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[1]张轩,陈子鑫,刘国豪,等.压缩机进气滤芯反吹除霜方法的优化[J].油气储运,2015,34(9):1019-1022.[doi:10.6047/j.issn.1000-8241.2015.09.021]
　ZHANG Xuan,CHEN Zixin,LIU Guohao,et al.Optimization of back flushing technique for defrosting of gas intake filters in compressors[J].Oil & Gas Storage and Transportation,2015,34(9):1019-1022.[doi:10.6047/j.issn.1000-8241.2015.09.021]

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压缩机进气滤芯反吹除霜方法的优化

《油气储运》[ISSN:1000-8241/CN:13-1093/TE] 卷: 34 期数: 2015年第9期页码: 1019-1022 栏目: 出版日期: 2015-09-25

Title:: Optimization of back flushing technique for defrosting of gas intake filters in compressors

作者:: 张轩¹; 陈子鑫²; 刘国豪¹; 张鑫¹; 李荣光¹; 冯少广¹; 吴海辰³; 许铁¹; 1. 中国石油管道科技研究中心油气管道输送安全国家工程实验室, 河北廊坊065000;
2. 中石油中亚天然气管道有限公司, 北京100007;
3. 中国石油北京油气调控中心, 北京100000

Author(s):: ZHANG Xuan¹; CHEN Zixin²; LIU Guohao¹; ZHANG Xin¹; LI Rongguang¹; FENG Shaoguang¹; WU Haichen³; XU Tie¹; 1. National Engineering Laboratory of Oil & Gas Pipeline Transportation Safety, PetroChina Pipeline R & D Center, Langfang, Hebei, 065000;
2. Trans-Asia Gas Pipeline Company Limited, Beijing, 100007;
3. PetroChina Oil & Gas Pipeline Control Center, Beijing, 100000

关键词:: 长输管道; 压缩机; 进气滤芯; 结霜原理; 反吹系统; 露点温度; 逻辑算法

Keywords:: long-distance pipeline; compressor; gas intake filter; frosting theory; back-flushing system; dew-point temperature; logical algorithm

分类号:: TE832

DOI:: 10.6047/j.issn.1000-8241.2015.09.021

摘要:: 针对长输管道压气站压缩机组进气滤芯冬季结霜导致进气压损变大的问题,结合站场现有的除霜措施,优化原有反吹系统的除霜方案,提出了一种改进的进气滤芯反吹系统开关控制逻辑算法:通过采集环境温度、环境湿度以及进气滤芯壁温信号,计算得出环境露点温度,并与采集的进气滤芯壁温进行比较,判断是否存在结霜可能性,以此作为反吹系统开关的控制条件,达到抑制进气滤芯结霜的目的。研究结果表明:优化了的控制系统能够提前对结霜可能做出响应,动态控制反吹除霜系统的启停,保证进气滤芯附近环境参数维持在一个不宜结霜的条件下,为解决压缩机组进气滤芯结霜问题提供了一种可行方案。

Abstract:: Frosting of gas intake filters in compressors at compressor stations along long-distance pipelines in winter may lead to significant increases in pressure losses. With consideration to available defrosting techniques, original defrosting process involving back-flushing system has been optimized to propose a modified logical algorithm for control over back-flushing system of gas intake filters. The optimized algorithm can acquire environmental temperature, humidity and wall temperature of gas intake filter to determine the dew-point temperature. By comparing with the acquired wall temperature of gas intake filter, the system diagnoses the possibility of frosting and then controls the back-flushing system to eliminate frost in gas intake filter. Research results show that the new control system effectively respond to possible frosting conditions in timely manner and dynamically control the back-flushing system. By maintaining environmental conditions in vicinity of gas intake filters at levels not subject to frosting, the new technique provides a feasible solution against frosting of gas intake filters in compressors.

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备注/Memo

收稿日期:2014-6-5;改回日期:2015-2-8。
作者简介:张轩,助理工程师,1987年生,2013年硕士毕业于华北电力大学检测技术与自动化装置专业,现主要从事油气管道输送系统耗能设备节能监测工作。Tel: 0316-2174247, Email: zhangxuan03@petrochina.com.cn

更新日期/Last Update: 1900-01-01