Research on Optimal Economic Benefit of a Micro-Grid with Area Small Hydropower and New Energy Complementary

Guo Cheng Sun; Zai De Xu; Lan Ying Yang; Hong Zhong Ma

doi:10.4028/www.scientific.net/AMM.666.125

Paper Titles

The Study on 24 Bits ADC's Acquisition Dynamic Range Extension Method
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A Protection Scheme of Ac Side Faults of Dc Distribution System
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Reliability Evaluation of Mid-Voltage DC Distribution Network with Multiple Topologies
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An Equivalent Modeling for Synthesis Load of Distributed Network with Small Hydropower
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Research on Optimal Economic Benefit of a Micro-Grid with Area Small Hydropower and New Energy Complementary
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Decision Tree Algorithm for Real-Time Identification of Critical Voltage Control Areas
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The Diagnostics System for Power Transmission Lines of 6/10 kV
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The Study on Homogeneous Parameters of Light Water Reactor by the Nodal Diffusion Method
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Improved Power Transformer Winding Deformation Fault Diagnosis Method
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 666Research on Optimal Economic Benefit of a...

Research on Optimal Economic Benefit of a Micro-Grid with Area Small Hydropower and New Energy Complementary

Abstract:

Wind power generation technology has become increasingly mature. Recently, the micro-grid with area small hydropower and new energy complementary is put forward. Take the hybrid wind-hydro power system as an example. The complementary micro-grid mainly consists of small hydropower group, wind power and energy storage devices. In this way, not only is the stability improved, but also the operational benefit is maximized. The paper sets forth the complementary system from the following aspects. First, based on fully knowing of the operation of the wind power and the hydro power, combine the knowledge of the micro grid and the energy storage technique and design the structure of the hybrid wind-hydro complementary generation system (HWCGS). At the same time, analyze the distinguishing complementary features of the wind power and the hydropower. In order to improve the stability, connect the micro grid with the power grid. Second, build up the equivalent model of the complementary system. In the end, evaluate the comprehensive optimization to build up the model under the optimal economic benefit.

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Periodical:

Applied Mechanics and Materials (Volume 666)

Pages:

125-131

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.666.125

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Online since:

October 2014

Authors:

Guo Cheng Sun, Zai De Xu, Lan Ying Yang*, Hong Zhong Ma

Keywords:

Complementary Micro-Grid, Hybrid Wind-Hydro Power System, Optimal Economic Benefit

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* - Corresponding Author

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