Vikram S. Chatake , Harsh V. Rambhia , Sammed S. Bhalerao , Vikram S. Korpale , Jayendra P. Ahire , Aniruddha B. Pandit
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引用次数: 0
摘要
在常温常压条件下,利用液态有机载体储氢已被证明是一种非常有效的储氢方法。甲醇的氢(H2)含量为 12.6%(按重量计),可通过二氧化碳(CO2)氢化过程合成。这项研究的主要目的是证明甲醇作为氢载体的作用及其在直接甲醇燃料电池发电中的应用。建议的系统利用绿色氢气和从工业源回收的二氧化碳合成甲醇。Aspen Plus 对 DMFC 的模拟显示,甲醇转化率为 58%,能效(甲醇发电)为 61%。
Process simulation and optimization of methanol production and utilization for electricity generation
The utilisation of liquid organic carriers for hydrogen storage has demonstrated to be a highly effective method for storing hydrogen under ambient temperature and pressure conditions. Methanol has a hydrogen (H2) content of 12.6% by weight and can be synthesised by the process of carbon dioxide (CO2) hydrogenation. The main goal of the study is to demonstrate methanol’s role as a hydrogen carrier and its application in a direct methanol fuel cell for energy generation. The suggested system synthesises methanol by utilizing green hydrogen with CO2 recovered from industrial sources. The Aspen Plus simulation of the DMFC showed a 58% methanol conversion and a 61% energy efficiency (Methanol-to-power).
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