1、英文原文 Research on the Architecture of Computer IntegratedProduction System in Thermal Power Plant (TPP-CIPS) XuJigang HuazhongUniversity of Science and Technology ZhengHuili China Electric Power Engineering Consulting Corporation Zhang Jinlong HuazhongUniversity of Science and Technology Abstract Thi
2、s paper presents an architecture of Computer Integrated Production System in Thermal Power Plant(TPP-CIPS). This architecture is a successful model with a three-dimensional space based on hierarchial dimension,view dimension and life period dimension. Hierarchial view includes Management Information
3、 System (MIS), SupervisoryInformation System (SIS) and process automation systems such as Distributed Control System (DCS). View dimensionincludes function view, resource view, organization view and information view. Life period view includes system analyses,system design, system implementation, ope
4、ration maintenance and system optimization. Key words thermalpowerplant CIMSTPP-CIPSarchitecture model 1. General There have been lots of reference models of ComputerIntegrated Manufacturing System (CIMS) since CIMS appearedmore than twenty years ago. The most famous models arecomputer integrated ma
5、nufacturing open system (CIM-OSA) inESPRIT plan of European Economic Community, EnterpriseGRAI integrated methodology (GIM) of GRAI/LAP lab ofBordeaux University in France and Purdue Enterprise ReferenceArchitecture (PERA) of Purdue University in U.S.Almost all the models above are researched for di
6、spersedmanufacturing and the target model is centralized at integrationof CAX (CAD/CAPP/CAM/CAE), PDM and MRPII. Integrationof flow enterprise is in the ascendant now all over the world.Flow enterprise is similar to dispersed manufacturing on somesides and quite different on other sides. For flow en
7、terprise,CIMS should be called Computer Integrated Production System(CIPS) or integration automation system for whole plantResearch on CIPS of power plant is almost a blank space forpower enterprises in most countries. Definite research paperson power system are about integration from power generati
8、ngto power delivering. Innovation of power enterprises in Chinacreates condition for implementation of CIPS in power plants In order to enhance the whole management level and operationefficiency and to strengthen the market competition of powerplant, all famous control corporations all over the worl
9、d havemade progresses and have had experiences in developingintegration of management and control of power plants. Theselatest harvests have been applied in some modern powerplants. It is gradually forming an important level of integrationof management and control between traditional DCS and MIS.The
10、 system could optimize management of real time processof the whole plant. On one hand, its functions are to realizeoperation optimization, load distribution, economy analysis,equipment diagnosis, equipment status maintenance andequipment life management, etc. On the other hand, it couldtransmit data
11、 to the management system of MIS of business,archives, OA and so on. In the physical configuration, this levellies between DCS with high precision, high speed and highreliability and MIS which doesnt affect safe operation. Thissystem is an important research item now, which is calledSupervisory Info
12、rmation System (SIS) To set up an integration model for power plant, especially largesize thermal power plant could bring evident economic benefitsto power plants. This paper based upon the thorough study ofit, will put forward a three dimensional space architecture whichis called Computer Integrate
13、d Production System for large sizethermal power plant (TPP-CIPS). 2. Hierarchy Model of TPP-CIPS Hierarchy model is a structure description of CIMS, it is a baseof design and realizing CIMS. Large size thermal power plantTPP-CIPS is an industrial integration automation systemwhichgives priority to p
14、rocess control and supervisory analysismanagement. Referring to Purdue Reference Model, this paperputs forward a hierarchy model with five levels and twosustaining systems. See Figure 1. Five level models and theirmain functions are: Field control level: this level is the base automation level ofpow
15、er plant, which controls the process directly including variousmeasurements, instruments and actuators. Function control level: this level is to control the technologicalsystem of each functional group level, such as combustioncontrol system, feedwater control system, steam control systemetc. in the DCS of main power building. Unit control level: this level is the workshop machine hall controllevel of power plant, which controls each unit and balancesystems of power plant such as DCS of
