Production of bio-aromatics from ethanol-waste cooking oil mixtures over ZSM-5 catalyst material

Catalysis for Sustainable Energy Pub Date : 2016-05-01 DOI:10.1515/cse-2018-0003

Elvis Tinashe Ganda, Y. Isa

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引用次数: 1

Abstract

Abstract The utilisation of ethanol-waste cooking oil (Eth- WCO) mixtures for the production of valuable chemicals has been considered. The study investigated the potential of synthesised HZSM-5 in the conversion of ethanol-oil mixtures to fuel-range hydrocarbons. HZSM-5 catalyst material was successfully synthesised and characterised and activities were tested in a fixed-bed reactor unit at temperatures of 400°C and 450 °C with a fixed weight hourly space velocity of 2.5 h-1 at atmospheric pressure. The synthesised catalyst had total surface area greater than 250 m2/g. From the catalyst activity test, it was observed that up to 93% conversion was achieved on the synthesised catalysts. The conversion product was rich in aromatic compounds such as p-xylene, toluene and naphthalene that have potential as feedstock in the chemical and petrochemical industries. The FeZSM-5 catalyst material had a generally higher percentage composition of p-xylene content, peaking at 30% at 400°C for pure waste cooking oil feedstock. Potential catalysts for bio-aromatics production from ethanol-waste cooking oil mixtures have been successfully synthesised and evaluated.

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ZSM-5催化剂催化乙醇-废食用油混合物生产生物芳烃的研究

摘要研究了利用乙醇-废食用油(Eth- WCO)混合物生产有价化学品。该研究调查了合成的HZSM-5在将乙醇-油混合物转化为燃料型碳氢化合物方面的潜力。成功合成并表征了HZSM-5催化剂材料，并在固定床反应器装置上进行了活性测试，温度为400℃和450℃，固定重量每小时空速为2.5 h-1，常压下。合成的催化剂总比表面积大于250m2 /g。通过催化剂活性测试，发现合成的催化剂转化率高达93%。该转化产物富含对二甲苯、甲苯和萘等芳香族化合物，具有作为化工和石化工业原料的潜力。FeZSM-5催化剂材料的对二甲苯含量总体较高，在400°C时达到30%的峰值，用于纯废食用油原料。成功地合成了乙醇-废食用油混合物制备生物芳烃的潜在催化剂，并对其进行了评价。

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Catalysis for Sustainable Energy

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