摘要
本文在分析目前煤矿安全及矿井通风计算研究现状的基础上,针对矿山安全生产的实际需求及软件类安全计算产品的不足,提出了组件化通风计算软件的设计思想并加以实现。组件化软件便于重用、扩展并能在网页上显示,可有效地促进软件的推广应用、成果积累和完善更新。本文以软件组件到组件软件的组件化方法,将通风计算组件集成在安全监察管理软件系统中,并由通风计算组件完成了通风计算组件主页(homepage:ventcc.home.chinaren.com)。在单机环境和Internet上分别对安全监察管理软件和通风计算组件主页进行测试,注册过的组件运行正常。
组件化通风计算与现有的通风计算软件系统相比显示出了明显的优势。通风计算组件显著提高了软件的可重用性和可扩展性,便于软件的维护和升级,提高了开发效率,节约了开发、维护和升级的成本;通风计算组件主页实现了在Internet上的在线通风计算;所开发的通风计算组件初步实现了通风计算可视化,完成了图形描述计算结果的的基本技术框架。
将组件技术用于煤炭矿山通风计算并实现Internet在线计算尚属首例。本文是建立在网络技术基础上开展的实用性研究,研究中所完成的易重用、易扩展的通风计算组件,为煤矿通风安全管理提供了网络化的工作模式,对提高煤矿安全管理工作效率并增强管理的科学性做出了有益的探索。
Through a thorough investigation on the present situation of mine safety research,component-based software development in ventilation calculation is brought forward and is realized according to mine actuality and safety requirement. Software components are easy to reuse and to update,and to display through Internet,thus effectively promote the software application,achievement accumulation and software update. By using the component technology from software component to component software,a series of software components of ventilation calculation are developed and integrated into the management software system of safety supervision. A home page system of ventilation calculation is set up on the bases of ventilation software components (home page:ventcc.home.chinaren.com). The test of safety supervision software system shows a satisfactory performance on a PC as well as on Internet.
Component-based ventilation calculation software technology shows a significant advantage over other software technology in use. It improves reusability,expandability and efficiency of software development greatly,thus cut the cost in software maintenance and update. The online calculation of mine ventilation through Internet is realized. The frame of visual display of ventilation calculation is put forward.
The application of component technology to safety problem solving and online ventilation calculation is a new break-through. It aims at practical application based on Internet technology. The reusable and expandable components of ventilation calculation developed in the process make it possible for mine safety management to adopt a new working model in the network,which is a valuable contribution in the improvement of safety management efficiency.
引文
[1]张国枢.通风安全学.徐州:中国矿业大学出版社,2000:2~11
[2]徐凤根,等.通风区(队)长.北京:煤炭工业出版社,1998:72~78
[3]吴中立.矿井通风与安全.徐州:中国矿业大学出版社,1989:272~457
[4]http://www.chinacoal-safety.gov.cn
[5]张惠忱.计算机在矿井通风中的应用.徐州:中国矿业大学出版社,1992:19~59
[6]谭国运.矿井通风网络分析及电算方法.北京:煤炭工业出版社,1990:97~120
[7]http://www.ohioautomation.com/mineproducts
[8]Xintan Chang. A User's Manual for MFIRE:A Computer Simulation Program for Mine Ventilation and Fire Modeling, U.S Bureau of Mines. 1990
[9]通风安全教研室.矿井通风救灾软件系统CFIRE鉴定报告.西安矿业学院,1992
[10]王德明.矿井火灾救灾决策支持系统.北京:煤炭工业出版社,1996
[11]http://www.mtu.edu
[12]http://www.vuma.co.za/
[13]http://www.ventsim.com/
[14]王德明,等.基于面向对象技术开发的矿井通风图形系统.煤炭学报,2000.10:510~513
[15]Shuey S A.Mining technology for the 21st century: Inco digs deep in Subbury. Eng&Mining J_China. 1999(2):7~11
[16]Kelly M. Developing coal mining technology for the 21st century [A]. Proc Mining Sci & Tech [C].Rotterdam: A.A.Balkema. 1999.3~7
[17]冯夏庭,等.21世纪的采矿—智能矿山[A].第六届全国采矿会议论文集[C].中国矿业(专集),1999:77~79
[18]Hu JX.Ying ZR.Sdudy on digital mine and related key technologies[A].Towards Digital Earth:Proc of Int Sym on DE[C].Beijing: Science Press. 1999.421~426
[19]吴立新,等.论21世纪的矿山—数字矿山.煤炭学报,2000.8:337~342
[20]Wu L X, Liu C B, Chen G R. The research and development of networked Mining Core_GIS[A].Proc 2nd Int Workshop on Dynamic And Multidimensional GIS[C]. Beijing:Science Press. 1999:359~364
[21]Yang K M, Qi A W. Information classification & management for MGIS anddigital mine[Al.Towards Digital Earth: Proc 1st Int Sym on DE[C].Beijing: Science Press. 1999:999~1004
[22]李学文,等.矿井火灾通风动态模拟并行计算及其可视化煤矿安全2000.1
[23]常心坦.采用并行算法的可视化矿井火灾通风动态模拟.陕西省教委重点科研项目.1999:99JK158
[24]常心坦.通风网络的共享内存多线程解算方法研究.陕西省自然科学基金项目2000:2000C27
[25]煤炭工业科技发展“十五”计划和2015年远景觌划.国家煤炭工业局.1999.10
[26]国家经贸委近期行业技术发展重点.http://www.setc.gov.cn.1999.11
[27]MSDN Library visual studio 6.0(CHS)
[28]http://www.microsoft.com/com/
[29]潘爱民.COM原理与应用.北京:清华大学出版社,2000:417~420
[30]楼伟进,等.组件技术与知识发现系统.微型电脑应用,1999.12:4~6
[31]胡恬,等.COM组件技术与软件的复用.微机发展,2001.2:60~62
[32]邬群勇,等.基于组件技术的地理信息系统应用研究.计算机应用,2001.7:71~72
[33]李军,等.组件技术在企业Web中的应用.计算机工程及应用,2001.10:111~113
[34]季立明,等.基于Winsocket和组件技术的设备远程实时监测系统.工业控制计算机,2001.5:21~21,31
[35]朱晓华,等.基于组件技术的虚拟仪器开发方法的研究.上海大学学报(自然科学版),1999.4:357~360
[36]杨顺祥,等.基于UML和组件技术的软件开发环境IUMLSE的研究与实现.计算机工程与应用,2001.12:31~35
[37]张京兆,等.组件技术在通风计算中的应用探讨.西安科技学院学报,2002.1:8~11
[38]汪盛,等.基于组件技术的模型管理.计算机工程,2001.1:38~40,150
[39]戴晓明,等.组件技术在离散动态系统仿真软件体系结构中的应用研究.计算机工程与应用,2001.9:13~14,107
[40]楼伟进,等.COM/DCOM/COM+组件技术.计算机应用,2000.4:31~33
[41]陈天煌.基于服务模型的领域组件研究与开发.武汉交通科技大学学报,2000.2:166~168
[42]陈文博,等.以组件对象为中心的动态Web开发方法.计算机应用,2000.6:17~19
[43]Ventzislav Bojilov, Mitoko Hadjiev and Georgi Shoushoulov. Ventilation Network Optimization for Deep Mines. Proceedings of the 8th U.S. Mine Ventilation Symposium, 619~625
[44]刘泽功.通风安全工程计算机模拟与预测.北京:煤炭工业出版社,1995:279~
286
[45]王德明,等.矿井火灾救灾决策支持系统.北京:煤炭工业出版社,1996.
[46]王德明,等.矿井火灾时期井巷可通行性及选择最佳救灾与避灾路线的研究.煤炭学报,1994.1
[47]黄元平.矿井通风.徐州:中国矿业大学出版社,1986:146~147
[48]http://www.esri.com/devsupport/devconn/mapobjects
[49]周丽红.基于Intranet/Internet模式通风计算软件的开发与实现:[学位论文].西安:西安科技学院,2000
[50]杨兆升.基于城市交通控制系统的动态车辆行驶路线选择的方法.公路交通科技,1999.1:10~13
[51]唐依珠,等.GPS车辆导航系统的研究和开发.福州大学学报(自然科学版),2001.4:16~19,26
[52]蔡淑兰.最短路径算法在铁路客运系统中应用的研究.燕山大学学报,1998.4:157~159
[53]施化吉.“火警119”系统中通往火场中最短行车路线的快速形成.计算机工程,1998.12:66~68
[54]吴凤平,等.船舶最小事故航线选择方法研究.河海大学学报,2001.1:77~79