Quick Droop Manager for Inter-tied AC-DC Cross Technique Power Distribution

Engineering, Technology & Applied Science Research - Vol. 5, No. 2, PP 2609 - 2615, (2017)

7 Pages Posted: 2 May 2018

See all articles by Reti Guptansi Khan

Reti Guptansi Khan

Motilal Nehru National Institute of Technology (MNNIT)

Panmikaj Larmjar

Motilal Nehru National Institute of Technology (MNNIT) - Department of Electrical Engineering

Date Written: February 18, 2017

Abstract

The result of DG clustering is the hybrid power system while further clustering forms the intertied hybrid power system. Interfacing of intertied hybrid power system requires an interlinking converter with a legitimate power administration and control system. In contrast to individual hybrid power system (HPS), power administration of the intertied hybrid system is more complex. Autonomous droop strategy is appropriate for the intertied hybrid system where communication links are not possible. This paper proposes a new topology for control in intertied hybrid system where two hybrid power systems are connected to each other through interlink power converter. Evaluated frequencies in different HPSs can diverse. In order to manage power flow a power management strategy with consideration characteristics of common bus, a PDC- vDC2 method is proposed, and compared with conventional droop, to realize power sharing among HPS. The practicability of the proposed power sharing method is realized in MATLAB/Simulink platform.

Keywords: Inter-tied hybrid system, power sharing, intelligent controller

Suggested Citation

Guptansi Khan, Reti and Larmjar, Panmikaj, Quick Droop Manager for Inter-tied AC-DC Cross Technique Power Distribution (February 18, 2017). Engineering, Technology & Applied Science Research - Vol. 5, No. 2, PP 2609 - 2615, (2017), Available at SSRN: https://ssrn.com/abstract=3162176

Reti Guptansi Khan (Contact Author)

Motilal Nehru National Institute of Technology (MNNIT)

Link Road Number 3
Near Kali Mata Mandir
Bhopal, IN Madhya Pradesh 452010
India

Panmikaj Larmjar

Motilal Nehru National Institute of Technology (MNNIT) - Department of Electrical Engineering ( email )

Bhopal, Madhya Pradesh 452010
India

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