针对加压煮沸过程产生的大量二次蒸汽,提出并设计了二次蒸汽回收系统,减少煮沸过程的能源消耗。
A secondary steam recycling system is designed to reduce the energy consumption in the boiling process, considering the abundant steam produced during pressure boiling.
探讨了蒸汽管道的敷设和补偿,蒸汽系统的排气和疏水,凝结水的回收。
Installation and compensation of steam pipeline, vent and condensate drain-off of steam system, recovery of condensate are discussed.
通过节能分析和成本核算,说明了在蒸汽系统中冷凝水回收的效益是十分可观的。
Through the cost analysis, emphasis condensate water recovery system in steam can save energy, make the great economy value.
硫磺制酸装置余热回收系统的过热蒸汽温度是一个重要的参数。
The superheated steam temperature is an important parameter in the waste heat recovery system of sulfur-based sulfuric acid plant.
将要介绍的这些方法为:增加黑液固形物含量、空气预热、吹灰系统、给水预热、蒸汽参数和电除尘后的热回收。
The methods to be presented are: increased dry solids content of black liquor, air preheating, soot blowing arrangement, feedwater preheating, steam parameters and heat recovery after precipitator.
本文将要介绍的方法为:增加黑液固含量、空气预热、吹灰系统、给水预热、蒸汽参数和电除尘后的热回收。
The methods to be presented are: increased dry solids content of black liquor, air preheating, soot blowing arrangement, feed water preheating, steam parameters and heat recovery after precipitator.
通过介绍宝钢蒸汽系统冷凝水资源的分布情况,分析了宝钢回收利用这些资源的可行性。
The distributed situation of condense water resource in steam system in Baosteel is introduced in brief. The feasibility of recovering these resources for reuse in Baosteel is analyzed.
利用自动疏水系统,将蒸汽冷凝水回收至锅炉,提高废水利用率、降低能源小红。
Make use of the automatic drainage system, to reclaim the steam condensate to the boiler, improve the wastewater utilization rate and reduce energy consumption.
本文在分析研究了蒸汽冷凝水回收系统的各种形式和设备之后,针对印染企业的蒸汽冷凝水回收系统进行了热经济性分析。
Based on the analysis of the forms and facilities of the SCWR system, the status of SCWR was investigated in the industry of printing and dyeing.
分析了钢铁企业余热蒸汽回收利用系统的特点,研究表明,做好余热蒸汽的回收和科学利用可以使钢铁企业对一次能源的需求量减少约8%。
The waste-heat stream system is researched and it is shown that about 8% of the primary energy would be saved with the reasonable waste-heat stream recoveries and utilizations.
现在许多旧的管道系统正在进行改造,通过清洁燃料和回收余热提供“绿色蒸汽”,使整个系统更加节能环保。
Now many old systems are getting retrofits to deliver "green steam" generated with cleaner fuels and recovered waste heat.
利用自动疏水系统,将蒸汽冷凝水回收至锅炉,降低能源消耗、节省水源。
Make use of the automatic drainage system, to reclaim the steam condensate to the boiler, reduce energy consumption and save water.
提出了加强余热回收并高效利用、优化管网运行、强化管理等有效的改善措施。这将有利于减少蒸汽系统的能源浪费,提高企业的能源利用率。
Therefore, this article puts forward some valid improvement measures by reinforcing and high efficiently utilizing exhaust heat, optimizing the status of pipe network, strengthening management, etc.
介绍了钢铁企业蒸汽系统的构成情况;分析了钢铁企业蒸汽系统的现状及存在的不足; 提出了加强余热回收并高效利用、优化管网运行、强化管理等有效的改善措施。
This article firstly states the constitution of steel enterprise's steam system, and then analyzes the present situation and deficiencies existing in steam system of steel enterprise.
介绍了钢铁企业蒸汽系统的构成情况;分析了钢铁企业蒸汽系统的现状及存在的不足; 提出了加强余热回收并高效利用、优化管网运行、强化管理等有效的改善措施。
This article firstly states the constitution of steel enterprise's steam system, and then analyzes the present situation and deficiencies existing in steam system of steel enterprise.
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