Performance and techno-economic analysis of monocrystalline, multicrystalline and amorphous silicon-based stand-alone photovoltaic power system in Malaysian field conditions / Mohd Nizan Kassim
This research involves the use of renewable energy technology, VIs-a-VIS solar photovoltaic (PV) techno~ogy for providing power. It involves the design, installation, testing, commissioning, monitoring, performance analysis and economic evaluation of three different sets of stand-alone solar PV-b...
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my.uitm.ir.37612023-06-26T01:26:09Z https://ir.uitm.edu.my/id/eprint/3761/ Performance and techno-economic analysis of monocrystalline, multicrystalline and amorphous silicon-based stand-alone photovoltaic power system in Malaysian field conditions / Mohd Nizan Kassim Kassim, Mohd Nizan Power resources Solar energy This research involves the use of renewable energy technology, VIs-a-VIS solar photovoltaic (PV) techno~ogy for providing power. It involves the design, installation, testing, commissioning, monitoring, performance analysis and economic evaluation of three different sets of stand-alone solar PV-battery power PVP systems in Malaysian field conditions, specifically in the Shah Alam area. There were three complete sets of PVP systems using three. different types of modules with their own sets Balance of System (BOS) components. The PV modules used were amorphous silicon (a-Si), monocrystalline silicon (mono-Si) and multicrystalline silicon (multi-Si) technologies, each coupled to a bank of lead acid solar application batteries to meet the designed daily load demands. The monitoring of the PVP systems, along with the relevant environment parameters were done using an automated monitoring system. Details of each systems set-up are presented in this study. Based on the field data, a comparative study between the three PVP systems in terms oftheir techno-economic performance indices were then done. It was found that the a-Si modules gave the highest normalized annual yield at 901kWhkWp-l, followed by the mono-Si at 760kWhkWp-l and then the multi-Si at 730kWhkWp-l. The a-Si modules also gave the highest PR value at 56%, followed by the mono-Si at 47% and then the multi-Si at 46%. However in term of array efficiency the highest was the mono-Si at 8.8%, followed by the multi-Si at 7.4% and lastly the aSi at 3.4%. The a-Si modules had the lowest voltage drop of -31.8mVoC-I , the highest current rise of 4.9mA°C-1 and the lowest power drop at -0.11 WoC-1 , followed by the mono-Si at -32.8mVoC-1 , 4. 19mAoC-1 and -0.7WOC-1 , lastlythemulti-Si at -39.4mVoC-t, 3.2mA°C-1 and -0. 17WoC-1 respectively. In addition, the NOCT values were: a-Si module at 38°C, multi-Si at 57°C and mono-Si at 43°C and these field values differ from the manufacturer specification by 17%, 9% and 0% respectively. Thus it was proven that the a-Si modules worked best in an equatorial climate country. The costs of PV technology and energy generations from the Systems I, II and III were RM 11.7 per kWh, RM 6.4 per kWh and RM 6.2 per kWh respectively which are still high compared to that from the grid. Several recommendations for further study have also been included at the end of this thesis. 2005 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/3761/1/TM_MOHD%20NIZAN%20KASSIM%20AS%2005_5%201.pdf Performance and techno-economic analysis of monocrystalline, multicrystalline and amorphous silicon-based stand-alone photovoltaic power system in Malaysian field conditions / Mohd Nizan Kassim. (2005) Masters thesis, thesis, Universiti Teknologi MARA (UiTM). |
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Power resources Solar energy |
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Power resources Solar energy Kassim, Mohd Nizan Performance and techno-economic analysis of monocrystalline, multicrystalline and amorphous silicon-based stand-alone photovoltaic power system in Malaysian field conditions / Mohd Nizan Kassim |
| description |
This research involves the use of renewable energy technology, VIs-a-VIS solar
photovoltaic (PV) techno~ogy for providing power. It involves the design, installation,
testing, commissioning, monitoring, performance analysis and economic evaluation of
three different sets of stand-alone solar PV-battery power PVP systems in Malaysian
field conditions, specifically in the Shah Alam area. There were three complete sets of
PVP systems using three. different types of modules with their own sets Balance of
System (BOS) components. The PV modules used were amorphous silicon (a-Si),
monocrystalline silicon (mono-Si) and multicrystalline silicon (multi-Si) technologies,
each coupled to a bank of lead acid solar application batteries to meet the designed daily
load demands. The monitoring of the PVP systems, along with the relevant environment
parameters were done using an automated monitoring system. Details of each systems
set-up are presented in this study. Based on the field data, a comparative study between
the three PVP systems in terms oftheir techno-economic performance indices were then
done. It was found that the a-Si modules gave the highest normalized annual yield at
901kWhkWp-l, followed by the mono-Si at 760kWhkWp-l and then the multi-Si at
730kWhkWp-l. The a-Si modules also gave the highest PR value at 56%, followed by
the mono-Si at 47% and then the multi-Si at 46%. However in term of array efficiency
the highest was the mono-Si at 8.8%, followed by the multi-Si at 7.4% and lastly the aSi
at 3.4%. The a-Si modules had the lowest voltage drop of -31.8mVoC-I
, the highest
current rise of 4.9mA°C-1 and the lowest power drop at -0.11 WoC-1
, followed by the
mono-Si at -32.8mVoC-1
, 4. 19mAoC-1 and -0.7WOC-1
, lastlythemulti-Si at -39.4mVoC-t,
3.2mA°C-1 and -0. 17WoC-1 respectively. In addition, the NOCT values were: a-Si
module at 38°C, multi-Si at 57°C and mono-Si at 43°C and these field values differ from
the manufacturer specification by 17%, 9% and 0% respectively. Thus it was proven
that the a-Si modules worked best in an equatorial climate country. The costs of PV
technology and energy generations from the Systems I, II and III were RM 11.7 per
kWh, RM 6.4 per kWh and RM 6.2 per kWh respectively which are still high compared
to that from the grid. Several recommendations for further study have also been
included at the end of this thesis. |
| format |
Thesis |
| author |
Kassim, Mohd Nizan |
| author_facet |
Kassim, Mohd Nizan |
| author_sort |
Kassim, Mohd Nizan |
| title |
Performance and techno-economic analysis of monocrystalline, multicrystalline and amorphous silicon-based stand-alone photovoltaic power system in Malaysian field conditions / Mohd Nizan Kassim |
| title_short |
Performance and techno-economic analysis of monocrystalline, multicrystalline and amorphous silicon-based stand-alone photovoltaic power system in Malaysian field conditions / Mohd Nizan Kassim |
| title_full |
Performance and techno-economic analysis of monocrystalline, multicrystalline and amorphous silicon-based stand-alone photovoltaic power system in Malaysian field conditions / Mohd Nizan Kassim |
| title_fullStr |
Performance and techno-economic analysis of monocrystalline, multicrystalline and amorphous silicon-based stand-alone photovoltaic power system in Malaysian field conditions / Mohd Nizan Kassim |
| title_full_unstemmed |
Performance and techno-economic analysis of monocrystalline, multicrystalline and amorphous silicon-based stand-alone photovoltaic power system in Malaysian field conditions / Mohd Nizan Kassim |
| title_sort |
performance and techno-economic analysis of monocrystalline, multicrystalline and amorphous silicon-based stand-alone photovoltaic power system in malaysian field conditions / mohd nizan kassim |
| publishDate |
2005 |
| url |
https://ir.uitm.edu.my/id/eprint/3761/1/TM_MOHD%20NIZAN%20KASSIM%20AS%2005_5%201.pdf https://ir.uitm.edu.my/id/eprint/3761/ |
| _version_ |
1769846455538810880 |
| score |
13.160551 |