统计了各种液氧生产方法的制氧单位电耗。
The specific power consumption for a variety of liquid oxygen production methods is calculated separately.
过氧化脲在漂白、杀菌和制氧诸方面均有广泛用途。
In the aspects of bleaching, sterilizing and producing oxygen, urea peroxide is widely used.
本实用新型公开了一种间歇式变压吸附的制氧装置。
The utility model discloses a batch oxygen generating device for pressure swing adsorption.
在那个阶段,制氧工作在生产中发挥了很大的作用。
In that phase, aborning of the job that make oxygen produced very big effect.
工业气:空气分离(制氧),脱二氧化碳,氢气提纯。
Industrial gases: air separation (oxygen plants), CO2 removal, hydrogen purification.
可用于化肥、制药、制氧及长距离气体增压输送等装置。
It can be used for fertilizers, pharmaceuticals, oxygen and pressurized long-distance gas transportation, and other devices.
针对制氧厂典型的特种设备,介绍了特种设备的检验管理。
The testing management for special equipment is also introduced in accordance with typical equipment in oxygen plants.
介绍了制氧站循环冷却水系统除垢清洗及水质稳定技术处理。
Scaling, cleaning and water quality stability disposal technology of the circulation cooling water system of the oxygen making works are presented.
简单分析了设备运转时的注意事项及停机后恢复制氮、制氧的操作。
The matters needing attention when the plant is in operation and the operation for reproducing nitrogen and oxygen after shutdown are given.
介绍了制氧设备发生爆炸的原因及控制液氧中碳氢化合物含量的方法。
This paper introduces the cause of explosion in oxygen preparation equipment and recommends methods how to control hydrocarbons content in oxygen.
降低能耗和提高生产规模是变压吸附空分制氧过程中所面临的突出课题。
Reducing energy consumption and production scale is the prominent issues that pressure swing adsorption for separating oxygen is facing to.
着重阐述制氧工艺中分子筛吸附、再生过程及其优化控制策略,控制过程。
This paper focuses on the processes of adsorption and regeneration of molecular sieve and its optimal controlling strategy and process.
简述韶冶FO 50空分装置及氧气充装设备在制氧过程中的安全管理工作。
The Paper describes briefly the safety management of FO-50 oxygen-manufacturing device and oxygen-filling equipment during oxygen-manufacturing at Shaoguan Smelter.
空分装置的安全运行是工业制氧安全生产的关键环节,也是最难控制的危险源。
Operation safety of the air separation unit is the key link in the production of oxygen, which is a risk source of most difficult to control.
为了解决这些问题,人们一直着重于高性能吸附剂的开发及变压吸附制氧工艺的改进。
To solve these problems, it has been focused on the development of high-performance adsorbents and PSA process improvements.
它的适用范围:制氧、制氮、牙科治疗仪、仪器仪表、食品包装、激光切割等诸多行业。
It's suitable for: oxygen, nitrogen making, dental therapeutic apparatus, instruments and meters, food packaging, laser cutting, and many other industries.
对制氧企业进行的安全现状评价,其评价结果是企业能否获得安全生产许可证的条件之一。
The result of safety evaluation on oxygen enterprises is one of the conditions for enterprise to access safe production license.
铝镁合金具有良好的耐腐蚀性和较高的低温强度,目前广泛应用于空分装置的制氧设备中。
Al-Mg alloy has good corrosion resistance and high low temperature strength, which is now widely used in oxygen preparation equipment of air separation plant.
结果机载制氧与供氧系统的产氧能力、正常供氧能力和应急供氧性能,达到系统的生理卫生学要求。
Results All the ability of producing and supply of oxygen, and the normal and the emergency performance of onboard oxygen generating system could fulfill the system physiological requirements.
介绍了变压吸附制氧,提纯氢,空气干燥,提纯一氧化碳,二氧化碳工艺流程和在钢铁行业中的应用。
The PSA method and its process for making oxygen, purifying hydrogen, drying air, refining CO and CO 2, and its application in iron and steel industry are introduced.
目前约有20%的空气分离是通过变压吸附技术来实现,变压吸附空分制氧有着越来越广泛的应用前景。
About 20% of air separation is presently accomplished by pressure swing adsorption technology, and it has more and more promising future for pressure swing adsorption to product oxygen from air.
对冶金行业制氧生产中主要出现的几个典型问题进行了分析,并从技术及管理方面提出了一般的处理原则。
Some typical problems occurred mainly in oxygen production of metallurgical industry are analyzed. According to requirements of management general treatment principles are proposed.
理论分析和实例计算表明,所提出的氧气生产方案优化决策模型解决了大型制氧系统的制氧机合理选择问题。
The analysis and calculation show that: the decision model of oxygen -making machine production program solves the problem of selecting oxygen -making machine in large oxygen -making system.
煤化公司未接管氧气站时,氧气生产一直是采用机械压缩空分制氧,每年电能损耗及设备维护保养费用很大。
Coalification oxygen did not take over the station, oxygen production has been the use of mechanical compression air separation oxygen, power loss and annual maintenance cost of large equipment.
制氧行业中,空气分离设备在使用中稍有不慎便会引发爆炸事故,其后果是十分严重的,轻则设备受损,重则人员伤亡。
In the oxygen making, any careless use will cause explosion of the air separation equipment, whose consequence is extremely serious, either suffering injury or personnel casualty.
从转炉生产与氧气生产的关系, 说明采用制氧生产自动变负荷控制的意义, 并阐述自动变负荷系统的原理,控制参数和调节周期。
The meaning of automatic load change control system used in oxygen making process is introduced according to relationship between steelmaking and oxygen making.
介绍了制氧厂冷却循环系统在线清洗时空分易带水的原因,有效处理了清洗中出现的异常情况,并对各清洗阶段清洗终点进行了判断和效果评定。
The causes of water easily produced in the air separation plant during on-line washing of the cooling circulation system of the Oxygen Plant were presented.
论文以2002年在上海五四农场稻田生态系统田间实验为基础,运用造林成本法、碳税法和工业制氧法对稻田生态系统气体调节功能及其价值进行研究。
In this study, we examined the gas regulation services supported by rice paddy ecosystems, based on the results of field experiments in Wusi Farm of Shanghai in 2002.
论文以2002年在上海五四农场稻田生态系统田间实验为基础,运用造林成本法、碳税法和工业制氧法对稻田生态系统气体调节功能及其价值进行研究。
In this study, we examined the gas regulation services supported by rice paddy ecosystems, based on the results of field experiments in Wusi Farm of Shanghai in 2002.
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