Jae Hyung Roh scite author profile

Abstract-We propose an ISO model for coordinating transmission expansion planning with competitive generation capacity planning in electricity markets. The purpose of the model is a holistic simulation of generation and transmission capacity expansion in the market environment. The solution represents an iterative process for simulating the interactions among GENCOs, TRANSCOs, and the ISO, which might be terminated by the ISO based on a pre-specified stopping criterion. The proposed model adopts a joint energy and transmission auction market and a capacity mechanism. The joint auction market enables competition to occur among generation and transmission resources. The capacity mechanism offers incentives for market participant investments that reflect the locational values of additional capacity. Transmission capacity expansion decisions are made by merchant transmission lines that recover their capacity investments through transmission marginal pricing and capacity payments. Transmission network security is reflected in the proposed competitive resource planning model. The examples illustrate a coordinated planning of generation and transmission in restructured power systems.

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Market-Based Generation and Transmission Planning With Uncertainties

Roh

Shahidehpour

2009

IEEE Trans. Power Syst.

251

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This paper presents a stochastic coordination of generation and transmission expansion planning model in a competitive electricity market. The Monte Carlo simulation method is applied to consider random outages of generating units and transmission lines as well as inaccuracies in the long-term load forecasting. The scenario reduction technique is introduced for reducing the computational burden of a large number of planning scenarios. The proposed model assumes a capacity payment mechanism and a joint energy and transmission market for investors' costs recovery. The proposed approach simulates the decision making behavior of individual market participants and the ISO. It is an iterative process for simulating the interactions among GENCOs, TRANSCOs and ISO. The iterative process might be terminated by the ISO based on a pre-specified stopping criterion. The case studies illustrate the applications of proposed stochastic method in a coordinated generation and transmission planning problem when considering uncertainties.Index Terms-Competitive electricity market, coordination of generation and transmission planning, mixed integer programming, Monte Carlo simulation, random outages and uncertainty, transmission network security.

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Security-Constrained Resource Planning in Electricity Markets

Roh

Shahidehpour

Yong

2007

IEEE Trans. Power Syst.

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Toward electricity retail competition: Survey and case study on technical infrastructure for advanced electricity market system

Bae

Kim

et al. 2014

Applied Energy

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Jae Hyung Roh

Stochastic Energy Scheduling in Microgrids With Intermittent Renewable Energy Resources

Market-Based Coordination of Transmission and Generation Capacity Planning

Market-Based Generation and Transmission Planning With Uncertainties

Security-Constrained Resource Planning in Electricity Markets

Toward electricity retail competition: Survey and case study on technical infrastructure for advanced electricity market system

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