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Table of contents
General Introduction
Chapter 1 Introduction Energy Consumption
1.1 Background Energy Consumption and Renewable Energy
1.1.1 Global Energy demand
1.1.2 Renewable Energy Source Development
1.1.3 Building energy consumption
1.1.4 Building Integrated Photo Voltaic (BIPV)
1.2 Photovoltaic: Self-Consumption and Energy Management
1.2.1 Self-consumption in France
1.2.2 Electricity Market: Peer to Peer Trading Concept
1.3 Thesis Content and Organization
Chapter 2 State of the art of energy management for residential sector
2.1 Introduction
2.2 Participation of Smart Grid in Energy Management
2.3 Self-Consumption: Introduction and Application
2.3.1 Net metering and net billing
2.3.2 Self-consumption categories
2.3.3 Benefit and Challenges of Self-consumption
2.4 Demand Energy Strategies
2.4.1 Energy management from supply side
2.4.2 Demand side management
2.5 Home Energy Management System
2.5.1 Component of HEMS
2.5.2 Communication tool in HEMS
2.5.3 HEMS Scheduling
2.6 Prosumer in Coordination Energy Management System
2.7 Peer to Peer Energy Trading in the Communities
2.7.1 Peer to Peer Energy Market Concept
2.7.2 Type of Peer to Peer Energy Trading
2.7.3 Advantage and Drawback of Peer to Peer
2.8 Conclusion
2.9 The Challenge, Research Approach and Thesis Contribution
References
Chapter 3 Simulation platform for study case
3.1 Introduction
3.2 Load profile forecasting in the residential
3.2.1 Literature review
3.2.2 Top-down Approach
3.2.3 Bottom-up approach
3.3 PV Profile Generator
3.3.1 PV forecasting methods
3.3.2 Statistical method
3.3.3 Physical method
3.3.4 Ensemble method (hybrid)
3.4 Energy Storage
3.5 Electric Water Heater
3.5.1 Parameter of Electric Water Heater
3.5.2 User Comfort
3.5.3 Electric Water Heater for modeling
3.6 Thermal Building
3.6.1 Background
3.6.2 Literature review
3.7 Financial Scheme
3.8 Energy Management method
3.8.1 Coordination Energy Management via Bilateral Contract
3.8.2 Application the bilateral contract in Heuristic
3.9 Conclusion
References
Chapter 4 Development of Model Predictive Control in Household Communities
4.1 Introduction
4.2 Model Predictive Control for EMS
4.2.1 Literature review
4.2.2 Optimal Control
4.2.3 Mixed integer programming formulation for MPC
4.2.4 Objective
4.2.5 Application MPC for Energy Management
4.3 Energy Management method and Solving
4.3.1 Coordination of Energy Management in the household
4.3.2 Coordination Energy Management via Bilateral Contract
4.3.3 Centralized Coordination Energy Management
4.3.4 Multilateral Energy Management
4.4 Conclusion
References
Chapter 5 Case study for Coordinated Energy Management validation simulation based
5.1 Introduction
5.2 Case Study with MPC for Market Model
5.2.1 Bilateral contract Prosumer to Consumer
5.2.2 Prosumer to Prosumer Coordination Energy
5.2.3 Energy management using Centralized Coordination
5.2.4 Pool to Pool Energy Coordination via MPC
5.3 Case study of Energy Coordination integrated with Thermal Building
5.3.1 Background
5.3.2 Introduction of INCAS Building
5.3.3 Local coordination of district in Chambery
5.3.4 Local District in Jakarta
5.3.5 Return of Investment for PV system in District
5.4 Conclusion
Reference
