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논문 기본 정보

자료유형
학술저널
저자정보
Kun Liu (Shanghai Jiao Tong University) Muhammad Mansoor Khan (Shanghai Jiao Tong University) Ahmad Rana (Villanova University) Dong Fei (State Grid Shanghai Procurement Company)
저널정보
전력전자학회 JOURNAL OF POWER ELECTRONICS JOURNAL OF POWER ELECTRONICS Vol.18 No.2
발행연도
2018.3
수록면
588 - 603 (16page)

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초록· 키워드

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This paper presents the idea of a smart load that can adjust the input power flow based on the intermittent power available from RESs (Renewable Energy Resources) to regulate the line voltage, and draw a constant power from the grid. To this effect, an innovative power flow controller is presented based on a Resistive ES (Electric Spring) in combination with a PEAT (Power Electronics based Adjustable Transformer), which can effectively shape the load power flow at the subnetwork level. With a PEAT incorporated in the step down transformer at the grid side, the proposed controller can supply non-critical loads through local RESs, and the critical loads can draw a relatively constant power from the grid. If there is an abundance of power produced by the RESs, the controller can supply both non-critical loads and critical loads through the RES, which significantly reduces the power demand from the grid. The principle, practicality, stability analysis, and controller design are presented. In addition, simulation results show that the power flow controller performs well in shaping the load power flow at the subnetwork level, which decreases the power demand on the grid. Experimental results are also provided to show that the controller can be realized.

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Abstract
I. INTRODUCTION
II. PRINCIPLES OF A RESISTIVE ES BASED POWER FLOW CONTROLLER
III. PRACTICALITY OF A RESISTIVE ES AND A PEAT
IV. STABILITY ANALYSIS
V. POWER FLOW CONTROL STRATEGY AND CONTROLLER DESIGN
VI. CASE STUDIES AND SIMULATIONS
VII. PRACTICAL EXPERIMENT RESULTS
VIII. CONCLUSIONS
REFERENCES

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UCI(KEPA) : I410-ECN-0101-2018-560-001826186