Transmission Expansion Planning Test System for AC/DC Hybrid Grid With High Variable Renewable Energy Penetration

Test systems are important tools and benchmark for power system research. Currently, there is a lack of standard test systems for modern transmission expansion planning (TEP) research, especially under high variable renewable energy (VRE) penetrations. This article describes a 38-bus test system nam...

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Veröffentlicht in:	IEEE transactions on power systems 2020-07, Vol.35 (4), p.2597-2608
Hauptverfasser:	Zhuo, Zhenyu, Zhang, Ning, Yang, Jingwei, Kang, Chongqing, Smith, Charlie, O'Malley, Mark J., Kroposki, Benjamin
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Sprache:	eng
Schlagworte:	AC/DC hybrid Alternative energy sources Benchmark testing Benchmarks Generators high penetration Hybrid power systems Hybrid systems Load modeling Network topologies Optimization Penetration Photovoltaic cells Planning Renewable energy Renewable energy sources Renewable resources test system Test systems Transmission network planning Wind power
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container_title	IEEE transactions on power systems
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creator	Zhuo, Zhenyu Zhang, Ning Yang, Jingwei Kang, Chongqing Smith, Charlie O'Malley, Mark J. Kroposki, Benjamin
description	Test systems are important tools and benchmark for power system research. Currently, there is a lack of standard test systems for modern transmission expansion planning (TEP) research, especially under high variable renewable energy (VRE) penetrations. This article describes a 38-bus test system named the HRP-38 system dedicated to TEP. "HRP" stands for high renewable penetration. The objective of establishing such a system is to provide a consistent platform for different TEP methods to be tested and compared. The test system considers high VRE penetration of more than 30% energy share, which will be an important feature in many power systems in the future. Both AC and DC candidate lines are given to provide sufficient transmission planning alternatives. The complexity of the test system is well balanced considering calculation tractability and the ability to test the performance of the TEP planning model. The network topology, generation mix and load characteristics are described in detail. Year-round time series of VRE (wind power and PV) output and load curves for each bus are provided to facilitate a detailed evaluation of the transmission grid configuration under high VRE penetration. Finally, four benchmark results with different optimization settings are provided for the HRP-38 system.
doi_str_mv	10.1109/TPWRS.2019.2959508
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Currently, there is a lack of standard test systems for modern transmission expansion planning (TEP) research, especially under high variable renewable energy (VRE) penetrations. This article describes a 38-bus test system named the HRP-38 system dedicated to TEP. "HRP" stands for high renewable penetration. The objective of establishing such a system is to provide a consistent platform for different TEP methods to be tested and compared. The test system considers high VRE penetration of more than 30% energy share, which will be an important feature in many power systems in the future. Both AC and DC candidate lines are given to provide sufficient transmission planning alternatives. The complexity of the test system is well balanced considering calculation tractability and the ability to test the performance of the TEP planning model. The network topology, generation mix and load characteristics are described in detail. Year-round time series of VRE (wind power and PV) output and load curves for each bus are provided to facilitate a detailed evaluation of the transmission grid configuration under high VRE penetration. 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Currently, there is a lack of standard test systems for modern transmission expansion planning (TEP) research, especially under high variable renewable energy (VRE) penetrations. This article describes a 38-bus test system named the HRP-38 system dedicated to TEP. "HRP" stands for high renewable penetration. The objective of establishing such a system is to provide a consistent platform for different TEP methods to be tested and compared. The test system considers high VRE penetration of more than 30% energy share, which will be an important feature in many power systems in the future. Both AC and DC candidate lines are given to provide sufficient transmission planning alternatives. The complexity of the test system is well balanced considering calculation tractability and the ability to test the performance of the TEP planning model. The network topology, generation mix and load characteristics are described in detail. 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subjects	AC/DC hybrid Alternative energy sources Benchmark testing Benchmarks Generators high penetration Hybrid power systems Hybrid systems Load modeling Network topologies Optimization Penetration Photovoltaic cells Planning Renewable energy Renewable energy sources Renewable resources test system Test systems Transmission network planning Wind power
title	Transmission Expansion Planning Test System for AC/DC Hybrid Grid With High Variable Renewable Energy Penetration
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