The Effect of Temperature and Ethanol Concentration on Diethyl Ether Production by Using Adsorption–Dehydration Process

A. Widayat, A. Roesyadi, M. Rachimoellah
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引用次数: 2

Abstract

The objective of this research is to produce DiEthyl Ether from ethanol broth fermentation by using adsorption - dehydration process with H-zeolite as catalyst. H-zeolite catalyst was synthesized from natural zeolite obtained from District Gunung Kidul, Indonesia. The H-zeolite catalyst was produced with chemical treatment, washing, drying and calcinations processes and then impregnation by using Al /aluminum. The zeolite catalyst was analyzed for its X-ray Diffraction and specific surface area. DiEthyl Ether was produced by adsorption with molecular sieve and then continued by dehydration process. DiEthyl Ether production used a fixed bed reactor with 1/2 in diameter, and ethanol fermentation broth as feed. The operation condition was 140-240oC and atmospheric pressure. The main compounds in the liquid phase of products are diethyl ether, methanol, ethanol and water. The result also showed that the adsorption process can increase purity of ethanol and therefore increase the ethanol conversion. Moreover, increasing operation temperature and ethanol concentration were able to increase the ethanol conversion, while H-zeolite and Alumina catalyst had the same affects in the ethanol conversion
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温度和乙醇浓度对吸附-脱水法生产乙醚的影响
本研究以h型沸石为催化剂,采用吸附-脱水工艺,从乙醇发酵液中生产乙醚。以印尼基杜尔地区的天然沸石为原料合成了h型沸石催化剂。采用化学处理、洗涤、干燥、煅烧等工艺,再用铝/铝浸渍制备h型沸石催化剂。对分子筛催化剂的x射线衍射和比表面积进行了分析。采用分子筛吸附法制备乙醚,再进行脱水工艺。二乙醚的生产采用直径为1/2的固定床反应器,以乙醇发酵液为饲料。操作条件为140-240℃,常压。产品液相中的主要化合物为乙醚、甲醇、乙醇和水。结果还表明,吸附过程可以提高乙醇纯度,从而提高乙醇转化率。提高操作温度和乙醇浓度均能提高乙醇转化率,h型沸石和氧化铝催化剂对乙醇转化率的影响相同
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