水利枢纽机电设备维修管理模式研究
摘要
本文以水利枢纽机电设备为研究对象,综合运用了现代设备管理理论和水工机电设备专业知识,对水桥枢纽机电设备维修管理模式进行了总结。以利民桥水利枢纽工作实践为基础,运用以可靠性为中心的维修(RCM)这一目前国际较为先进的设备维修管理理论,对枢纽机电设备进行预防性维护。文章首先具体阐述以可靠性为中心的维修(RCM)的理论;然后在RCM理论的基础上具体运用RCM的工具,对枢纽电机设备进行分析,确定重点预防维护设备,确定重要部件;最后通过将点检、状态监测与RCM结合,保证对重要部件的状态维修。通过RCM的方法,保证水利枢纽机电设备的完好性能,做到一旦接到防汛指挥部的命令,就能及时、有效、安全的运行。
本文为同类水利工程机电设备管理与维修模式选择提供了思路和方法,为水工机电维修模式的决策提供了宝贵的理论和实践依据。
Based on the hydro mechanical and electrical equipment as the research object, the integrated use of modern equipment management theory and hydraulic mechanical and electrical equipment of professional knowledge, to water conservancy mechanical and electrical equipment repair management mode undertook summing up.
In order to limin bridge water conservancy work practice is a foundation, use reliability centered repair ( RCM ) of the current international advanced equipment repair management theory, the hub of mechanical and electrical equipment preventive maintenance. This article first elaborated the reliability-centered repair ( RCM ) theory; then based on the RCM theory concrete application of RCM tools, the hub motor device for analysis, determine the key preventive maintenance equipment, determine the important components; finally through inspection, monitoring and RCM binding, the guarantee to the important status of repair. Through the RCM method, ensure the hydro mechanical and electrical equipment of good performance, do it once received the flood control headquarters command, can be timely, effective, safe operation.
In this paper, for similar water conservancy engineering mechanical and electrical equipment management and repair mode selection provides the ideas and methods for hydraulic mechanical and electrical repair, mode decision provides valuable theory and practice basis.
本文为同类水利工程机电设备管理与维修模式选择提供了思路和方法,为水工机电维修模式的决策提供了宝贵的理论和实践依据。
Based on the hydro mechanical and electrical equipment as the research object, the integrated use of modern equipment management theory and hydraulic mechanical and electrical equipment of professional knowledge, to water conservancy mechanical and electrical equipment repair management mode undertook summing up.
In order to limin bridge water conservancy work practice is a foundation, use reliability centered repair ( RCM ) of the current international advanced equipment repair management theory, the hub of mechanical and electrical equipment preventive maintenance. This article first elaborated the reliability-centered repair ( RCM ) theory; then based on the RCM theory concrete application of RCM tools, the hub motor device for analysis, determine the key preventive maintenance equipment, determine the important components; finally through inspection, monitoring and RCM binding, the guarantee to the important status of repair. Through the RCM method, ensure the hydro mechanical and electrical equipment of good performance, do it once received the flood control headquarters command, can be timely, effective, safe operation.
In this paper, for similar water conservancy engineering mechanical and electrical equipment management and repair mode selection provides the ideas and methods for hydraulic mechanical and electrical repair, mode decision provides valuable theory and practice basis.
引文
[1]赵维印,关于企业建立设备工程安全保障体系的分析(J),中国设备工程,2009(4): 34-36
[2]何云松,航空公司可靠性维修管理研究,南京航空航天大学硕士学位论文,2003:31-33
[3]田东明,联华公司设备管理模式创新研究,大连理工大学硕士学位论文,200:43-50
[4]邓锡潘,电厂设备管理模式探讨,热电技术,1994(2),73-76
[5]任德林,张志军,水工建筑物,河海大学出版社,2004,3
[6] Richard(Dick) Olive,通过实施维修程序的6个步骤促进维修费用降低(J),设备管理与维修,2008(8):59-61
[7]李耀君,于新颖,火电厂设备状态检修技术(J),中国电力,2005.38(4):9-15
[8]李葆文,设备管理新思维新模式,机械工业出版社,2010.7,1-24
[9]徐保强,规范化的设备维修管理,机械工业出版社,2006,8-9
[10] Aditya parida,Daniel Johansson, Martin Edelman,可靠性维修实施案例研究(J),设备管理与维修,2005(11):45-47
[11] Smith A M.Reliability-Centred Maintenance,MeGraw Hill INC,NeWYork,1993
[12] IEC 60300-3- 11,Dependability Management,part3-11,Application Guide-Reliability Centred Maintenance,Standand IEC 60300-3-11
[13] Moubray J,Reliability-Centred Maintenance.Second ed,Butterworth Heinemann Ltd,London,2001
[14] NASA Lewis Research Center,Reliability Management
[15]秦明,巫世晶,李群力,基于可靠性的大型装备维修方式选择(J),起重运输机械, 2007(11):32-35
[16]金伟娅,张康达主编,可靠性工程(M)北学工业出版社,2005:5-12
[17]刘义乐,朱世杰,王宝坤,精益维修及其支撑技术发展研究(J),装甲兵工程学院学报,2005(6):15-19
[18]何钟武,浅谈国内外RCM技术的研究与应用(J),航空标准化与质量,2006(5):38-40
[19]郑刚,建立以可靠性为中心的机械设备维修体制(J),煤矿机械,2004(10):125-126
[20]周国义,周怀春,杨志春,以可靠性为中心的维修分析方法应用(J),航海工程,2006 (5):47-49
[2l]贾希胜,以可靠性为中心的维修策略模型(M),国防工业出版社,2007:13-17
[22]董玉亮,顾煌炯,杨昆,基于灰色理论和RCM分析的发电设备风险分析(J),动力工程,2004,24(6):799-801
[23]卢世忠,兰炼设备维修公司(EMC)维修模式研究,北京理工大学硕士学位论文,2004:32-35
[24]杨纶标,高英仪,模糊数学原理及应用[M],华南理工大学出版社,2001
[25] Stamatis DH,Failure mode and effete analysis- FEMA from theory to execution(M),New York,ASQC Quality Press,1995:2-6
[26]郭波,武小悦,系统可靠性分析,国防科技大学出版社,2002
[27] GB4888,故障树名词术语和符号
[28] GJB768,1-89,建造故障树的基本规则和方法
[29] GJB768-89,故障树分析
[30]余从容,胡效雷,RCM在电力设备上的应用,湖北电力,2003.6
[31]蒋仁言,左明健,可靠性模型与应用,机械工业出版社,1999.2:72-80
[32]丁定浩,防止可靠性设计分析中的若干片面性,电子产品可靠性与环境试验,2000(5)
[33]王凤学,混沌神经网络在发电厂状态检修中的应用,华北电力大学(北京) 2003:42-43
[34]蒋太立,基于RCM理论的维修决策研究(J),武汉理工大学硕士学位论文,2006:15-18
[35]梁建宏,故障模式与影响分析(FEMA)在设备维修管理中的应用(J),石油化工安全技术,2006(6):42-44
[36]李维佳,FEMA应用于设备维护的研究,西南交通大学硕士学位论文,2006:10-13
[37]赵振宇,赵振宙,点检制与RCM在发电厂的应用(J),华北电力技术,2004(3):17-19
[38]卜铁生,设备点检管理(一)(J),设备管理与维修,2008(7):58-61
[39]卜铁生,设备点检管理(二)(J),设备管理与维修,2008(8):57-59
[40]徐加森,郭宣召,运用状态维修模式提高设备的可靠性(J),设备管理与维修,2009(3):8-9
[2]何云松,航空公司可靠性维修管理研究,南京航空航天大学硕士学位论文,2003:31-33
[3]田东明,联华公司设备管理模式创新研究,大连理工大学硕士学位论文,200:43-50
[4]邓锡潘,电厂设备管理模式探讨,热电技术,1994(2),73-76
[5]任德林,张志军,水工建筑物,河海大学出版社,2004,3
[6] Richard(Dick) Olive,通过实施维修程序的6个步骤促进维修费用降低(J),设备管理与维修,2008(8):59-61
[7]李耀君,于新颖,火电厂设备状态检修技术(J),中国电力,2005.38(4):9-15
[8]李葆文,设备管理新思维新模式,机械工业出版社,2010.7,1-24
[9]徐保强,规范化的设备维修管理,机械工业出版社,2006,8-9
[10] Aditya parida,Daniel Johansson, Martin Edelman,可靠性维修实施案例研究(J),设备管理与维修,2005(11):45-47
[11] Smith A M.Reliability-Centred Maintenance,MeGraw Hill INC,NeWYork,1993
[12] IEC 60300-3- 11,Dependability Management,part3-11,Application Guide-Reliability Centred Maintenance,Standand IEC 60300-3-11
[13] Moubray J,Reliability-Centred Maintenance.Second ed,Butterworth Heinemann Ltd,London,2001
[14] NASA Lewis Research Center,Reliability Management
[15]秦明,巫世晶,李群力,基于可靠性的大型装备维修方式选择(J),起重运输机械, 2007(11):32-35
[16]金伟娅,张康达主编,可靠性工程(M)北学工业出版社,2005:5-12
[17]刘义乐,朱世杰,王宝坤,精益维修及其支撑技术发展研究(J),装甲兵工程学院学报,2005(6):15-19
[18]何钟武,浅谈国内外RCM技术的研究与应用(J),航空标准化与质量,2006(5):38-40
[19]郑刚,建立以可靠性为中心的机械设备维修体制(J),煤矿机械,2004(10):125-126
[20]周国义,周怀春,杨志春,以可靠性为中心的维修分析方法应用(J),航海工程,2006 (5):47-49
[2l]贾希胜,以可靠性为中心的维修策略模型(M),国防工业出版社,2007:13-17
[22]董玉亮,顾煌炯,杨昆,基于灰色理论和RCM分析的发电设备风险分析(J),动力工程,2004,24(6):799-801
[23]卢世忠,兰炼设备维修公司(EMC)维修模式研究,北京理工大学硕士学位论文,2004:32-35
[24]杨纶标,高英仪,模糊数学原理及应用[M],华南理工大学出版社,2001
[25] Stamatis DH,Failure mode and effete analysis- FEMA from theory to execution(M),New York,ASQC Quality Press,1995:2-6
[26]郭波,武小悦,系统可靠性分析,国防科技大学出版社,2002
[27] GB4888,故障树名词术语和符号
[28] GJB768,1-89,建造故障树的基本规则和方法
[29] GJB768-89,故障树分析
[30]余从容,胡效雷,RCM在电力设备上的应用,湖北电力,2003.6
[31]蒋仁言,左明健,可靠性模型与应用,机械工业出版社,1999.2:72-80
[32]丁定浩,防止可靠性设计分析中的若干片面性,电子产品可靠性与环境试验,2000(5)
[33]王凤学,混沌神经网络在发电厂状态检修中的应用,华北电力大学(北京) 2003:42-43
[34]蒋太立,基于RCM理论的维修决策研究(J),武汉理工大学硕士学位论文,2006:15-18
[35]梁建宏,故障模式与影响分析(FEMA)在设备维修管理中的应用(J),石油化工安全技术,2006(6):42-44
[36]李维佳,FEMA应用于设备维护的研究,西南交通大学硕士学位论文,2006:10-13
[37]赵振宇,赵振宙,点检制与RCM在发电厂的应用(J),华北电力技术,2004(3):17-19
[38]卜铁生,设备点检管理(一)(J),设备管理与维修,2008(7):58-61
[39]卜铁生,设备点检管理(二)(J),设备管理与维修,2008(8):57-59
[40]徐加森,郭宣召,运用状态维修模式提高设备的可靠性(J),设备管理与维修,2009(3):8-9
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