The characteristics of biomass oxygen rich-steam gasification in a fluidized bed for hydrogen rich gas production were tested.
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。
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。
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.
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。
But ammonium, found along with the nitrates, contains hydrogen that most likely came from an incoming object rich in water - like an icy comet.
但是,在硝酸盐的周围发现包含氢气的氨,很有可能是来自富含水的外来物体- - -冰冷的彗星。
The mitochondria of the autistic children also leaked damaging oxygen-rich chemicals such as hydrogen peroxide.
自闭症儿童的线粒体还释放一些富氧化学物质,例如过氧化氢。
The waves of damp and dry conditions suggest water is created on the moon every day, when hydrogen nuclei in the solar wind slam into oxygen-rich silicate minerals on the moon's surface.
潮湿和干燥条件的交替波动表明,月球上每天都在生成水——太阳风中的氢原子核与月球表面富含氧的硅酸盐矿物相撞而成。
The prospective future of rich hydrogen gas from biomass gasification makes it a common concern of researchers all around the world.
生物质气化制氢是一项富有前景的制氢技术,已引起了世界各国的普遍关注。
It introduces the craft and its influential factors to the method of developing vanadium nickel alloy with rich vanadium and reserved hydrogen.
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。
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.
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。
Various applications of gas separation membrane were reviewed in details, such as medical rich oxygen, air separation, water vapor separation, hydrogen recovery in refinery gas and so on.
叙述了介绍了气体膜分离技术在分离空气制备富氧、富氮,水蒸气、有机蒸汽的分离和氢气回收等工业领域的应用。
Then, in the second half-reaction, the electrons and hydrogen ions combine with carbon dioxide to create energy-rich carbohydrates, such as glucose, which plants use to grow.
然后在第二个半反应里,电子和氢离子与二氧化碳结合生成能量丰富的碳水化合物,像葡萄糖,用于植物生长。
The sawdust and adsorbed carbon hydrogen was used to produce methane through anaerobic fermentation system. The original sawdust and used sawdust rich in organics were experimented.
采用厌氧发酵系统,利用被吸附的有机物和锯末作为碳、氮源进行了吸附前后锯末的厌氧发酵试验,生产有用的发酵产品。
So researchers have long sought to use the energy in sunlight to generate energy-rich chemical fuels, such as hydrogen gas, methane, and gasoline, that can be burned anytime anywhere.
因此长期以来,研究人员一直在设法利用太阳能来制造富含能量的化学燃料,如氢气、甲烷和汽油等,以便能够随时随地燃烧。
Hydrogen has long been considered the ideal clean green fuel, energy-rich and carbon-neutral.
氢气被认为是理想的清洁绿色能源,能效高且没有碳排放。
Thus, the gas with rich H_2, Which can be used as raw gas for producing hydrogen, can be achieved steadily through underground brown coal gasification.
因此,褐煤地下气化可稳定生产高含氢的煤气,该煤气在地面处理后可作为提取纯氢的原料气。
Zhang J, Xue X, Han X, et al. Hydrogen-Rich Water Ameliorates Total Body Irradiation-Induced HematopoieticStem Cell Injury by Reducing Hydroxyl radical[J].
研究证明氢气水能通过降低羟基自由基减少全身放射线暴露导致的骨髓干细胞损伤。
This represents characteristics of light hydrocarbons which are generated from rich-hydrogen source rocks.
这代表了一种富氢母源形成轻烃的特征。
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.
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。
China for the first time in the world succeeded in using bacteria to trial produce hydrogen gas from sewage rich in sugar or plant fibers, and acquired conditions for industrial production.
中国在世界上首次完成生物制氢中试研究,利用细菌从污水中分解收集氢气具备了工业化的条件。
That's because hydrogen peroxide soaks through the protective outer coating of enamel and into the softer layer of dentin underneath, irritating the nerve-rich dental pulp at the core.
这是因为过氧化氢会渗入釉质的外部保护层并进入牙质下面的较为柔软的一层,刺激神经组织比较多的牙髓。
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.
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.
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。
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