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Self-Assistive Controller Using Voltage Droop Method for DC Distributed Generators and Storages
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Author(s): Ranjit Singh Sarban Singh (Universiti Teknikal Malaysia Melaka, Malaysia)and Maysam Abbod (Brunel University London, UK)
Copyright: 2020
Pages: 27
Source title:
Cases on Green Energy and Sustainable Development
Source Author(s)/Editor(s): Peter Yang (Case Western Reserve University, USA)
DOI: 10.4018/978-1-5225-8559-6.ch014
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Abstract
With the rapid growth of distributed generation currently, DC microgrids energy system structure is being deployed in parallel with, or independently from, the main power grid network. The DC microgrids energy system structure is designed to provide an effective coordination with the aggregating distributed generators, energy storage, and connected loads. In this sense, the DC microgrids energy system structure can be connected to the grid network or can be off-grid network. In the mode of grid network connected, DC microgrids energy system structure is presented as a controllable entity. When it is necessary, DC microgrids energy system is connected in islanded mode to deliver reliable power to the grid network during the interrupted power supply from the grid network system. Having said that, the DC microgrids energy system structure is encompassed of renewable energy sources, energy storages and loads, and not excluding the grid network transmission. Hence, this chapter proposes to focus on designing and modelling a self-assistive controller using voltage droop method for DC distributed generators and storages which is a part of the DC microgrids energy system structure.
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