The water-gas shift reaction(WGS)converts carbon monoxide(produced in the primary conversion stage of the fuel processor)and water to carbon dioxide and hydrogen.
Unsymmetrical dimethylhydrazine(UDMH),as missile propellant,is very toxic that is hard to decomposed in traditional ways.In this paper,the gasification of unsymmetrical UDMH in supercritical water was
氢气是一种高效、清洁的能量存储介质,尤其适应与可再生能源发电技术配套使用。氢气作为能源载体的优势在于:氢和电能之间通过电解水技术可实现高效率的相互转换;压缩的氢气有很高的能量密度;氢气具有成比例放大到电网规模应用的潜力。
Semicoke powders with particle size less than 6 mm are by-products in the pyrolysis of coal.Direct combustion of semicoke powders is difficult due to the low volatile content.
本文针对传统燃煤发电产生的环境问题,结合超临界水氧化技术的优点,给出一种新型超临界水中煤直接氧化发电循环系统,该系统用氧化反应器代替传统燃煤发电系统中的锅炉,将传统燃煤发电工艺中的燃料系统与汽水系统相结合,进料系统中的煤和溶于超临界水的氧在氧化反应器中进行复杂的反应,氧化后的高温高压气体及超临界水携带氧化反应放出的大量热量进入汽轮机中进行膨胀做功发电,从汽轮机出来的乏汽随后进入回热器中加热循环水,
Acetate has a strong inhibitory effect on hydrogen production[1-3].We developed an integrated system taking electrodialysis with bipolar membrane as separation unit coupling with an anaerobic bioreact
A biomass gasification model was developed by Aspen Plus,which was based Gibbs free energy minimization and was modified by the restricted equilibrium of the RGIBBS reactor.
光合细菌利用光能降解有机废水制取氢气,同时有效降低废水COD,并不产生二次污染,是一种环境友好型新能源生产方式。固氮酶是光合细菌的产氢酶,其活性受到严格调控。
硼氢化钠因具有较高的质量储氢容量(10.6 wt.%)而成为较有潜力的储氢材料之一[1].在有催化剂存在的条件下,硼氢化钠可以通过水解的方式释放氢气[2,3],因此,开发性能较优,价格便宜的催化剂成为硼氢化钠水解制氢的关键.
The one-step oxidation of benzene to phenol using H2 and O2 as co-reactants on a palladium membrane reactor is a promising process and has been paid more attention since Niwa and co-workers first repo