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Joint RES and distribution network expansion planning under a demand response framework /

Joint RES and Distribution Network Expansion Planning under a Demand Response Framework explains the implementation of algorithms needed for joint expansion planning of distributed generation and the distribution network models. It discusses how to expand the generation and distribution network addi...

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Bibliographic Details
Main Authors: Contreras, Javier
Corporate Authors: Elsevier Science & Technology.
Group Author: Asensio, Miguel; Meneses de Quevedo, Pilar; Muñoz-Delgado, Gregorio; Montoya-Bueno, Sergio
Published: Academic Press is an imprint of Elsevier,
Publisher Address: London, UK :
Publication Dates: [2016]
Literature type: eBook
Language: English
Subjects:
Electric power systems > Mathematical models.
Electric power production > Mathematical models.
Electric power distribution > Mathematical models.
TECHNOLOGY & ENGINEERING / Mechanical.
Electronic books.
Online Access: http://www.sciencedirect.com/science/book/9780128053225
Summary: Joint RES and Distribution Network Expansion Planning under a Demand Response Framework explains the implementation of algorithms needed for joint expansion planning of distributed generation and the distribution network models. It discusses how to expand the generation and distribution network adding renewable generation, demand response, storage units and new assets (lines and substations) so that the current and future energy supply in islands is served at a minimum cost and with the quality required. This book discusses the outcomes of the models discussed and factors such as the locations and sizes of new generation assets to be installed. It also introduces other issues relevant to the planning of insular distribution systems, including DR and hybrid storage. DR and ESS will play a more and more significant role in future expansion planning model. The present study stresses their relevance, including additional considerations to the planning model.Investigates the costs and benefits of deploying energy storage systems (ESS) and DRExplores distribution and generation expansion planningAnalyses and addresses power flow constraints and the impact of real time pricing mechanismsDetails the RES integration challenge at length
Carrier Form: 1 online resource (vi, 102 pages)
Bibliography: Includes bibliographical references.
ISBN: 9780081009536
0081009534
Index Number: TK1005
CLC: TM71
Contents: Front Cover; Joint RES and Distribution Network Expansion Planning Under a Demand Response Framework; Copyright Page; Contents; 1 Introduction; 1.1 Historical Background and Motivation; 1.2 Outline; 2 Renewable Power Generation Models; 2.1 Photovoltaic Energy; 2.1.1 Introduction; 2.1.2 Power Output and I-V Curves; 2.1.3 Parameters and Operating Conditions; 2.1.4 Models for Photovoltaic Systems; 2.1.4.1 Progensa's Model [37]; 2.1.4.2 Atwa's Model [38]; 2.1.4.3 Borowy's Model [39]; 2.2 Wind Energy; 2.2.1 Introduction; 2.2.2 Impact of Height; 2.2.3 Wind Generation Model; 3 Uncertainty Modeling.
3.1 Introduction3.2 Method Based on Load, Wind, and Irradiation Curves; 3.2.1 Step 1; 3.2.2 Step 2; 3.2.3 Step 3; 3.2.4 Step 4; 3.2.5 Step 5; 3.2.6 Step 6; 3.2.7 Step 7; 4 Demand Response Modeling; 4.1 Demand Response Modeling; 4.1.1 Incentive-Based Programs (IBP); 4.1.2 Price-Based Programs (PBP); 4.2 Formulation; 4.3 Methodologies to Include Short-Term DR Into Expansion Planning; 5 Energy Storage Systems Modeling; 5.1 Benefits Derived From the Use of ESS; 5.1.1 Technical Benefits; 5.1.2 Economic Benefits; 5.2 ESS Technologies; 5.3 Storage Unit Model; 6 Optimization Problem Formulation.
6.1 Objective Function6.2 Constraints; 6.2.1 Integrality Constraints; 6.2.2 Balance Equations; 6.2.3 Kirchhoff's Voltage Law; 6.2.4 Voltage Limits; 6.2.5 Capacity Limits for Feeders; 6.2.6 Capacity Limits for Transformers; 6.2.7 Capacity Limits for Generators; 6.2.8 Unserved Energy; 6.2.9 DG Penetration Limit; 6.2.10 Capacity Limits for Storage; 6.2.11 Investment Constraints; 6.2.12 Utilization Constraints; 6.2.13 Investment Limits; 6.2.14 Radiality Constraints; 6.2.15 Demand Response to Load Level-Changing Prices; 6.2.16 Generic Storage Formulation; 6.3 Linearizations; 6.3.1 Energy Losses.
6.3.2 Kirchhoff's Voltage Law7 Case Study; 7.1 La Graciosa Case Study; 7.2 Results Without DR and Hybrid Storage; 7.3 Results With DR; 7.4 Results With Hybrid Storage; 7.5 Results With DR and Hybrid Storage; 7.6 Impact of DR and Hybrid Storage in Generation and Distribution Expansion Planning; 7.7 Cost-Benefit Analysis; 8 Summary and Conclusions; 8.1 Summary; 8.2 Conclusions; Nomenclature; 1 Sets and Indexes; 2 Parameters; 3 Variables; References; Back Cover.

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