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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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