Electricity markets : theories and applications

Electricity markets : theories and applications / Jeremy Lin, Fernando H. Magnago.

A comprehensive resource that provides the basic concepts of electric power systems, microeconomics, and optimization techniques Electricity Markets: Theories and Applications offers students and practitioners a clear understanding of the fundamental concepts of the economic theories, particularly m...

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Bibliographic Details
Main Author: Lin, Jeremy
Other Authors: Magnago, Fernando H.
Format: eBook
Language:English
Published: Somerset : John Wiley & Sons, Incorporated, 2017.
Series:IEEE Press series on power engineering.
Subjects:
Electric industries.
Electric utilities.
electric utilities.
BUSINESS & ECONOMICS > Real Estate > General.
Electric industries
Electric utilities
Online Access:Click for online access
Table of Contents:
  • Front Matter
  • Introduction
  • Electric Power System
  • Microeconomic Theories
  • Power System Unit Commitment
  • Power System Economic Dispatch
  • Optimal Power Flow
  • Design, Structure, and Operation of an Electricity Market
  • Pricing, Modeling, and Simulation of an Electricity Market
  • Evaluation of an Electricity Market
  • Transmission Planning Under Electricity Market Regime
  • Electricity Market under a Future Grid
  • IEEE Press Series on Power Engineering.
  • Electricity Markets; Contents; About the Authors; Preface; 1 Introduction; 1.1 Electric Power System; 1.2 Electricity Industry Restructuring in the United States; 1.2.1 Key Drivers for Electricity Industry Restructuring; 1.2.2 Pre-Federal Energy Regulatory Commission Order 2000; 1.2.3 Post-Federal Energy Regulatory Commission Order 2000; 1.2.4 Regional Transmission Organization; 1.2.5 Post-Regional Transmission Organization; 1.3 Electricity Industry Restructuring in Latin America; 1.3.1 Chile; 1.3.2 Argentina; 1.3.3 Brazil; 1.3.4 Mexico; 1.4 Electricity Industry Restructuring in Europe.
  • 1.4.1 The United Kingdom1.4.2 Nordic Countries; 1.4.3 France; 1.5 Electricity Industry Restructuring in Asia; 1.5.1 South Korea; 1.6 Reliability as a Paramount Goal; 1.6.1 Reliability via the Electricity Market Mechanism; 1.7 Further Discussions; Further Reading; 2 Electric Power System; 2.1 Electric Power System Components; 2.2 Electricity Generation; 2.3 Power System Load; 2.4 Transmission Lines; 2.4.1 Structures and Types of Transmission Lines; 2.4.2 Electrical Parameters of Transmission Lines; 2.4.3 Electric Network Models of Transmission Lines; 2.5 Power Transformers.
  • 2.6 Synchronous Generators2.7 Network Analysis; 2.7.1 Impedance Diagram; 2.7.2 Bus Admittance Matrix; 2.7.3 Power Flow Analysis; 2.7.4 Control of Power Flow; Further Reading; 3 Microeconomic Theories; 3.1 Preliminaries; 3.2 Theory of Consumer Behavior; 3.2.1 Individual and Market Demand; 3.2.2 Consumer Surplus; 3.3 Theory of a Firm; 3.3.1 Profit Maximization Assumption; 3.3.2 Cost of Production; 3.3.3 Demand and Marginal Revenue for a Competitive Firm; 3.3.4 Choosing Output in the Short Run; 3.3.5 Producer Surplus; 3.3.6 Social Welfare; 3.4 Theory of a Market; 3.4.1 Perfect Competition.
  • 3.4.2 Pure Monopoly3.4.3 Monopolistic Competition; 3.4.4 Monopsony; 3.5 Game Theory; 3.5.1 Nash Equilibrium; 3.5.2 Bayesian Nash Equilibrium; 3.6 Oligopoly; 3.6.1 Cournot Model; 3.6.2 Stackelberg Model; 3.6.3 Bertrand Model; 3.6.4 Collusion Model; 3.7 Auction Theory; 3.8 Further Discussions; Further Reading; 4 Power System Unit Commitment; 4.1 Introduction; 4.2 Unit Commitment; 4.3 Mathematical Formulation for Unit Commitment; 4.4 Numerical Methods for Unit Commitment Problem; 4.4.1 Heuristic Methods; 4.4.2 Dynamic Programming; 4.4.3 Dual Methods: Lagrange Relaxation.
  • 4.4.4 Mixed Integer Programming Method4.5 New Challenges for UC Problem; Further Reading; 5 Power System Economic Dispatch; 5.1 Introduction; 5.2 Generation Cost; 5.2.1 Input-Output Curve; 5.2.2 Fuel Cost Curve; 5.2.3 Heat Rate Curve; 5.2.4 Incremental Cost Curve; 5.3 Mathematical Formulation for Economic Dispatch; 5.4 Economic Dispatch Problem; 5.5 Lossless Economic Dispatch Formulation; 5.6 Numerical Methods for Economic Dispatch; 5.6.1 Lambda Iteration Method; 5.6.2 Newton-Raphson Method; 5.6.3 Reduced Gradient Methods; 5.7 Inclusion of Transmission Losses.
  • 5.7.1 Total and Incremental Loss Calculation.

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