Providing electricity supply to houses in rural areas (Project D)

Providing electricity supply to houses in rural areas (Project D)

Undeveloped countries like Afghanistan do not have access to modern forms of energy, such as electricity, gas and liquid fuels. They rely upon traditional fuels to meet their daily needs but it results in adverse impact on the environment. Indoor air pollution increased when these traditional fuels...

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Main Author: Ong, Reuben Wei Jie.
Other Authors: Chan Chok You, John
Format: Final Year Project
Language:English
Published: 2013
Subjects:
DRNTU::Engineering
Online Access:http://hdl.handle.net/10356/54424
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-544242023-07-07T16:28:33Z Providing electricity supply to houses in rural areas (Project D) Ong, Reuben Wei Jie. Chan Chok You, John School of Electrical and Electronic Engineering DRNTU::Engineering Undeveloped countries like Afghanistan do not have access to modern forms of energy, such as electricity, gas and liquid fuels. They rely upon traditional fuels to meet their daily needs but it results in adverse impact on the environment. Indoor air pollution increased when these traditional fuels were burned and this impacted on the well-being of the citizens. Therefore, alternative ways of harnessing energy have to be explored in Afghanistan. Renewable and sustainable energy such as solar energy can be taken into account in Afghanistan. Solar energy is the most abundant renewable source of energy, given that around 300 days in a year were sunny in the country. A photovoltaic power system has to be designed and built for the country. This power system uses solar panels that will collect solar energy and convert them into electricity to replace the traditional way which impacted the health of the citizens and the environment. The system has to be smart so that the life spans of the equipments can prolong and the production cost has to be cheap so that the citizens living in the rural areas would be able to afford. The system will consist of a charge controller, inverter, solar tracker and a graphical user interface. The charge controller and GUI will be used to monitor the status of the battery to prevent it from overcharged and damaged. An inverter will be built to convert the DC into AC power for the citizens to power up lightings and non-power hungry appliances. Solar tracker will be implemented to track and collect the maximum solar energy and harness into solar power. The circuit designs used for the hardware portion are crucial for the operations of the charge controller, inverter and solar tracker. The software portion of the GUI will be done using Labview. Everything will be built from scratch instead of purchasing commercially to keep the system at the lowest for the citizens. Bachelor of Engineering 2013-06-20T03:18:38Z 2013-06-20T03:18:38Z 2013 2013 Final Year Project (FYP) http://hdl.handle.net/10356/54424 en Nanyang Technological University 68 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering
spellingShingle DRNTU::Engineering
Ong, Reuben Wei Jie.
Providing electricity supply to houses in rural areas (Project D)
description Undeveloped countries like Afghanistan do not have access to modern forms of energy, such as electricity, gas and liquid fuels. They rely upon traditional fuels to meet their daily needs but it results in adverse impact on the environment. Indoor air pollution increased when these traditional fuels were burned and this impacted on the well-being of the citizens. Therefore, alternative ways of harnessing energy have to be explored in Afghanistan. Renewable and sustainable energy such as solar energy can be taken into account in Afghanistan. Solar energy is the most abundant renewable source of energy, given that around 300 days in a year were sunny in the country. A photovoltaic power system has to be designed and built for the country. This power system uses solar panels that will collect solar energy and convert them into electricity to replace the traditional way which impacted the health of the citizens and the environment. The system has to be smart so that the life spans of the equipments can prolong and the production cost has to be cheap so that the citizens living in the rural areas would be able to afford. The system will consist of a charge controller, inverter, solar tracker and a graphical user interface. The charge controller and GUI will be used to monitor the status of the battery to prevent it from overcharged and damaged. An inverter will be built to convert the DC into AC power for the citizens to power up lightings and non-power hungry appliances. Solar tracker will be implemented to track and collect the maximum solar energy and harness into solar power. The circuit designs used for the hardware portion are crucial for the operations of the charge controller, inverter and solar tracker. The software portion of the GUI will be done using Labview. Everything will be built from scratch instead of purchasing commercially to keep the system at the lowest for the citizens.
author2 Chan Chok You, John
author_facet Chan Chok You, John
Ong, Reuben Wei Jie.
format Final Year Project
author Ong, Reuben Wei Jie.
author_sort Ong, Reuben Wei Jie.
title Providing electricity supply to houses in rural areas (Project D)
title_short Providing electricity supply to houses in rural areas (Project D)
title_full Providing electricity supply to houses in rural areas (Project D)
title_fullStr Providing electricity supply to houses in rural areas (Project D)
title_full_unstemmed Providing electricity supply to houses in rural areas (Project D)
title_sort providing electricity supply to houses in rural areas (project d)
publishDate 2013
url http://hdl.handle.net/10356/54424
_version_ 1772827815092158464

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