沼气催化分解同时生产合成气和碳纳米丝的催化剂

Buthainah Ali Al-Timimi, Z. Yaakob
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引用次数: 1

摘要

减少大气中甲烷和二氧化碳含量的可能性是全球关注的重大问题。另一种吸引科学关注的替代方法是它们的化学利用,特别是因为这两种气体都是沼气的组成部分。因此,页岩气的迅速而广泛的开发使其具有丰富的原料。开发一种有效的催化过程,可以扩大规模用于工业用途,对催化仍然是一个巨大的挑战。此外,对非均相催化剂上分子活化机理和活性中心反应途径的了解也有待进一步深入。已经证明沼气是一种非常有趣的可再生能源。由于沼气的甲烷含量升高,沼气具有极好的潜力,这反映在其产量的逐年增长上。这是因为它的制造促进了有机废物的利用,防止了不受控制的倾倒,并最大限度地减少了大气中的甲烷和二氧化碳排放。此外,在某些情况下,它作为一种能源的使用是化石燃料的替代品,可以帮助尽量减少对能源的依赖。另一个令人感兴趣的方面是,它可以就地使用,使农畜农场或小型工业工厂实现能源自给自足。
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Catalysts for the Simultaneous Production of Syngas and Carbon Nanofilaments Via Catalytic Decomposition of Biogas
The possibility of alleviation of methane and carbon dioxide levels in the atmosphere are of major global interest. One of the alternatives that attracts much scientific attention is their chemical utilization, especially because both of these gases are components of the biogas. Thus, the rapid and extensive shale gas development makes them abundant raw materials. The development of an effective catalytic process that could be scaled-up for industrial purposes remains a great challenge for catalysis. As well, understanding of the mechanisms of molecular activation and the reaction pathways over active centers on heterogeneous catalysts needs to be advanced. It has been shown that biogas is a very interesting source of renewable energy. Because of its elevated methane content, biogas has excellent potential, as reflected in its year-over-year rise in production. This is because its manufacturing promotes the use of organic waste, prevents uncontrolled dumping and minimizes atmospheric methane and carbon dioxide emissions. Moreover, its use as an energy source is in some cases an alternative to fossil fuels and can help to minimize energy dependence. Another aspect of interest is that it can be used in situ, allowing agro-livestock farms or small industrial plants to achieve energy self-sufficiency.
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Catalysts for the Simultaneous Production of Syngas and Carbon Nanofilaments Via Catalytic Decomposition of Biogas Adsorbed Natural Gas Storage for Vehicular Applications
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