摘 要:随着城市轨道交通行业不断发展,低碳出行、节能减排成为地铁行业研究的重点,为了实现地铁设备节能降耗的目标,对通风空调系统控制方案进行了研究。在空调季,通风空调系统每天的用电量占车站总用电量的 40% 左右,通过对既有设计方案和运行现状分析,发现通风空调系统的设备能耗较高,主要原因是其节能控制策略存在不足。针对问题,提出了综合监控系统节能控制优化方案,该方案的应用,不仅实现了通风空调系统设备降低能耗的目标,同时也为运营人员提供了更高效、更智能化的管理手段。
关键词:综合监控系统;通风空调系统;风水联动;节能控制
DOI:10.19850/j.cnki.2096-4706.2022.16.029
中图分类号:TP277 文献标识码:A 文章编号:2096-4706(2022)16-0110-05
Discussion on Energy Saving Control Scheme of Subway Integrated Monitoring System
WANG Mengqiang
(Xiamen Rail Construction Development Group Co., Ltd., Xiamen 361000, China)
Abstract: With the continuous development of the urban rail transit industry, low-carbon travel, energy conservation and emission reduction have become the focus of research on the subway industry. In order to achieve the goal of saving energy and reducing consumption of subway equipment, the control scheme of ventilation and air conditioning system is studied. During the air conditioning season, the daily electricity consumption of ventilation and air conditioning system accounts for about 40% of the total electricity consumption of the station. By analyzing the existing design scheme and operation status, it is found that the equipment energy consumption of the ventilation and air conditioning system is relatively high. The main reason is that its energy saving control strategy exists insufficient. In view of the problem, an energy saving control optimization scheme of the integrated monitoring system is proposed. The application of this scheme not only realizes the goal of reducing energy consumption of the ventilation and air conditioning system equipment, but also provides operators with more efficient and intelligent management methods.
Keywords: integrated monitoring system; ventilation and air conditioning system; fengshui linkage; energy saving control
参考文献:
[1] 林菁,付战莹,江洪泽,等 . 地铁环控大系统基于已知负荷模型的前馈控制策略讨论 [J]. 都市快轨交通,2021,34(1):127-131.
[2] 谭依民 . 地铁 BAS 系统节能控制方式研究 [J]. 工程技术研究,2021,6(4):193-194.
[3] 张俊 . 综合监控系统节能优化控制 [J]. 现代建筑电气,2012,3(3):5-9.
[4] 郑奕 . 地铁站通风空调系统风水联动智能控制系统的应用[J]. 智能建筑与智慧城市,2018(1):53-54+58.
[5] 王刚 . 地铁车站空调大系统节能控制研究 [J]. 智能建筑,2014(11):43-45.
[6] 李金法 . 综合监控系统参与通风空调系统的节能优化控制流程研究 [J]. 科技创新与应用,2014(16):34.
[7] 中华人民共和国住房和城乡建设部 . 工业建筑供暖通风与空气调节设计规范:GB 50019—2015 [S]. 北京:中国计划出版社,2016.
[8] 北京市规划委员会 . 地铁设计规范:GB 50157—2013 [S].北京:中国建筑工业出版社,2014.
作者简介:王孟强(1982.10—),男,汉族,陕西西安人,工程师,本科,研究方向:轨道交通综合监控系统建设管理。