Cu-Zn-Al/-氧化铝双功能催化剂替代液化石油气合成合成气二甲醚的研究

Suratno Lourentius
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引用次数: 2

摘要

为了满足印尼对液化石油气的需求,目前大约70%的液化石油气仍是进口的,有必要找到替代品。取代液化石油气的努力之一是利用以煤为原料生产的二甲醚。煤可以催化转化为合成气,然后合成气可以通过直接两步或一步的途径催化转化为二甲醚。本文讨论了以Cu-Zn-Al/g-氧化铝为双功能催化剂,合成气一步法合成二甲醚。所使用的合成气由一氧化碳和氢气组成,摩尔比为1:2。在固定床反应器中,压力为40 bar,温度为240 ~ 300℃,空速为29.3 ~ 32.7 mL/g催化剂/min。在300℃温度和29.3 mL/g催化剂/min的空速条件下,CO的最高转化率为90.08%。采用气相色谱法对合成产物进行分析。二甲醚是一种环境友好型燃料和无毒化合物,不破坏臭氧,不含硫,热值约为30.5 MJ/kg,低于50.56 MJ/kg
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Synthesis of Syngas into Dimethyl Ether Using Cu-Zn-Al/-Alumina Bifunctional Catalyst as an Environmentally Friendly Fuel for Substituting Liquified Petroleum Gas
In order to meet the need for Liquified Petroleum Gas in Indonesia, which is currently around seventy percent of which is still imported, it is necessary to find a replacement. One of the efforts to replace the Liquified Petroleum Gas is by utilizing dimethyl ether which can be produced from coal as raw material. Coal can be catalytically converted to syngas and then syngas can be catalytically converted to dimethyl ether via a direct two-step or one-step route. This paper will discuss the one-step synthesis of dimethyl ether from syngas using Cu-Zn-Al/g-Alumina as a bifunctional catalyst. The syngas used consists of carbon monoxide and hydrogen with a mole ratio of 1:2. The conversion reaction was carried out in a fixed-bed reactor at the pressure of 40 bar, the temperature of 240-300 0C, and the space velocity of 29.3-32.7 mL/g catalyst/minute. The highest conversion of CO that can be achieved is 90.08 % at a temperature of 300 oC and the space velocity of 29.3 mL/g catalyst/minute. The synthesis product was analyzed using GC. The dimethyl ether is an environmentally friendly fuel and non-toxic compound that does not destroy ozone, does not contain sulfur, and has a calorific value of about 30.5 MJ/kg which is lower than 50.56 MJ/kg
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