原油罐区安全评价及手动阀门改自动控制系统在原油罐区的应用研究
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摘要
原油罐区属于重大危险源,一旦破坏,会造成巨大的安全事故。本文开展对原油罐区安全评价研究以及关键技术的改造工作,对于预防原油储罐发生重大事故,提高原油储罐区的安全性,保护人民群众的生命和财产安全具有重要意义。
本文根据原油储罐的特性,在对各安全评价方法分析的基础上,选用道化学公司(DOW)火灾爆炸危险指数评价法、事故树分析方法、以及储罐泄漏模型对原油罐区装置实际潜在火灾、爆炸危险及系统腐蚀泄漏事故进行安全分析及评价,提出了相关的安全措施。针对原油罐区普遍采用手动阀门操作,易误操作的的具体工程问题,提出对其进行自动化改造,采用增加气动头设备、PLC控制系统,工业以太网等先进的自动化技术,工程应用后大大提高了原油罐区的自动化水平,减轻了工人的劳动强度,确保原油罐区安全运行。
Crude oil tank is a major hazardous source. Disaster accident will take place if it is destroyed. Study on safety assessment of crude oil tank and alteration of key technology of it is carried out in this paper, which has great significance for improving the safety of crude oil tanks, thus preventing disaster accident protecting people's life and property.
According to the characteristics of crude oil tanks and based on the analysis of lots of safety assessment methods, the safety assessment methods such as Dow fire&exploding hazardous exponent method, accident trees method, tank leakage modal was selected for safety analysis and assessment for the hazards of fire, explodeing and leakage of crude oil and corresponding safety measurement was proposed. In the fact engineering, manual valves are usually used in the crude oil tanks, which may be wrong operated. To solve the problem, the alteration of automatization control system for manual valve, which includs adding automatization devices such as pneumatic head, PLC control system, industry Ethernet, was carried out. Thus, the automatization level of the crude oil tant farm is improved and the intensity of labour is decreased, which insure security of operation of crude oil tank farm.
本文根据原油储罐的特性,在对各安全评价方法分析的基础上,选用道化学公司(DOW)火灾爆炸危险指数评价法、事故树分析方法、以及储罐泄漏模型对原油罐区装置实际潜在火灾、爆炸危险及系统腐蚀泄漏事故进行安全分析及评价,提出了相关的安全措施。针对原油罐区普遍采用手动阀门操作,易误操作的的具体工程问题,提出对其进行自动化改造,采用增加气动头设备、PLC控制系统,工业以太网等先进的自动化技术,工程应用后大大提高了原油罐区的自动化水平,减轻了工人的劳动强度,确保原油罐区安全运行。
Crude oil tank is a major hazardous source. Disaster accident will take place if it is destroyed. Study on safety assessment of crude oil tank and alteration of key technology of it is carried out in this paper, which has great significance for improving the safety of crude oil tanks, thus preventing disaster accident protecting people's life and property.
According to the characteristics of crude oil tanks and based on the analysis of lots of safety assessment methods, the safety assessment methods such as Dow fire&exploding hazardous exponent method, accident trees method, tank leakage modal was selected for safety analysis and assessment for the hazards of fire, explodeing and leakage of crude oil and corresponding safety measurement was proposed. In the fact engineering, manual valves are usually used in the crude oil tanks, which may be wrong operated. To solve the problem, the alteration of automatization control system for manual valve, which includs adding automatization devices such as pneumatic head, PLC control system, industry Ethernet, was carried out. Thus, the automatization level of the crude oil tant farm is improved and the intensity of labour is decreased, which insure security of operation of crude oil tank farm.
引文
[1]张德义.21世纪初叶炼油工业展望[J].炼油技术与工程,2003,33(1):1-6
[2]廖健,刘伯华,姚国欣.传统炼油技术的升级换代-世界炼油技术的新发展之一[J].当代石油石化,2001,9(11):27-34
[3]梁朝林.未来十年炼油工业技术发展的趋势[J].茂名学院学报,2002,12(1):32-36
[4]中国石油化工集团公司安全环保局编.石油化工安全技术(高级本)[M].北京:中国石化出版社,2004
[5]何琨,吴德荣,毕雄飞等.乙烯装置公用设施的危险性与可操作性(HAZOP)研究[J].炼油技术与工程,2004,34(3):54-59
[6]牟善军,姜春明,吴重光.SDG方法与过程安全分析的关系[J].系统仿真学报,2003,15(10):1381-1384
[7]胡晨.工程项目HSE风险管理[J].安全健康和环境,2005,5(3):26-27
[8]陈旭.张秀娟,邵冬生.过程工业HAZOP分析辅助软件[J].安全与环境工程,2004,11(3):75-78
[9]姜春明,赵文芳,王春利等.HAzop技术应用实例解析——烷基苯联合装置导热油加热系统HAZOP分析[J].安全健康和环境,2005,5(9):9-12
[10]赵文芳,姜春明,姜巍巍.HAZOP分析核心技术[J].安全健康和环境,2005,5(3):1-3
[11]李争锋.对危险源辨识,风险评价技术方法的应用探讨[J].安全健康和环境,2004,4(6):13-15
[12]王剑青,石志明.推行JHA模板,树立职工危害意识[J]安全健康和环境,2005,5(9):8-10
[13]王若青,彭卓飞.危险识别方法在工程上的应用[J].石油化工设计,200421(1):51-55
[14]韩达.化工企业开展危害识别及风险评估的现状与对策[J].化工进展,2003,22(7):766-769
[15]李少朋.健康风险分析(HRA)石化工程项目中的应用[J].中国安全科学学报,2001,11(3):39-43
[16]高进东,冯长根,吴宗之.危险辨识方法的研究[J]中国安全科学学报,2001,11(4):57-60
[17]郭明友.事故树技术在HSE风险识别与评估中的应用[J].石油化工安全技术,2006,22(2):8-11
[18]张建华,郭进.液化石油气储罐销爆过程安全风险事故树分析[J].武汉理工大学学报2005,27(7):109-111
[19]韩文彪,宋超宏.大型石油石化企业风险管理研究[J].经济师,20013:91-92
[20]张钊谦,夏涛,张贝克等.事件树建模及其在石化安全评估软件中的应用[J].系统 仿真学报,2003,15(10):1374-1377
[21]田全胜.石化企业凉水塔火灾事故分析及预防[J].石油化工安全技术,2003(4):40-41
[22]王俊颖,高芹忠.石化行业安全评价体系探讨[J].安全健康和环境,2004,4(7)
[23]邱奎,王军,廖久明等.火灾、爆炸指数法在天然气净化厂安全评价中的运用[J].石油工业技术监督,200521(7):23-25
[24]曹灵波.聚丙烯生产工艺系统安全评价[J].中国职业安全卫生管理体系认证,2004,(3):24-27
[25]安玉宝,曹瑞军.火灾爆炸指数法在轻烃分馏装置中的应用[J].化学工程师,2003(4):40-41
[26]张兴容.对在役化工装置进行安全性能评估的理论与实践[J].上海应用技术学院学报2005,5(3):197-202
[27]梁庆棠.蒙德法与道化法的选取[J].中国安全科学学报,2000,10(4),25-28
[28]李一铆.火灭,爆炸危险评价方法选择及介绍[J].劳动保护科学技术,2000,20(1):43-46
[29]徐莉,郑伟,李禾.经验贝叶斯方法在石化企业概率安全评价中的应用[J].工业安全与环保,2006,40(1):57-60。
[30]刘铁民.低概率重大事故风险与定量风险评价[J].安全与环境学报,2004,4(2):89-91
[31]王志荣.概率评价模型在液化石油气罐区火灾危险性评价中的应用[J].化工安全与环境,2001,14(44):11-13
[32]张颖,戴光,马玉洁.重大危险设备的定量概率风险评价方法[J].化工机械,2005,32(5):305-308
[33]聂晓伟,张玉清,杨鼎才.一种基于AHP和模糊理论的风险评估方法[J].北京电子科技学院学报,2005,13(2):44-49
[34]张进春,吴超,侯锦秀等.生产车间安全管理状况的区间数模糊综合评价方法研究[J].安全与环境学报,2006,6(2):135-138
[35]曹树刚,王艳平.石化企业储罐区消防安全的模糊综合评价[J]重庆大学学报,2005,28(2):97-9
[36]林盛,蔺炜莹.利用模糊影响图方法进行管道风险评价[J].天津理工大学学报,2005,21(6):73-77
[37]朱木秀,冯定.风险评价指数矩阵方法的研究和应用[J].安全健康和环境,2002,4(2):33-35
[38]陈荣环,宋子齐,康立明.灰色系统在新疆克拉玛依油田七中区安全评价中的应用[J].内蒙古石油化工,2005,31(7):110-113
[39]孙炳常.论液化石油气蒸气云和火球爆燃事故的危害[J].城市煤气.1989 (7):18-24
[40]Planas-Cuchi, E. and Montiel, H. at al.A survey of the origin, type and consequences of fire accidents in process plants and in the transportation of hazardous materials. Process Safety and Environmental Protection,1997, 75(B1):3-8
[41]叶世广.浅谈液化石油气火灾的特点及消防措施[J1.石油化工安全技术.2002,18(2):30-31
[42]CPR-E14. Methods for the calculation of physical effects of the accidental release of dangerous goods. Committee for the Prevention of Disasters. The Director-General for Social Affair and Employment, Voorburg, Netherlands,1997.
[43]宇德明.易燃、易爆、有毒危险品储运过程定量风险评价.北京:中国铁道出版社,2000
[44]化工部化工劳动保护研究所.重要有毒物质泄漏扩散模型研究.化工劳动保护.1996(3):119
[45]Guidelines for use of vapor cloud dispersion models. Center for Chemical Process Safety of the American Institute of Chemical Engineers,1997
[46]Ioannis A. Papazoglou, Zoe Nivolianitou, Olga Aneziris, etc. Risk-informed selection of a highway trajectory in the neighborhood of an oil-refinery. Journal of Hazardous Materials A67,1999:111-144
[47]A. M. Birk. Hazards from propane BLEVEs:An update and proposal for emergency responders. Journal of Loss Prev. Process Ind.,1996:173-181
[48]王三明,蒋军成.沸腾液体扩展蒸气爆炸机理及相关计算理论模型研究工业安全与环保.2001,27(7):30-34
[49]王三明,蒋军成,姜葱.液化石油气谁区的危险性定量模拟评价技术及其事故预防.南京化工大学学报,23(6):32-36
[50]施虹.液化气码头储峨爆炸风险评价.上海海运学院学报,2002(2):71-74
[51]林胜文,顾安忠液化石油气蒸气塌炸过程研究进展.油气储运.2000(6):6-12
[52]周国泰.危险化学品安全技术全书.北京:化学工业出版社,1997
[53]斯新中液化石油气的储存设备.石油化工设备技术.1995,16(5):11-13
[54]刘雯,钱成文,刘广文等.液化石油气的储存及利用技术.油气储运.1998,17(4):14-18
[55]潘旭海,蒋军成.事故泄漏模型研究与分析.南京工业大学学报.2002,24(1):105-110
[56]隋鹏程,陈宝智,隋旭.安全原理[M].北京:化学工业出版社.2005
[57]蔡凤英,谈宗山,孟赫等.化工安全工程[M].北京:科学出版社.2001
[58]许锋.对一起汽油泄漏爆炸事故处置的体会[J].消防科学与技术.2002,3(2):74-75
[59]刘义祥,杨晓勇.石化企业储罐区火灾危险性评价[J].消防技术与产品信息.2003,5:44-46
[60]郑贤斌,李自力.DOW火灾爆炸指数评价法在油库中的应用[J].油气储运.2003,22(5):49-52
[61]Nation Fire Protection Association.Guide for Venting of Deflagrations. NFPA68,1994
[62]国家安全生产监督管理总局.安全评价第3版[M].北京:煤炭工业出版社.2005
[63]钱健敏.蒸气云爆炸事故后果计算过程[EB/OL].湖北安全生产信息网.2008,8.12
[64]R. E. Britter and J. McQuaid, Workbook on the dispersion of dense gases, HSE, UK,1987
[65]TNO Prins Maurits Laboratory. GAME:development of guidance for the Application of the multi-energym ethod. HSE BOOK, UK,1998
[66]MANJU MOHAN, T. S. PANWAR, M. P. SINGH. Development of dense gas dispersion model for emergency preparedness. Atmospherics Environment,1995,29(16):2075-2087
[67]A.G.Venetsanos, J. G. Bartzis, J. WOrtz, etc. DISPLAY-2:a two-dimensional shallow layer model for dense gas dispersion including complex features. Journal of Hazardous Materials,2003, A(99):111-114
[68]Center for Chemical Process Safety of the American Institute of Chemical Engineers. Guidelinesf or Evaluating the Characterisation of Vapor Cloud Explosion, Flash Fires, and BLEVE [M].New York:1994
[69]新编危险物品安全手册.北京:化学工业出版社,2001
[70]I. A.Papazoglou,O. N. Aneziris. Uncertainty quantification in the health consequences of the boiling liquid expanding vapour explosion phenomen on. Journal of Hazardous Materials,1999, A(67):217-235
[71]王铭珍.液化石油气储罐火灾及其预防.安全.1991(3):47-48.
[72]张文海.危险化学品定量风险评价方法及软件编制.华南理工大学工学硕士论文.2004
[73]潘旭海,蒋军成.模拟评价方法及其在安全与环境评价中的应用.工业安全与环保.2001,27(9):27-31
[74]潘旭海,蒋军成.化学危险性气体泄漏扩散模拟及其影响因素.南京化工大学学报.2001,23(1):19-22
[75]丁信伟,王淑兰,徐国庆.可燃及毒性气体泄漏扩散研究综述.化学工业与工程.1999,16(2):118-122
[76]汪元辉.安全系统工程.天津:天津出版社,1999
[77]毕明树,王淑兰,丁信伟.可燃气云爆炸强度计算综述.化工机械.1999(6):357-362
[78]M. J. Tang, Q. A. Baker, Comparison of blast curves from vapor cloud explosions, Journal of Loss Prevention in the Process Industries:13(2000)433-438
[79]E. Salzano, F. S. Marra, Grusso. Numerical smulation of turbulent gas flames intubes, Journal of Hazardous Materials A95(2002)233-247
[80]邵卫,毕明树,丁信伟.预测无约束气云爆炸破坏效应的方法.化学工程师2002,02(1):59-60
[81]张文海,陈国华,潘游等.危险化学品安全管理及评价方法初步研究.2003广东安全生产研讨会论文集
[82]阳宪惠.现场总线技术及其应用[M].北京:清华大学出版社,1999
[83]西门子公司.WINCC应用手册[R].北京:西门干(中国)有限公司,2000
[84]宋德玉,可编程控制器原理及应用系统设计技术[M].北京:冶金工业出版社,1999
[85]李培铮,吴延之编著.黄金生产加工技术大全[M].湖南:中南工业大学出版社,1995
[86]马国华.监控组态软件及其应用[M].北京:清华大学出版社,2001
[87]国家经贸委安全科学技术研究中心,迈向新世纪的中国劳动安全卫生\二十一世纪安全生产宏观战略研究
[88]黄志.油罐内腐蚀与防护.油气储运,1996,15(7):15-17
[89]煤炭工业出版社,安全评价(第三版)
[90]张浩,谭克勤,朱守云.现场总线与工业以太网应用技术手册[M].上海:上海科学技术出版社,2002.上海:上海科学技术出版社,2002
[91]牟善军,王广亮.石油化工风险评价技术[M].青岛:青岛海洋大学出版社出版,2002.
[92]吴宗之,高进东,魏利军.风险评价方法及其应用[M].北京:冶金工业出版社,2003
[93]陆德民.石油化工自动控制设计手册(第三版)[M].北京:化学工业出版社,2000
[94]SMAR Company. Smar Fieldbus 302 series Instruction Manua. SMAR Company, 1996.1
[95]刘曙光.现场总线技术的进展与展望[J].自动化与仪表,2001,3,56-60
[96]顾宏军.工业企业网与现场总线技术及应用.人民邮电出版社.2002(4)
[97]郁汉琪等.基于PROFIBUS-DP总线的罐区监控系统的研制[J].计算机测量与控制,2003,(11)2:98.102
[98]任义.库区管理控制系统的应用技术[J].石油化工自动化,2003,2:7-10
[99]Modicon Modbus Prot~ Reference Guide. MODICON Inc. Industrial Automarion Systems[Z]. June 1996
[100]Makoto Chikira, Yuji Tomizawa, Dai Fukita, etal. Journal of Inorganic Biochenfistry,2002,89:163
[101]杨庆柏,赵春元,张玉艳.OPC技术及其应用方向[J].沈阳电力高等专科学校学报,2003,5(4):20-22
[102]International Electm technical Commission. IEC 61158 parts 3 to 6: Digital data communications for measurement and control-Fieldbus for use in industrial control systems[S],2000-01
[103]Karlsruhe. Profibus-DP extensions to EN50170, Version 1.0[Z]. Germany. www.pmfibus.com,1997-12.
[104]Institute of Electrical and Electmnics Engineers. IEEE 802.3 standard, part 3:Carrier Sense Multiple Access with Collision Detection(CSMA/CD)and Physical Layer Specifications[s].2000-01
[105]PROFIBUS International. PROFIBUS-THE International Open Fieldbus Standard[R]. SIEMENS, WWW.ad.siemens.com.cn:1998-11
[106]Beuth Verlag GmbH, Profibus-DP Standard, Translation of the German National Standard DIN 19245 part [S]. Berlin, Germany.1997-10
[107]Institute of Electrical and Electronics Engineers. IEEE 802.2 standard Logical link control(with an~endments 3,6 and 7)[S],1998
[108]Microsoft Corporation.Network Driver Interface (NDIS) Specification version 5.0[S]. WWW.microsoft.com.1998
[109]P. Johansson, M. Kazantzidis, R. Kapoor, M. Gerla. Bluetooth:an enabler for personal area networking[J]. ACM/IEEE Trans. Net,2001,15(5):28-37
[110]OPNET Technologies, Opnet modeler user manual. www.Opnct.com,2002
[111]ControlNet, European Committee for Elcctrotechnical Standardization General Purpo~Field Communication System-volume 5, EN50170/5[S].2000,06
[111]Hall D L. Mathematical techniques in multisensor datafusion[M]. Boston, Artech House,1992.18-20
[112]Bar. Shalom Li XR. Multitarget-multisensor tracking:Principles and techniques[M]. Storrs, CT:YBS Publishing,1995.45-48
[113]Drazovich D J. Sensor fusion in tactical warfare[M]. American Institute ofAeronautics an Antroantics Inc.1983.1
[114]Robe~Breyer.新版交换式以太网和快速型以太网[M].北京:电子工业出版社,1997
[115]Bongaerts.Hierarchy in distributed-shop floor control[J].Computers Industry,2000,43 (2):123
[116]Szabo S, Oplustil V. Distributed CAN based ControlSystem for Robotic and Airborne Applications[J]. IEEE On Control, Automation, Robotics and Vision,2002, 3(11):1233-1238
[117]Hagan MT, Demouth HB,Beale MH. Neural Network Design [M]. Boston, USA:PWS Publishing Company,1996
[118]OPC Foundation. OPC Security Specification(V1.0)[EB/OL]. http: //www.opcfoundation.org/,2001-01
[119]Wagner D, Schneier B. Analysis of the SSL 3.0 protocol[A]. Proceedings of the Second USENIX Workshop on Electronic Corn-mcrce[C]. Berkeley, CA, USA:USENIX Press,1996.29-40
[120]Reseorla E. An introduction to open SSL programming, Part I Of II [J]. Linux~umal,2001, (89):74,76-78,80,82-83.
[121]Gary A Mintchell, Christian Huitema. ethernet'8 in Control [J]. Barrington: Control Engineering,2000
[122]Fieldbus Foundation[J]. Technical Overview.2000
[123]OPC Overview(V1.0) [EB/OL].2003-12. Http://www.Opcfoundation.org/OPC DA 3.00 Specification[EB/OL].2003-12. Http://www.Opcfoundation.org/
[124]Wendy Boggs, Michael Boggs. UML与Rational Rose2002从入门到精通[M].北京:电子工业出版社,2002
[125]Sugimori T.,Masuda H.,Ohata N., Koiwai K., Odanl A.,Yamauchi, 0. lnorg. Chem.1997.36:576
[126]Jain R., Limaye S. N., Saxena M. C. J. Indian Chem. Soc.,1996,73:319
[127]Malik G. S., Singh S. P.,Tandon J. P.,Monatsh. Chem.,1979.110:149
[128]Sugimori T., Masuda H., Yamauchi O., Bull. Chem. Soc. Jpn.1994,67:131
[2]廖健,刘伯华,姚国欣.传统炼油技术的升级换代-世界炼油技术的新发展之一[J].当代石油石化,2001,9(11):27-34
[3]梁朝林.未来十年炼油工业技术发展的趋势[J].茂名学院学报,2002,12(1):32-36
[4]中国石油化工集团公司安全环保局编.石油化工安全技术(高级本)[M].北京:中国石化出版社,2004
[5]何琨,吴德荣,毕雄飞等.乙烯装置公用设施的危险性与可操作性(HAZOP)研究[J].炼油技术与工程,2004,34(3):54-59
[6]牟善军,姜春明,吴重光.SDG方法与过程安全分析的关系[J].系统仿真学报,2003,15(10):1381-1384
[7]胡晨.工程项目HSE风险管理[J].安全健康和环境,2005,5(3):26-27
[8]陈旭.张秀娟,邵冬生.过程工业HAZOP分析辅助软件[J].安全与环境工程,2004,11(3):75-78
[9]姜春明,赵文芳,王春利等.HAzop技术应用实例解析——烷基苯联合装置导热油加热系统HAZOP分析[J].安全健康和环境,2005,5(9):9-12
[10]赵文芳,姜春明,姜巍巍.HAZOP分析核心技术[J].安全健康和环境,2005,5(3):1-3
[11]李争锋.对危险源辨识,风险评价技术方法的应用探讨[J].安全健康和环境,2004,4(6):13-15
[12]王剑青,石志明.推行JHA模板,树立职工危害意识[J]安全健康和环境,2005,5(9):8-10
[13]王若青,彭卓飞.危险识别方法在工程上的应用[J].石油化工设计,200421(1):51-55
[14]韩达.化工企业开展危害识别及风险评估的现状与对策[J].化工进展,2003,22(7):766-769
[15]李少朋.健康风险分析(HRA)石化工程项目中的应用[J].中国安全科学学报,2001,11(3):39-43
[16]高进东,冯长根,吴宗之.危险辨识方法的研究[J]中国安全科学学报,2001,11(4):57-60
[17]郭明友.事故树技术在HSE风险识别与评估中的应用[J].石油化工安全技术,2006,22(2):8-11
[18]张建华,郭进.液化石油气储罐销爆过程安全风险事故树分析[J].武汉理工大学学报2005,27(7):109-111
[19]韩文彪,宋超宏.大型石油石化企业风险管理研究[J].经济师,20013:91-92
[20]张钊谦,夏涛,张贝克等.事件树建模及其在石化安全评估软件中的应用[J].系统 仿真学报,2003,15(10):1374-1377
[21]田全胜.石化企业凉水塔火灾事故分析及预防[J].石油化工安全技术,2003(4):40-41
[22]王俊颖,高芹忠.石化行业安全评价体系探讨[J].安全健康和环境,2004,4(7)
[23]邱奎,王军,廖久明等.火灾、爆炸指数法在天然气净化厂安全评价中的运用[J].石油工业技术监督,200521(7):23-25
[24]曹灵波.聚丙烯生产工艺系统安全评价[J].中国职业安全卫生管理体系认证,2004,(3):24-27
[25]安玉宝,曹瑞军.火灾爆炸指数法在轻烃分馏装置中的应用[J].化学工程师,2003(4):40-41
[26]张兴容.对在役化工装置进行安全性能评估的理论与实践[J].上海应用技术学院学报2005,5(3):197-202
[27]梁庆棠.蒙德法与道化法的选取[J].中国安全科学学报,2000,10(4),25-28
[28]李一铆.火灭,爆炸危险评价方法选择及介绍[J].劳动保护科学技术,2000,20(1):43-46
[29]徐莉,郑伟,李禾.经验贝叶斯方法在石化企业概率安全评价中的应用[J].工业安全与环保,2006,40(1):57-60。
[30]刘铁民.低概率重大事故风险与定量风险评价[J].安全与环境学报,2004,4(2):89-91
[31]王志荣.概率评价模型在液化石油气罐区火灾危险性评价中的应用[J].化工安全与环境,2001,14(44):11-13
[32]张颖,戴光,马玉洁.重大危险设备的定量概率风险评价方法[J].化工机械,2005,32(5):305-308
[33]聂晓伟,张玉清,杨鼎才.一种基于AHP和模糊理论的风险评估方法[J].北京电子科技学院学报,2005,13(2):44-49
[34]张进春,吴超,侯锦秀等.生产车间安全管理状况的区间数模糊综合评价方法研究[J].安全与环境学报,2006,6(2):135-138
[35]曹树刚,王艳平.石化企业储罐区消防安全的模糊综合评价[J]重庆大学学报,2005,28(2):97-9
[36]林盛,蔺炜莹.利用模糊影响图方法进行管道风险评价[J].天津理工大学学报,2005,21(6):73-77
[37]朱木秀,冯定.风险评价指数矩阵方法的研究和应用[J].安全健康和环境,2002,4(2):33-35
[38]陈荣环,宋子齐,康立明.灰色系统在新疆克拉玛依油田七中区安全评价中的应用[J].内蒙古石油化工,2005,31(7):110-113
[39]孙炳常.论液化石油气蒸气云和火球爆燃事故的危害[J].城市煤气.1989 (7):18-24
[40]Planas-Cuchi, E. and Montiel, H. at al.A survey of the origin, type and consequences of fire accidents in process plants and in the transportation of hazardous materials. Process Safety and Environmental Protection,1997, 75(B1):3-8
[41]叶世广.浅谈液化石油气火灾的特点及消防措施[J1.石油化工安全技术.2002,18(2):30-31
[42]CPR-E14. Methods for the calculation of physical effects of the accidental release of dangerous goods. Committee for the Prevention of Disasters. The Director-General for Social Affair and Employment, Voorburg, Netherlands,1997.
[43]宇德明.易燃、易爆、有毒危险品储运过程定量风险评价.北京:中国铁道出版社,2000
[44]化工部化工劳动保护研究所.重要有毒物质泄漏扩散模型研究.化工劳动保护.1996(3):119
[45]Guidelines for use of vapor cloud dispersion models. Center for Chemical Process Safety of the American Institute of Chemical Engineers,1997
[46]Ioannis A. Papazoglou, Zoe Nivolianitou, Olga Aneziris, etc. Risk-informed selection of a highway trajectory in the neighborhood of an oil-refinery. Journal of Hazardous Materials A67,1999:111-144
[47]A. M. Birk. Hazards from propane BLEVEs:An update and proposal for emergency responders. Journal of Loss Prev. Process Ind.,1996:173-181
[48]王三明,蒋军成.沸腾液体扩展蒸气爆炸机理及相关计算理论模型研究工业安全与环保.2001,27(7):30-34
[49]王三明,蒋军成,姜葱.液化石油气谁区的危险性定量模拟评价技术及其事故预防.南京化工大学学报,23(6):32-36
[50]施虹.液化气码头储峨爆炸风险评价.上海海运学院学报,2002(2):71-74
[51]林胜文,顾安忠液化石油气蒸气塌炸过程研究进展.油气储运.2000(6):6-12
[52]周国泰.危险化学品安全技术全书.北京:化学工业出版社,1997
[53]斯新中液化石油气的储存设备.石油化工设备技术.1995,16(5):11-13
[54]刘雯,钱成文,刘广文等.液化石油气的储存及利用技术.油气储运.1998,17(4):14-18
[55]潘旭海,蒋军成.事故泄漏模型研究与分析.南京工业大学学报.2002,24(1):105-110
[56]隋鹏程,陈宝智,隋旭.安全原理[M].北京:化学工业出版社.2005
[57]蔡凤英,谈宗山,孟赫等.化工安全工程[M].北京:科学出版社.2001
[58]许锋.对一起汽油泄漏爆炸事故处置的体会[J].消防科学与技术.2002,3(2):74-75
[59]刘义祥,杨晓勇.石化企业储罐区火灾危险性评价[J].消防技术与产品信息.2003,5:44-46
[60]郑贤斌,李自力.DOW火灾爆炸指数评价法在油库中的应用[J].油气储运.2003,22(5):49-52
[61]Nation Fire Protection Association.Guide for Venting of Deflagrations. NFPA68,1994
[62]国家安全生产监督管理总局.安全评价第3版[M].北京:煤炭工业出版社.2005
[63]钱健敏.蒸气云爆炸事故后果计算过程[EB/OL].湖北安全生产信息网.2008,8.12
[64]R. E. Britter and J. McQuaid, Workbook on the dispersion of dense gases, HSE, UK,1987
[65]TNO Prins Maurits Laboratory. GAME:development of guidance for the Application of the multi-energym ethod. HSE BOOK, UK,1998
[66]MANJU MOHAN, T. S. PANWAR, M. P. SINGH. Development of dense gas dispersion model for emergency preparedness. Atmospherics Environment,1995,29(16):2075-2087
[67]A.G.Venetsanos, J. G. Bartzis, J. WOrtz, etc. DISPLAY-2:a two-dimensional shallow layer model for dense gas dispersion including complex features. Journal of Hazardous Materials,2003, A(99):111-114
[68]Center for Chemical Process Safety of the American Institute of Chemical Engineers. Guidelinesf or Evaluating the Characterisation of Vapor Cloud Explosion, Flash Fires, and BLEVE [M].New York:1994
[69]新编危险物品安全手册.北京:化学工业出版社,2001
[70]I. A.Papazoglou,O. N. Aneziris. Uncertainty quantification in the health consequences of the boiling liquid expanding vapour explosion phenomen on. Journal of Hazardous Materials,1999, A(67):217-235
[71]王铭珍.液化石油气储罐火灾及其预防.安全.1991(3):47-48.
[72]张文海.危险化学品定量风险评价方法及软件编制.华南理工大学工学硕士论文.2004
[73]潘旭海,蒋军成.模拟评价方法及其在安全与环境评价中的应用.工业安全与环保.2001,27(9):27-31
[74]潘旭海,蒋军成.化学危险性气体泄漏扩散模拟及其影响因素.南京化工大学学报.2001,23(1):19-22
[75]丁信伟,王淑兰,徐国庆.可燃及毒性气体泄漏扩散研究综述.化学工业与工程.1999,16(2):118-122
[76]汪元辉.安全系统工程.天津:天津出版社,1999
[77]毕明树,王淑兰,丁信伟.可燃气云爆炸强度计算综述.化工机械.1999(6):357-362
[78]M. J. Tang, Q. A. Baker, Comparison of blast curves from vapor cloud explosions, Journal of Loss Prevention in the Process Industries:13(2000)433-438
[79]E. Salzano, F. S. Marra, Grusso. Numerical smulation of turbulent gas flames intubes, Journal of Hazardous Materials A95(2002)233-247
[80]邵卫,毕明树,丁信伟.预测无约束气云爆炸破坏效应的方法.化学工程师2002,02(1):59-60
[81]张文海,陈国华,潘游等.危险化学品安全管理及评价方法初步研究.2003广东安全生产研讨会论文集
[82]阳宪惠.现场总线技术及其应用[M].北京:清华大学出版社,1999
[83]西门子公司.WINCC应用手册[R].北京:西门干(中国)有限公司,2000
[84]宋德玉,可编程控制器原理及应用系统设计技术[M].北京:冶金工业出版社,1999
[85]李培铮,吴延之编著.黄金生产加工技术大全[M].湖南:中南工业大学出版社,1995
[86]马国华.监控组态软件及其应用[M].北京:清华大学出版社,2001
[87]国家经贸委安全科学技术研究中心,迈向新世纪的中国劳动安全卫生\二十一世纪安全生产宏观战略研究
[88]黄志.油罐内腐蚀与防护.油气储运,1996,15(7):15-17
[89]煤炭工业出版社,安全评价(第三版)
[90]张浩,谭克勤,朱守云.现场总线与工业以太网应用技术手册[M].上海:上海科学技术出版社,2002.上海:上海科学技术出版社,2002
[91]牟善军,王广亮.石油化工风险评价技术[M].青岛:青岛海洋大学出版社出版,2002.
[92]吴宗之,高进东,魏利军.风险评价方法及其应用[M].北京:冶金工业出版社,2003
[93]陆德民.石油化工自动控制设计手册(第三版)[M].北京:化学工业出版社,2000
[94]SMAR Company. Smar Fieldbus 302 series Instruction Manua. SMAR Company, 1996.1
[95]刘曙光.现场总线技术的进展与展望[J].自动化与仪表,2001,3,56-60
[96]顾宏军.工业企业网与现场总线技术及应用.人民邮电出版社.2002(4)
[97]郁汉琪等.基于PROFIBUS-DP总线的罐区监控系统的研制[J].计算机测量与控制,2003,(11)2:98.102
[98]任义.库区管理控制系统的应用技术[J].石油化工自动化,2003,2:7-10
[99]Modicon Modbus Prot~ Reference Guide. MODICON Inc. Industrial Automarion Systems[Z]. June 1996
[100]Makoto Chikira, Yuji Tomizawa, Dai Fukita, etal. Journal of Inorganic Biochenfistry,2002,89:163
[101]杨庆柏,赵春元,张玉艳.OPC技术及其应用方向[J].沈阳电力高等专科学校学报,2003,5(4):20-22
[102]International Electm technical Commission. IEC 61158 parts 3 to 6: Digital data communications for measurement and control-Fieldbus for use in industrial control systems[S],2000-01
[103]Karlsruhe. Profibus-DP extensions to EN50170, Version 1.0[Z]. Germany. www.pmfibus.com,1997-12.
[104]Institute of Electrical and Electmnics Engineers. IEEE 802.3 standard, part 3:Carrier Sense Multiple Access with Collision Detection(CSMA/CD)and Physical Layer Specifications[s].2000-01
[105]PROFIBUS International. PROFIBUS-THE International Open Fieldbus Standard[R]. SIEMENS, WWW.ad.siemens.com.cn:1998-11
[106]Beuth Verlag GmbH, Profibus-DP Standard, Translation of the German National Standard DIN 19245 part [S]. Berlin, Germany.1997-10
[107]Institute of Electrical and Electronics Engineers. IEEE 802.2 standard Logical link control(with an~endments 3,6 and 7)[S],1998
[108]Microsoft Corporation.Network Driver Interface (NDIS) Specification version 5.0[S]. WWW.microsoft.com.1998
[109]P. Johansson, M. Kazantzidis, R. Kapoor, M. Gerla. Bluetooth:an enabler for personal area networking[J]. ACM/IEEE Trans. Net,2001,15(5):28-37
[110]OPNET Technologies, Opnet modeler user manual. www.Opnct.com,2002
[111]ControlNet, European Committee for Elcctrotechnical Standardization General Purpo~Field Communication System-volume 5, EN50170/5[S].2000,06
[111]Hall D L. Mathematical techniques in multisensor datafusion[M]. Boston, Artech House,1992.18-20
[112]Bar. Shalom Li XR. Multitarget-multisensor tracking:Principles and techniques[M]. Storrs, CT:YBS Publishing,1995.45-48
[113]Drazovich D J. Sensor fusion in tactical warfare[M]. American Institute ofAeronautics an Antroantics Inc.1983.1
[114]Robe~Breyer.新版交换式以太网和快速型以太网[M].北京:电子工业出版社,1997
[115]Bongaerts.Hierarchy in distributed-shop floor control[J].Computers Industry,2000,43 (2):123
[116]Szabo S, Oplustil V. Distributed CAN based ControlSystem for Robotic and Airborne Applications[J]. IEEE On Control, Automation, Robotics and Vision,2002, 3(11):1233-1238
[117]Hagan MT, Demouth HB,Beale MH. Neural Network Design [M]. Boston, USA:PWS Publishing Company,1996
[118]OPC Foundation. OPC Security Specification(V1.0)[EB/OL]. http: //www.opcfoundation.org/,2001-01
[119]Wagner D, Schneier B. Analysis of the SSL 3.0 protocol[A]. Proceedings of the Second USENIX Workshop on Electronic Corn-mcrce[C]. Berkeley, CA, USA:USENIX Press,1996.29-40
[120]Reseorla E. An introduction to open SSL programming, Part I Of II [J]. Linux~umal,2001, (89):74,76-78,80,82-83.
[121]Gary A Mintchell, Christian Huitema. ethernet'8 in Control [J]. Barrington: Control Engineering,2000
[122]Fieldbus Foundation[J]. Technical Overview.2000
[123]OPC Overview(V1.0) [EB/OL].2003-12. Http://www.Opcfoundation.org/OPC DA 3.00 Specification[EB/OL].2003-12. Http://www.Opcfoundation.org/
[124]Wendy Boggs, Michael Boggs. UML与Rational Rose2002从入门到精通[M].北京:电子工业出版社,2002
[125]Sugimori T.,Masuda H.,Ohata N., Koiwai K., Odanl A.,Yamauchi, 0. lnorg. Chem.1997.36:576
[126]Jain R., Limaye S. N., Saxena M. C. J. Indian Chem. Soc.,1996,73:319
[127]Malik G. S., Singh S. P.,Tandon J. P.,Monatsh. Chem.,1979.110:149
[128]Sugimori T., Masuda H., Yamauchi O., Bull. Chem. Soc. Jpn.1994,67:131