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考虑可再生分布式电源和负荷需求不确定性的主动配电网规划方法研究

Acknowledgements第5-6页
Abstract第6-8页
摘要第9-16页
Acronyms第16-18页
Nomenclature第18-30页
Chapter 1 Introduction第30-60页
    1.1 BACKGROUND第30-32页
    1.2 ACTIVE DISTRIBUTION NETWORKS第32-38页
        1.2.1 The Distribution Network Planning第34-36页
        1.2.2 The Active Distribution Network Planning第36-38页
    1.3 UNCERTAINTY MODELING IN ACTIVE DISTRIBUTION NETWORK PLANNING第38-50页
        1.3.1 Probabilistic Techniques第40-42页
        1.3.2 Stochastic Optimization第42-43页
        1.3.3 Robust Optimization第43页
        1.3.4 Possibilistic Techniques第43-44页
        1.3.5 Hybrid Possibilistio-Probabilistic Techniques第44页
        1.3.6 Information Gap Decision Theory第44页
        1.3.7 Summary and Performance Evaluation第44-50页
    1.4 OPTIMIZATION TECHNIQUES IN ACTIVE DISTRIBUTION NETWORK PLANNING第50-55页
        1.4.1 Conventional Techniques第51-52页
        1.4.2 Metaheuristic Algorithms第52-55页
    1.5 THESIS CONTRIBUTIONS AND OVERVIEW第55-60页
Chapter 2 An Analytical Approach for Placement of Renewable Distributed Generation第60-71页
    2.1 INTRODUCTION第60-61页
    2.2 METHODOLOGY第61-64页
        2.2.1 Modeling第61-63页
        2.2.2 Problem Formulation第63-64页
    2.3 CASE SETUP第64-66页
        2.3.1 Test Networks第64-65页
        2.3.2 Test Cases第65-66页
    2.4 RESULTS AND DISCUSSION第66-69页
        2.4.1 Validation of Proposed Analytical Approach第66-68页
        2.4.2 Implementation of Proposed Analytical Approach第68-69页
    2.5 SUMMARY AND REMARKS第69-71页
Chapter 3 Scenario-Based Planning of Wind and Photovoltaic Distributed Generation第71-88页
    3.1 INTRODUCTION第71-72页
    3.2 METHODOLOGY第72-81页
        3.2.1 Modeling of Scenario Matrix第72-78页
        3.2.2 Problem Formulation第78-81页
            1) The Objective第79-80页
            2) The Constraints第80页
            3) Second Order Cone Programming (SOCP) Relaxation第80-81页
    3.3 CASE SETUP第81-83页
        3.3.1 Test Networks第82-83页
    3.4 RESULTS AND DISCUSSION第83-87页
        3.4.1 Generation of Scenario Matrix第83-84页
        3.4.2 The Proposed DGP Solution第84-86页
        3.4.3 Comparative Analysis of Proposed DGP Solution第86-87页
    3.5 SUMMARY AND REMARKS第87-88页
Chapter 4 Stochastic Investment Planning of Multi-Type Renewable Distributed Generation第88-103页
    4.1 INTRODUCTION第88-90页
    4.2 METHODOLOGY第90-94页
        4.2.1 Modeling of Scenario Matrix第91页
        4.2.2 Problem Formulation第91-94页
    4.3 CASE SETUP第94-96页
        4.3.1 Test Networks第94-96页
        4.3.2 Test Cases第96页
    4.4 RESULTS AND DISCUSSION第96-102页
        4.4.1 Generation of Scenario Matrix第96-98页
        4.4.2 The Proposed DGIP Solution第98-100页
        4.4.3 Comparative Analysis of Proposed DGIP Solution第100-101页
        4.4.4 Sensitivity Analysis第101-102页
    4.5 SUMMARY AND REMARKS第102-103页
Chapter 5 Coordinated Investment Planning of Stochastic Distributed Generation and BatteryStorage第103-120页
    5.1 INTRODUCTION第103-104页
    5.2 METHODOLOGY第104-109页
        5.2.1 Modeling of Scenario Matrix第106页
        5.2.2 Problem Formulation第106-109页
    5.3 CASE SETUP第109-111页
        5.3.1 Test Networks第109-111页
        5.3.2 Test Cases第111页
    5.4 RESULTS AND DISCUSSION第111-118页
        5.4.1 Generation of Scenario Matrix第111-112页
        5.4.2 Investment Planning of 53-bus Distribution Feeder第112-116页
        5.4.3 Investment Planning of IEEE 123-bus Distribution Feeder第116-118页
    5.5 SUMMARY AND REMARKS第118-120页
Chapter 6 Active Distribution System Reinforcement Planning with Electric Vehicle ChargingStations第120-142页
    6.1 INTRODUCTION第120-122页
    6.2 METHODOLOGY第122-129页
        6.2.1 Modeling第123-125页
        6.2.2 Problem Formulation第125-129页
    6.3 CASE SETUP第129-132页
        6.3.1 Test Networks第129-131页
        6.3.2 Test Cases第131-132页
    6.4 RESULTS AND DISCUSSION第132-141页
        6.4.1 Expansion Planning of 18-bus Distribution System第132-138页
        6.4.2 Expansion Planning of IEEE 123-bus Distribution System第138-141页
    6.5 SUMMARY AND REMARKS第141-142页
Chapter 7 Investment Planning of Isolated Microgrids considering Multi-type Energy Demands第142-159页
    7.1 INTRODUCTION第142-144页
    7.2 METHODOLOGY第144-148页
        7.2.1 Modeling第146-147页
        7.2.2 Problem Formulation第147-148页
    7.3 CASE SETUP第148-150页
        7.3.1 Test Network第149-150页
        7.3.2 Test Cases第150页
    7.4 RESULTS AND DISCUSSION第150-158页
        7.4.1 Generation of Scenario Matrix第150-152页
        7.4.2 The Proposed MMIP Solution第152-153页
        7.4.3 Optimal Electricity, Heating, and Cooling Dispatch第153-156页
        7.4.4 Comparative Analysis of Proposed MMIP Solution第156-158页
    7.5 SUMMARY AND REMARKS第158-159页
Chapter 8 Conclusion and Future Work第159-165页
    8.1 FUTURE WORK第162-165页
References第165-176页
Research Publications and Projects第176-178页
About the Author第178页

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