| ABSTRACT | 第4-5页 |
| LIST OF ABBREVIATIONS | 第16-19页 |
| CHAPTER 1 INTRODUCTION | 第19-35页 |
| 1.1 Background | 第19-22页 |
| 1.1.1 Importance of tri-generation | 第20-22页 |
| 1.1.2 Solar thermal power plants | 第22页 |
| 1.2 Concentrating solar power (CSP) technologies | 第22-24页 |
| 1.2.1 Parabolic trough collectors | 第22-23页 |
| 1.2.2 Linear Fresnel reflectors | 第23-24页 |
| 1.3 Scope of the work | 第24-26页 |
| 1.3.1 Operating and performance matrices for tri-generation power plants | 第25页 |
| 1.3.2 Using different CSP technologies for driving tri-generation power plant | 第25-26页 |
| 1.4 Literature review | 第26-33页 |
| 1.5 Innovations and contributions | 第33-35页 |
| CHAPTER 2 OBJECTIVES, METHODOLOGY AND APPROACH | 第35-63页 |
| 2.1 Objectives | 第35-36页 |
| 2.2 Problem Definition | 第36-47页 |
| 2.2.1 Systems to Be Analyzed | 第41-47页 |
| 2.3 Methodology | 第47-63页 |
| 2.3.1 Weather data and simulation methodology | 第47-49页 |
| 2.3.2 Operation and performance parameters | 第49-54页 |
| 2.3.2.1 Energy utilization factor | 第49-51页 |
| 2.3.2.2 Solar multiple (SM) | 第51-52页 |
| 2.3.2.3 Instantaneous solar share | 第52页 |
| 2.3.2.4 Annual solar share (SS) | 第52页 |
| 2.3.2.5 Incremental CO_2 avoidance | 第52页 |
| 2.3.2.6 Levelized electricity cost (LEC) | 第52-53页 |
| 2.3.2.7 Solar levelized electricity cost (SLEC) | 第53-54页 |
| 2.3.3 Solution Methodology and Simulation Procedure | 第54-58页 |
| 2.3.4 Characteristics of the Simulated Solar collectors | 第58-60页 |
| 2.3.5 THERMOFELEX | 第60-63页 |
| CHAPTER 3 AN INTEGRATING PARABOLIC TROUGH COLLECTORS WITH GASTURBINE TRI-GENERATION SYSTEM FOR PRODUCING ELECTRICITY,CHILLED WATER, AND FRESHWATER | 第63-85页 |
| 3.1 Problem Definition and System Integration | 第64-65页 |
| 3.2 Weather data and simulation methodology | 第65-70页 |
| 3.3 Operation and performance parameters | 第70页 |
| 3.4 Solution methodology and simulation procedure | 第70-82页 |
| 3.4.1 Conventional gas turbine tri-generation power plant (CGTPP1) | 第71-72页 |
| 3.4.2 Integrated solar gas turbine tri-generation power plant (PTC-GTPP1) | 第72-77页 |
| 3.4.3 Optimal solar integration mode | 第77-82页 |
| 3.5 Conclusions | 第82-85页 |
| CHAPTER 4 AN INTEGRATED LINEAR FRESNEL REFLECTOR WITH TRI-GENERATION SYSTEM FOR COOLING, FRESHWATER AND ELECTRICITYPRODUCTION PURPOSE | 第85-107页 |
| 4.1 Problem Statement | 第86-90页 |
| 4.2 Technical assessment and weather data | 第90-93页 |
| 4.3 Operation and performance parameters | 第93页 |
| 4.4 Results and discussion | 第93-106页 |
| 4.5 Conclusions | 第106-107页 |
| CHAPTER 5 AN INTEGRATED PARABOLIC TROUGH COLLECTORS WITH ACONVENTIONAL HEAT, COOLING, AND POWER TRIGENERATIONPLANT | 第107-131页 |
| 5.1 Problem Statement | 第108-111页 |
| 5.2 Simulation procedure and weather data | 第111-112页 |
| 5.3 Operating and performance parameters | 第112-115页 |
| 5.4 Results and discussion | 第115-129页 |
| 5.5 Conclusions | 第129-131页 |
| CHAPTER 6 AN INTEGRATED LINEAR FRESNEL REFLECTOR WITH ACONVENTIONAL COOLING, HEAT, AND POWER TRI-GENERATIONPLANT | 第131-155页 |
| 6.1 Problem Statement | 第132-136页 |
| 6.2 Weather data and technical assessment | 第136页 |
| 6.3 Thermodynamics Economic and Environmental Key Performance | 第136-139页 |
| 6.4 Results and discussion | 第139-152页 |
| 6.5 Conclusions | 第152-155页 |
| CHAPTER 7 OPTIMAL INTEGRATION OF SOLAR ENERGY WITH FOSSIL FUELGAS TURBINE TRI-GENERATION SYSTEMS USING TWO DIFFERENT CSPTECHNOLOGIES | 第155-171页 |
| 7.1 Problem Statement | 第155-156页 |
| 7.2 Results and discussion | 第156-169页 |
| 7.2.1 Weather data and technical assessment | 第157页 |
| 7.2.2 Simulation results and comparative analysis | 第157-169页 |
| 7.3 Conclusions | 第169-171页 |
| CONCLUSIONS | 第171-175页 |
| RECOMMENDATIONS FORFURTHER WORK: | 第175-177页 |
| REFERENCES | 第177-183页 |
| ACKNOWLEDGEMENTS | 第183-185页 |
| PUBLISHED RESEARCH PAPERS AND SCIENTIFIC PROJECTS | 第185-187页 |
| Published papers included in this dissertation | 第185页 |
| Published papers not included in this dissertation and completed during my PhD study atUSTC | 第185-187页 |
| APPENDICES | 第187-219页 |
