Automatic monitoring of photovoltaic cells performance on solar aircraft

The development towards the usage of green energy sources is currently a major concern in today's lifestyle due to the limited supply of fossil-based energy. Many have turned to alternative energy resources that are less polluting to the environment. Replacement of the vehicle's fuel-based...

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Main Authors: Sahwee Z., Hussain H., Kadir M.K.A., Razali M.F., Zainol M.Z., Sarmin S.A.
Other Authors: 55524079500
Format: Conference Paper
Published: 2023
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spelling my.uniten.dspace-302302024-04-18T09:26:26Z Automatic monitoring of photovoltaic cells performance on solar aircraft Sahwee Z. Hussain H. Kadir M.K.A. Razali M.F. Zainol M.Z. Sarmin S.A. 55524079500 35607922800 54583766100 57212836659 55675094300 55523946900 Embedded system Health monitoring Photovoltaic monitoring Solar aircraft Solar cells monitoring Embedded systems Energy conversion Photovoltaic cells Solar concentrators Solar power generation Thermoelectric power Alternative energy resources Automatic monitoring Energy conversion technologies Green energy sources Health monitoring Hybrid energy Initial values Low-power microcontrollers Matched load Maximum available power Measurement process On-board batteries Photovoltaic Photovoltaic panels Power out put Research and development Solar aircraft Solar panels Aircraft The development towards the usage of green energy sources is currently a major concern in today's lifestyle due to the limited supply of fossil-based energy. Many have turned to alternative energy resources that are less polluting to the environment. Replacement of the vehicle's fuel-based engine to an electric-based engine by using alternative or hybrid energy is one of the possible paths that many studies are conducted. In the aviation field, harvesting solar energy by using solar panel to charge aircraft on-board batteries could reduce the dependency on fuel. As with any other energy conversion technology, the solar panel performance needs to be monitored so that the power output can always be maintained at maximum available power. This paper presents a research and development of a system to monitor the health of photovoltaic panel installed on aircraft by measuring its voltage and current. The measurement is conducted using low power microcontroller. The system is capable to automatically measure the output of every solar panel installed in the system by connecting them with a matched load during the measurement process. The power output is then compared to the initial values prior to installation to determine how much power is currently being generated. By knowing the actual power output of each solar panel, less efficient or defective panel can be identified and replaced during maintenance. The system can be implemented not only for an aircraft but also applicable to other system that uses solar panel as their energy resources. � (2012) Trans Tech Publications, Switzerland. Final 2023-12-29T07:45:44Z 2023-12-29T07:45:44Z 2012 Conference Paper 10.4028/www.scientific.net/AMM.225.356 2-s2.0-84871119616 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84871119616&doi=10.4028%2fwww.scientific.net%2fAMM.225.356&partnerID=40&md5=9bf52db74f5674b84f4742f311e6bde4 https://irepository.uniten.edu.my/handle/123456789/30230 225 356 360 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Embedded system
Health monitoring
Photovoltaic monitoring
Solar aircraft
Solar cells monitoring
Embedded systems
Energy conversion
Photovoltaic cells
Solar concentrators
Solar power generation
Thermoelectric power
Alternative energy resources
Automatic monitoring
Energy conversion technologies
Green energy sources
Health monitoring
Hybrid energy
Initial values
Low-power microcontrollers
Matched load
Maximum available power
Measurement process
On-board batteries
Photovoltaic
Photovoltaic panels
Power out put
Research and development
Solar aircraft
Solar panels
Aircraft
spellingShingle Embedded system
Health monitoring
Photovoltaic monitoring
Solar aircraft
Solar cells monitoring
Embedded systems
Energy conversion
Photovoltaic cells
Solar concentrators
Solar power generation
Thermoelectric power
Alternative energy resources
Automatic monitoring
Energy conversion technologies
Green energy sources
Health monitoring
Hybrid energy
Initial values
Low-power microcontrollers
Matched load
Maximum available power
Measurement process
On-board batteries
Photovoltaic
Photovoltaic panels
Power out put
Research and development
Solar aircraft
Solar panels
Aircraft
Sahwee Z.
Hussain H.
Kadir M.K.A.
Razali M.F.
Zainol M.Z.
Sarmin S.A.
Automatic monitoring of photovoltaic cells performance on solar aircraft
description The development towards the usage of green energy sources is currently a major concern in today's lifestyle due to the limited supply of fossil-based energy. Many have turned to alternative energy resources that are less polluting to the environment. Replacement of the vehicle's fuel-based engine to an electric-based engine by using alternative or hybrid energy is one of the possible paths that many studies are conducted. In the aviation field, harvesting solar energy by using solar panel to charge aircraft on-board batteries could reduce the dependency on fuel. As with any other energy conversion technology, the solar panel performance needs to be monitored so that the power output can always be maintained at maximum available power. This paper presents a research and development of a system to monitor the health of photovoltaic panel installed on aircraft by measuring its voltage and current. The measurement is conducted using low power microcontroller. The system is capable to automatically measure the output of every solar panel installed in the system by connecting them with a matched load during the measurement process. The power output is then compared to the initial values prior to installation to determine how much power is currently being generated. By knowing the actual power output of each solar panel, less efficient or defective panel can be identified and replaced during maintenance. The system can be implemented not only for an aircraft but also applicable to other system that uses solar panel as their energy resources. � (2012) Trans Tech Publications, Switzerland.
author2 55524079500
author_facet 55524079500
Sahwee Z.
Hussain H.
Kadir M.K.A.
Razali M.F.
Zainol M.Z.
Sarmin S.A.
format Conference Paper
author Sahwee Z.
Hussain H.
Kadir M.K.A.
Razali M.F.
Zainol M.Z.
Sarmin S.A.
author_sort Sahwee Z.
title Automatic monitoring of photovoltaic cells performance on solar aircraft
title_short Automatic monitoring of photovoltaic cells performance on solar aircraft
title_full Automatic monitoring of photovoltaic cells performance on solar aircraft
title_fullStr Automatic monitoring of photovoltaic cells performance on solar aircraft
title_full_unstemmed Automatic monitoring of photovoltaic cells performance on solar aircraft
title_sort automatic monitoring of photovoltaic cells performance on solar aircraft
publishDate 2023
_version_ 1806424331706695680
score 13.219503