Interconnecting Solar Home Systems in Developing Nations

Master thesis (2017)

Authors

Bryan Oscareino Bryan Oscareino Malik Electrical Engineering, Mathematics and Computer Science

Contributors

P. Bauer (supervisor 1)
L.M. Ramirez Elizondo (supervisor 1)
N.S. Narayan (supervisor 2)
L.J. Mackay (supervisor 2)
Faculty
Electrical Engineering, Mathematics and Computer Science
Copyright: © 2017 Bryan Oscareino Bryan Oscareino Malik
Decentralized DC grid Interconnection Solar Home System
More Info
expand_more

Published Date

30-08-2017

Language

English

Reuse Rights

Other than for strictly personal use, it is not permitted to download, forward or distribute the text or part of it, without the consent of the author(s) and/or copyright holder(s), unless the work is under an open content license such as Creative Commons.

Faculty

Electrical Engineering, Mathematics and Computer Science

Abstract

Rural area electrification is one of the challenging issues to be solved by the engineer as it is often constrained by several issues such as geographical condition and underdeveloped infrastructures. As a result, off-grid DC system is expected to answer the need of electricity in these areas.

Solar Home System (SHS) as one of the practical implementation of off-grid DC system has been used widely due to the low operating cost of PV panel which requires no fuel to operate. Besides that, this system offers more modularity rather than conventional power generator due to the absence of frequency and reactive power parameter in the static component. Decentralized control for energy management between component is preferred rather than centralized, so it does not require additional communication lines. Moreover, it allows each component to work independently when there is a failure or disturbance in the distribution lines. Equal power balance for multiple batteries is maintained by the additional controller in each local battery converter. Thus, the batteries rate of charge and discharge will be adjusted on their capacity.

Optimization of the individual SHS is conducted by interconnecting them as an attempt to form a low voltage DC off-grid network. It enables power-sharing mechanism to happen within connected houses. Additional power converters are required to provide bi-directional power flow within coupled houses, and decentralized secondary control needs to be introduced to give an equal independence level between these houses. Direct interconnection on the same voltage level allows the system to be simply coupled through cables, yet the current in the interconnection cable could increase sharply according to the sum of total connected SHS. On the other hand, interconnection in higher voltage level requires additional bi-directional converter between SHS and interconnection cables. However, the current is much lower and, thus provides a better location for high power-consuming loads to be installed.