sacrificial H2 Production over TiO2 Photocatalyst

Biodiesel fuel (BDF) has gained much attention as a new sustainable energy alternative to petroleum-based fuels. BDF is produced by transesterification of vegetable oil or animal fats with methanol along with the co-production of glycerol. Indeed, transesterification of vegetable oil (136.5 g) with methanol (23.8 g) was performed under heating at 61°C for 2 h in the presence of NaOH (0.485 g) to produce methyl alkanoate (BDF) and glycerol in 83.7 and 73.3% yields, respectively. Although BDF was easily isolated by phase separation from the reaction mixture, glycerol and unreacted methanol remained as waste. In order to construct a clean BDF synthesis, the aqueous solution of glycerol and methanol was subjected to sacrificial H 2 production over a Pt-loaded TiO 2 catalyst under UV irradiation by high-pressure mercury lamp. H 2 was produced in high yield. The combustion energy ( Δ H ) of the evolved H 2 reached 100.7% of the total Δ H of glycerol and methanol. Thus, sacrificial agents such as glycerol and methanol with all of the carbon attached to oxygen atoms can continue to serve as an electron source until their sacrificial ability was exhausted. Sacrificial H 2 production will provide a promising approach in the utilization of by-products derived from BDF synthesis.

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Glycerine Production and Transformation - An Innovative Platform for Sustainable Biorefinery and Energy

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