摘要
为解决当前煤矿空压机电能消耗过大且效率较低的问题,结合实际生产开展了空压机节能设计和余热回收系统设计方面的研究。空压机节能方面,通过重新选型空压机及采用变频节能启动达到目的;余热回收系统方面,通过配置不同型号的余热回收系统实现对热能的回收利用。最后验证了空压机节能改造和余热回收系统的实际应用效果。实践证明,设计取得了理想效果。
In order to solve the problem of excessive energy consumption and low efficiency of air compressors in coal mines,research was carried out on air compressor energy-saving design and waste heat recovery system design combined with practical production.In terms of air compressor energy saving,the purpose was achieved by re-selecting air compressor type and using frequency-conversion energy-saving start-up;in terms of waste heat recovery system,different types of waste heat recovery system was configured to achieve the recovery of heat energy.Finally,the practical application effect of air compressor energy-saving transformation and waste heat recovery system was verified.Practice has proved that the design achieved ideal results.
作者
王军
WANG Jun(Shanxi Energy Development Center,Taiyuan 030006,Shanxi,China)
出处
《能源与节能》
2023年第11期100-102,共3页
Energy and Energy Conservation
关键词
空压机
变频节能改造
余热回收
离心式空压机
电能
air compressor
frequency-conversion energy-saving transformation
waste heat recovery
centrifugal air compressor
electric energy
