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Automatic temperature control device for QDQ2-1 water electrolysis hydrogen production machine |
Qu Biao,Yang Shaoyong |
Dazhou Meteorological Bureau of Sichuan,Dazhou 635006 |
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Abstract In order to keep QDQ2-1 water electrolysis hydrogen production machine stably,efficiently and safely working,the YWK automatic temperature control system on the original machine is added. This device will detect and analyze the temperature of the rectifier and the electric tank,then air cooling of the rectifier and water cooling of the electric tank,which realizes automatically to control the temperature in the optimum range. The system can also be automatically and manually controlled switch. The rectifier can work in automatic or manual air cooling state. The electric tank can work in automatic,manual or forced water cooling state. After nearly one year operation,the YWK temperature control system is stable,reliable and easy to use. It is a necessary supplement to the safe and efficient working of QDQ2-1 water electrolysis hydrogen production machine.
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Received: 18 September 2015
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[1] |
李志国. 如何使QDQ2—1型电解水制氢机安全高效工作[J]. 陕西气象,2000,32(4):43-44.
|
[2] |
韦肖林,苏娟. QDQ2-1型电解水制氢设备安全操作要点[J]. 气象研究与应用,2012,56(S1):226-227.
|
[3] |
常建生,石要武,常瑞,等.检测与转换技术[M].北京:机械工业出版社,2009.
|
[4] |
康华光,陈大钦.电子技术基础[M].北京:北京高等教育出版社,2002.
|
[5] |
匡迎春,沈岳,姚帮松,等. 简易型温室温湿度控制器设计[J]. 湖南农业大学学报:自然科学版,2009,35(4):452-456.
|
[6] |
谭静芳,姜春玲. 温室环境智能测控系统的设计[J]. 农业装备技术,2008,34(1):19-21.
|
[7] |
孙凯. 分布式温室智能控制系统[J]. 科学大众,2006,69(4):33-34.
|
[8] |
郭炳辉.温室智能测控系统的研制[D].山东:山东农业大学,2004 .
|
[9] |
王国美.温室自动控制系统的设计[D].西安:西北农林科技大学,2001.
|
[10] |
马祖长,孙怡宁. 温湿度检测的无线传感器网络[J]. 传感器与微系统,2003,22(12):57-59.
|
|
|
|