介绍了采用铝热还原法制备富钒储氢钒镍合金的工艺及其影响因素。
It introduces the craft and its influential factors to the method of developing vanadium nickel alloy with rich vanadium and reserved hydrogen.
在小型固定床反应器上进行了新鲜草和小麦秸秆的催化热解气化制富氢燃料气的研究。
The catalytic pyrolysis gasification of fresh grass (GR) and wheat straw (WS) for production of hydrogen rich gas was investigated in a little fixed-bed gasification experimental system.
磷氢化物形成于还原性的富氢环境。
Phosphorus hydrides are formed in a H-rich, reduction environment.
其有机元素组成以贫氢、富氧、富硫为特征,属高热演化且受硫酸盐热化学还原作用影响的焦沥青类。
The organic elementary compositions of the bitumen are characterized by poor hydrogen and rich oxygen and sulfur, suggesting that it is of pyrobitumen as a result of high maturity and TSR.
以一个鼓泡流化床为反应器,对生物质富氧—水蒸气气化制取富氢燃气的特性进行了一系列的实验研究。
The characteristics of biomass oxygen rich-steam gasification in a fluidized bed for hydrogen rich gas production were tested.
这代表了一种富氢母源形成轻烃的特征。
This represents characteristics of light hydrocarbons which are generated from rich-hydrogen source rocks.
据富氢程度将煤与分散有机质进行对比,则煤具有更大的生烃能力。
Niqiuji depression, coal-bearing system, dispersed organic matter and coal, hydrocarbon potential, Carboniferous-Permian.
研究了母材碳含量对熔合区形态的影响、“富奥氏体区”形成机理和“氢蚀剥离开裂”产生机理等。
The effect of carbon content of the base metal on the welded bond structure, formation mechanism of the "austenitic-rich zone" and "hydrogen-induced disbonding" etc.
富拉尔基发电总厂一期氢罐检测的实例证明此种检测方法是行之有效的。
This test method has been approved as practicable by the actual instance of Phase 1 hydrogen vessel test of Fularji General Electricity Power Plant.
从热力学角度分析,二甲醚与空气和水蒸汽作用从而产生富氢燃料电池的底物,但是,氢浓度小于用纯二甲醚蒸汽作为原料重新反应所得到的。
Thermodynamically, dimethyl ether processed with air and steam generates hydrogen-rich fuel-cell feeds; however, the hydrogen concentration is less than that for pure DME steam reforming.
年日本率先突破氢分子难溶于水的技术难题,生产出饱和氢气水,也称富氢水。
In 2009, Japan out-breaks the technical problem of low-dissolving property of hydrogen in water and produce saturated hydrogen water that we called Hydrogen Rich Water.
年日本率先突破氢分子难溶于水的技术难题,生产出饱和氢气水,也称富氢水。
In 2009, Japan out-breaks the technical problem of low-dissolving property of hydrogen in water and produce saturated hydrogen water that we called Hydrogen Rich Water.
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