1) enriched oxygen
富氧气体
1.
Objective:To observe the effects of inhaling different concentrations of enriched oxygen on rabbit kidney EPO gene expression at 11 000 m hypobaria, so as from molecular biological level to provide theoretical basis for application of airborne molecular sieve of oxygen supplying system.
目的 :观察吸入不同浓度富氧气体对 110 0 0m低压条件下大耳白兔肾EPO基因表达的影响 ,从分子生物学水平为机载分子筛制氧系统的应用提供理论依据。
2) rich oxygen gasification
富氧气化
1.
Design program on production of 300000 t/a methanol by rich oxygen gasification with anthracite coal and co-production of 150000 t/a ammonia with tail gas;
无烟煤富氧气化生产30万t/a甲醇尾气联产15万t/a合成氨设计方案
3) Oxygen-rich air
富氧空气
1.
This paper takes one Chengdu float glass production line for example,discusses oxygen-rich air collection method of nitrogen station in float glass plant and its effect factors in collecting oxygen-rich air,and also puts forward some suggestions about nitrogen station oxygen-rich air system s design.
以成都某浮法玻璃生产线为例,探讨浮法玻璃工厂氮气站富氧空气收集方法及富氧空气收集利用过程中的影响因素,并对氮气站的富氧空气系统设计提出了几点建议。
4) excess oxygen from waste gas
富氧废气
1.
Microwave reactor with urea and Ga-A zeolites was set up to study removal of NO_x with excess oxygen from waste gas.
将尿素和GA-A型分子筛混合装入石英管中放入微波反应器里,进行从模拟富氧废气中脱除NOX的效果性能实验研究。
5) oxygen-enriched air
富氧空气
1.
Feasibility of applying membrane separation technology to produce oxygen-enriched air for combustion aid in FCMP production
膜分离制富氧空气助燃技术在钙镁磷肥生产中运用的可行性
2.
A 6kt/a conventional Claus sulfur recovery unit was revamped with the technology using oxygen-enriched air for increasing the sulfur recovery rate and reducing environment pollution.
在研究了富氧空气引入方式、装置负荷、氧化配风和富氧空气集输等技术后 ,经工艺核算 ,制定了利用现有 10 0 0m3 /h、含氧量为 33。
3.
The characteristics and process of combustion supporting with oxygen-enriched air,a by-product when nitrogen was generated for building a protective atmosphere in float process,were described through leading the oxygen-enriched air into a gas jet.
结合我厂利用气保车间所产生的富氧空气,加入到煤气喷枪中进行富氧助燃的实际,论述了利用富氧空气助燃的工艺过程及特点,提出了解决使用过程中实际问题的方法。
补充资料:富氧气化
分子式:
CAS号:
性质:以含氧量大于21%的空气和水蒸气为气化剂在高温下进行煤(焦炭)连续气化的方法。富氧空气可由空气分离或变压吸附方法制得。富氧气化可在固定床炉中也可在流化床炉中进行。采用含氧量50%左右的富氧空气可制得符合合成氨原料气要求的合成气。
CAS号:
性质:以含氧量大于21%的空气和水蒸气为气化剂在高温下进行煤(焦炭)连续气化的方法。富氧空气可由空气分离或变压吸附方法制得。富氧气化可在固定床炉中也可在流化床炉中进行。采用含氧量50%左右的富氧空气可制得符合合成氨原料气要求的合成气。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条