(Downloads - 0)
For more info about our services contact : help@bestpfe.com
Table of contents
CHAPTER 1: INTRODUCTION
1.1 DEVELOPMENT OF THE AUTOMATION SYSTEMS FOR HYDROPOWER PLANTS
1.2 CURRENT SITUATIONS AND PROBLEMS TO BE RESOLVED IN THE AUTOMATION SYSTEMS FOR HPS
1.3 CURRENT SITUATIONS IN ENTERPRISE INTEGRATION
1.3.1 BRIEF INTRODUCTION TO ENTERPRISE INTEGRATION
1.3.2 ENTERPRISE INTEGRATION LEVELS
1.4 CURRENT SITUATIONS IN AUTOMATION INTEGRATION: CMMS/IAMS AND MES
1.5 NEW AUTOMATION INTEGRATION TRENDS FOR HP
1.5.1 THE INTEGRATION LEVELS IN A PLANT OF PROCESS INDUSTRY
1.5.2 AUTOMATION SYSTEM INTEGRATION FOR HP
1.6 OBJECTIVES AND STRUCTURES OF THE THESIS
1.6.1 OBJECTIVES OF THE THESIS
1.6.2 STRUCTURE OF THE THESIS
CHAPTER 2: AN ICMMS REFERENCE MODEL FOR HYDROPOWER PLANTS
2.1 INTRODUCTION
2.1.1 PROBLEM STATEMENT
2.1.2 REFERENCE MODELS
2.1.3 ARRANGEMENT OF THIS CHAPTER
2.2 GERAM
2.3 ENTERPRISE/CONTROL SYSTEM INTEGRATION STANDARDS
2.4 THE CHARACTERS OF HYDROPOWER PLANTS
2.4.1 THE COMMON FEATURES OF HYDROPOWER PLANTS
2.4.2 THE MOST CHANGEABLE PARTS OF A HP: AUTOMATION SYSTEMS.28
2.5 THE FUNCTIONAL ANALYSIS OF ICMMS FOR HPS
2.6 A ICMMS REFERENCE MODEL FOR HYDROPOWER PLANTS
2.7 SUMMARY
CHAPTER 3: THE IMPLEMENTATION ARCHITECTURES OF ICMMS FOR HYDROPOWER PLANTS
3.1 INTRODUCTION
3.2 STATE OF THE ART ON THE AUTOMATION SYSTEMS FOR HP
3.3 CURRENT PROBLEMS
3.4 INTELLIGENT CONTROL-MAINTENANCE-TECHNICAL MANAGEMENT SYSTEMSICMMSFOR HPS
3.5 THE HYBRID SMART AUTOMATION SYSTEMS FOR HYDROELECTRIC GENERATING UNITS
3.5.1 FIELDBUS-BASED CONTROL SYSTEMSFCS FOR HYDRO GENERATING UNITS
3.5.2. HSASHYBRID SMART AUTOMATION SYSTEMFOR HYDROELECTRIC GENERATING UNITS
3.6 SUMMARY
CHAPTER 4: PERFORMANCE EVALUATION METHODOLOGIES FOR HYDROELECTRIC GENERATING UNITS
4.1 INTRODUCTION
4.2 THE CRITERIA AND METHODS TO EVALUATE THE OVERALL PERFORMANCE OF HGUS
4.2.1 THE COMPREHENSIVE PERFORMANCE EVALUATION INDEXES IN THE LIFECYCLE OF HGU
4.2.2 THE PERFORMANCE INDEX MATRIX AND OVERALL PERFORMANCE INDEXES OF HGUS
4.3 THE ECONOMIC PERFORMANCE CRITERIA AND EVALUATING METHOD FOR HGUS
4.3.1 THE IMPORTANCE RELATED TECHNOLOGIES OF ECONOMIC PERFORMANCE FOR HGUS
4.3.2. THE ESTABLISHMENT OF THE ECONOMIC PERFORMANCE INDEX SYSTEM AND EVALUATION CRITERIA
4.3.3 THE ENERGY FLOW ANALYSIS FOR HGU
4.3.4 THE OVERALL EFFICIENCY OF AN HGU ηs
4.3.5 IDEAL EFFICIENCY OF HGU: ηsi
4.3.6 REACHABLE EFFICIENCY OF HGUηsr
4.3.7 OPERATIONAL EFFICIENCY OF HGUηso
4.3.8 THE ECONOMIC EVALUATION CRITERIA FOR THE MAINTENANCE AND OPERATION MANAGEMENT OF HGU
4.4 IMPLEMENTATION OF THE ECONOMIC PERFORMANCE EVALUATION FOR HGUS
4.4.1 THE IMPLEMENTATION SCHEME UNDER ICMMS REFERENCE MODELS
4.4.2 AN ECONOMIC PERFORMANCE EVALUATION SYSTEM AND TESTING
4.5 A NEW MAINTENANCE STRATEGY: EBM (ECONOMIC PERFORMANCE BASED MAINTENANCE)
4.5.1 INTRODUCTION
4.5.2 EBM IN ICMMS
4.5.3 THE EFFECTIVENESS OF EBM FOR HYDROPOWER PLANTS
4.6 SUMMARY
CHAPTER 5: CONDITION MONITORING SYSTEMS FOR HYDROPOWER PLANTS
5.1 INTRODUCTION
5.1.1 IMPORTANCE OF CONDITION MONITORING SYSTEMS FOR HYDROPOWER PLANTS
5.1.2 OBJECTIVES OF THIS CHAPTER
5.2 THE CONCEPT AND FUNCTIONS OF CONDITION MONITORING
5.2.1 CONCEPT OF CONDITION MONITORING
5.2.2 THE FUNCTIONS OF A CONDITION MONITORING SYSTEM
5.3 CURRENT SITUATION AND PROBLEMS FOR THE CM OF HGUS
5.3.1 CONDITION MONITORING TECHNOLOGIES IN HYDROPOWER PLANTS 86
5.3.2 THE DIAGNOSIS AND PROGNOSIS TECHNOLOGIES
5.3.3 CURRENT PROBLEMS IN THE CM SYSTEMS FOR HGUS
5.4 THE REFERENCE MODELS OF CONDITION MONITORING SYSTEM FOR HYDRO ELECTRICAL GENERATING UNITS
5.4.1 TWO POSSIBLE SOLUTIONS TO THE INTEGRATION OF THE CM SYSTEMS FOR HYDROPOWER PLANTS
5.4.2 THE REFERENCE MODELS FOR THE CONDITION MONITORING SYSTEMS OF HYDROPOWER PLANTS
5.5 SUMMARY²
CHAPTER 6: CONTRIBUTIONS TO THE CONTROL DOMAIN OF ICMMS: DAA
6.1 INTRODUCTION
6.2. MODEL OF HYDRAULIC TURBINE GOVERNING SYSTEM
6.3 DAA-BASED DESIGN METHOD FOR THE HYDRAULIC TURBINE GOVERNORS
6.3.1. MODEL DEVELOPMENT FOR A HYDRAULIC TURBINE GOVERNING SYSTEM
6.3.2. DAA-BASED CONTROL ALGORITHM FOR HYDRAULIC TURBINE GOVERNORS
6.4. SIMULATION AND RESULTS
6.5 SUMMARY
CHAPTER 7: SEVERAL PHILOSOPHICAL THOUGHTLETS ON THE AUTOMATION SYSTEMS INTEGRATION
7.1 THE DEVELOPMENT TRACES OF SYSTEM SCIENCE
7.2 THE DEVELOPMENT PROCESS OF THE AUTOMATION SYSTEMS
7.3 PHILOSOPHY OF SYSTEM INTEGRATION FOR HYDROPOWER PLANTS
7.4 SUMMARY
CHAPTER 8: CONCLUSIONS AND PERSPECTIVES
8.1 CONCLUSIONS
8.2 PERSPECTIVES
REFERENCES
