Session Details
[Th3-P22]Sub area 2-2: Field Performance of Photovoltaic Systems
Thu. Nov 14, 2024 2:00 PM - 3:30 PM JST
Thu. Nov 14, 2024 5:00 AM - 6:30 AM UTC
Thu. Nov 14, 2024 5:00 AM - 6:30 AM UTC
PS-12/Multipurpose Hall (1F)
[Th3-P22-01]Performance assessment of decommissioned photovoltaic modules from utility-scale solar power plants in Thailand
*Amornrat Limmanee1, Nuttakarn Udomdachanut1, Rangson Pluemkamon1, Saifon Kotesopa1, Pratan Kosuwan1, Sampan Sivavorapan1, Nopphadol Sitthiphol1 (1. ENTEC, National Science and Technology Development Agency (Thailand))
[Th3-P22-02]First Approximations for Cleaning of Soil Accumulated at Australian PV Sites
*Abhnil Amtesh Prasad1, Brendan Wright1, John Rodriguez1, Ziv Hameiri1, Merlinde Kay1 (1. University of New South Wales (Australia))
[Th3-P22-03]Investigation of seasonal dust accumulation intensity at four PV power plants surrounded by different types of agricultural areas in a hot and humid climate
*Nattakarn Sakarapunthip1, Tanokkorn Chenvidhya1, Surawut Chuangchote2, Dhirayut Chenvidhya1, Buntoon Wiengmoon3, Yaowanee Sangpongsanont1 (1. CES Solar Cells Testing Center, Pilot Plant Development and Training Institute, King Mongkut’s University of Technology Thonburi (Thailand), 2. Department of Tool and Materials Engineering, Faculty of Engineering, King Mongkut’s University of Technology Thonburi (Thailand), 3. Department of Physic, Faculty of Science, Naresuan University (Thailand))
[Th3-P22-04]Mitigating photovoltaic soiling effects: Field evaluation of a potential hydrophobic nano-coating
*Tarik Alkharusi1, Giuseppe Russo2, Chandan Pandey1, Benjamin H. W. Teo1, Christos N. Markides1 (1. Imperial College London (UK), 2. University of Naples Federico II (Italy))
[Th3-P22-05]Characteristics, Compositions, and Effects of Dust Accumulated on PV Panels in Tropical Agricultural Area
Nattakarn Sakarapunthip1, Tanokkorn Chenvidhya1, Dhirayut Chenvidhya1, Krissanapong Kirtikara1, *Surawut Chuangchote1 (1. King Mongkut's University of Technology Thonburi (Thailand))
[Th3-P22-06]Optimizing Power Generation from East-West Oriented Photovoltaic Systems on Industrial Complex Roofs: A Comparative Analysis
*Jeonghun Park1, Chang-Sik Son1, Donghyun Hwang1 (1. Silla University (Korea))
[Th3-P22-07]On-site PR Testing
*Sicheng Wang1 (1. Energy Research Institute, NDRC (China))
[Th3-P22-08]PV Power On-Site Accurate Testing Methods
*Sicheng Wang1 (1. Energy Research Institute, NDRC (China))
[Th3-P22-09]Investigating performance indicators for grid-scale photovoltaic power plant in India
*NIKHIL PATTATH GOPI1, ARUP DHAR1, RAHUL PACHAURI1, JAIPRAKASH SINGH1 (1. National Institute of Solar Energy (India))
[Th3-P22-10]Optimal weeding scheduling using direct and diffuse irradiances for maximum annual power generation of large-scale photovoltaic power plant
Shigeomi Hara1, *Kento Sugiyama1, Masayuki Kawakubo2 (1. Saga University (Japan), 2. Saga Yoshinogari Solar LLC (Japan))
[Th3-P22-11]Comparison of used PV degradation of different PV technologies using I-V characteristics
*Tanokkorn Chenvidhya Chenvidhya1, Buntoon Wiengmoon2, Yaowanee Sangpongsanont1, Ballang Muenpinij1, Manit Seapan1, Dhirayut Chenvidhya1 (1. King Mongkut's University of Technology Thonburi (Thailand), 2. Naresuan University (Thailand))
[Th3-P22-12]Modelling photovoltaic system output using ERA5 reanalysis data validated with high-resolution actual measurements
*Usman Yahaya1, Dhirayut Chenvidhya1, Tanokkorn Chenvidhya1, Yaowanee Sangpongsanont1, Ballang Muenpinij1 (1. CES Solar Cells Testing Center, Pilot Plant Development and Training Institute, King Mongkut’s University of Technology Thonburi (Thailand))
[Th3-P22-13]Annual degradation rates of five PV technologies over 12.5 years in Japan
*Tetsuyuki Ishii1, Yasuo Chiba2, Minoru Akitomi2, Ritsuko Sato2, Sungwoo Choi2, Atsushi Masuda3 (1. Central Research Institute of Electric Power Industry (Japan), 2. National Institute of Advanced Industrial Science and Technology (Japan), 3. Niigata University (Japan))
[Th3-P22-14]How PV panel imaging under snowy conditions can help estimate the performance ratio
*Issam Smaine1,2, Maxime Darnon3, Gwenaëlle Hamon1,2, Jean-François Lerat1,2 (1. Université de Sherbrooke (Canada), 2. Institut Interdisciplinaire d'Innovation Technologique (Canada), 3. Univ St-Etienne (France))
[Th3-P22-15]Integrating melting effects in Marion snow loss model
*Mebrahtom Woldelibanos Beraki1,2, Issam SMAINE 1,2, Maxime Darnon1,2,3, Jean-François Lerat1,2, Gwenaëlle Hamon1,2 (1. 1Institut Interdisciplinaire d’Innovation Technologique (3IT), Université de Sherbrooke, 3000 Boulevard Université, Sherbrooke, Québec J1K OA5, Canada (Canada), 2. Laboratoire Nanotechnologies Nanosystèmes (LN2) - CNRS UMI-3463, Université de Sherbrooke, 3000 Boulevard Université, Sherbrooke, Québec J1K OA5, Canada (Canada), 3. Laboratoire Hubert Curien, Univ St-Etienne (France))
[Th3-P22-16]Effective irradiance correction for performance loss rate analysis of PV systems
Adham El Zaher1, *Loic Guillemot1 (1. TotalEnergies OneTech (France))
[Th3-P22-17]Analysis of output characteristics of solar modules according to long-term reliability test
*YOUNG-CHUL JU1, SUK-HWAN KO1, HYE-MI HWANG1, WOO-GYUN SHIN1 (1. KOREA INSTITUTE OF ENERGY RESEARCH (Korea))
[Th3-P22-18]Module tilt-dependent snow accumulation and shading of photovoltaics in subarctic Sweden
*Alexander Granlund1, Mattias Lindh1 (1. RISE Research Institutes of Sweden (Sweden))
[Th3-P22-19]Correlation analysis on the convective heat transfer coefficient of outdoor solar panels and nearby weather data
*Kenji Kamide1, Ryoji Funahashi1, Tomoyuki Urata1, Katsuto Tanahashi1 (1. National Institute of Advanced Industrial Science and Technology (AIST) (Japan))
[Th3-P22-20]Fault diagnosis of PV system using machine learning
*Woogyun Shin1, Youngchul Ju1, Hyemi Hwang1, Sukwhan Ko1 (1. Korea Institute of Energy Research (Korea))
[Th3-P22-21]Research on fault diagnosis of photovoltaic array based on current–voltage conversion
*Xiang Chen1, Kun Ding1, Meng Jiang1, Jingwei Zhang1 (1. College of Mechanical and Electrical Engineering, Hohai University (China))
[Th3-P22-22]Study of Remote Safety Diagnosis System for DC part of a PV Power Generation Facility
*Yuhsuke Toda1, Teruo Ikeda1, Kenji Arimatsu2 (1. ITES Co.,Ltd. (Japan), 2. Tohoku Electric Power Co.,Inc. (Japan))
[Th3-P22-23]Failure detection of Photovoltaic system installed in desert climate
Amir A. Abdallah1, *Maulid M. Kivambe1, Claudia Buerhop-Lutz2 (1. Qatar Environment and Energy Research Institute (Qatar), 2. Forschungszentrum Juelich GmbH, Helmholtz Institute Erlangen-Nuernberg for Renewable Energy (Germany))
[Th3-P22-24]Study The Impact of Lightning-Induced Over Voltages on Photovoltaic System Using a Lightning Impulse Generator
Prakasit Sritakaew1, *Wuttikai Tammawan1, Thanet Sriprom2, Anon Namin2, Ekkachai Chaidee1, Wiwat Tippachon1, Jutturit Thongpron2, Uthen Kamnarn2, Kosol Oranpiroj2, Teerasak Somsak2, Worrajuk Muangjai2, Wichet Thipprasert1 (1. Faculty of Electrical Engineering, Rajamangala University of Technology Lanna (RMUTL) Chiang Rai, Thailand (Thailand), 2. Faculty of Electrical Engineering, Rajamangala University of Technology Lanna (RMUTL) Chiang Mai, Thailand (Thailand))
[Th3-P22-25]Fault diagnosis of photovoltaic arrays based on distance characterization of I-V curves
*Kun Ding1, Zenan Yang1, Xiang Chen1, Jingwei Zhang1, Shang Cao2 (1. College of Mechanical and Electrical Engineering, Hohai University, Changzhou (China), 2. Changzhou Key Laboratory of Photovoltaic System Integration and Production Equipment Technology, Changzhou (China))
[Th3-P22-26]Remote fault detection method for residential PV systems through comparative analysis
*Yohei Sumikoshi1, Yuzuru Ueda1 (1. Tokyo University of Science (Japan))
[Th3-P22-27]Assessing Degradation Trends of Residential Photovoltaic Systems and Their Drivers Across Australia
Ali Shakiba1, Abhnil Prasad1, *Brendan Wright1, Nargess Nourbakhsh1, Mike Roberts1, Ziv Hameiri1 (1. University of New South Wales (Australia))
[Th3-P22-28]A comparison of different means for measuring insulation resistance between photovoltaic arrays and the earth: the "self-biased method" and the "low frequency AC current injection technique"
*Takuro Kazama1,2, Kazuhiko Kato1,3 (1. University of Tsukuba (Japan), 2. Hikari Trading Co., Ltd. (Japan), 3. National Institute of Advanced Industrial Science and Technology (Japan))
[Th3-P22-29]Prediction of remaining useful life of photovoltaic array based on extracted model parameters
Shang Cao1, *Jingwei Zhang1, Kun Ding1, Xiang Chen1, Anees Ur Rehman2, Zenan Yang1, Yongjie Liu3 (1. College of Mechanical and Electrical Engineering, Hohai University (China), 2. College of Agricultural Science and Engineering, Hohai University (China), 3. Changzhou Key Laboratory of Photovoltaic System Integration and Production Equipment Technology (China))
[Th3-P22-30]Calculation of Photovoltaic Systems Installation Potential in Planted Treesand Prioritizing Suitable Locations using Analytic Hierarchy Process Method
*Sari Takahashi1, Ryuto Shigenobu1, Akiko Takahashi1, Masakazu Ito1, Masanobu Yoshidomi2 (1. University of Fukui (Japan), 2. Yoshidomi Electric Co., Ltd. (Japan))
[Th3-P22-31]Digital-Twins of Utility PV Systems: PVsyst-based Model Limitations and Implications
*Brendan Foster Wright1, Sijin Wang1, John Rodriguez1, Ziv Hameiri1 (1. University of New South Wales (Australia))
[Th3-P22-32]Variable performance loss rates at different times of the day in a utility-scale PV system
Ali Shakiba1, *Brendan Wright1, John Rodriguez1, Ziv Hameiri1 (1. University of New South Wales (Australia))
[Th3-P22-34]Reliability study on no-gap module with encapsulation material research
*Dongchul Suh1, Sungho Hwang2, Young-su Kim3, Yoonmook Kang2 (1. Hoseo University (Korea), 2. Korea University (Korea), 3. 2Research Institute of Industrial Science and Technology (Korea))
[Th3-P22-35]Reinforcement on thermal dissipation characteristics of bypass diode encapsulated by graphite-mixed silicone potting
*Jiwon Song1, Jaehwan Ko1, Seong-Hyeon Kim1, Hyung-Jun Song1 (1. Seoul National University of Science and Technology (Korea))
[Th3-P22-36]Development of flame -retardant polyolefin based encapsulants and application to modules
*Shiori Shinozaki1, Ken Murasawa1, Motonobu Hamagami1, Atsuo Tsuzuki1, Akihiro Hayakawa1, Shigehiro Ueno1, Taiki Takayama1 (1. Dai Nippon Printing Co., Ltd. (Japan))
[Th3-P22-37]The deviation of the I-V parameters predicts the type of failure of PV modules
*MANIT SEAPAN1, Dhirayut Chenvidhya1, Yaowanee Sangpongsanont1, Kittipob Wiriyavorawet1, Krissanapong Kirtikara1 (1. CES Solar Cells Testing Center, Pilot Plant Development and Training Institute, King Mongkut’s University of Technology Thonburi (Thailand))
[Th3-P22-38]The correlation of EL image and shunt resistance of power degradation module installation on the field in Thailand over 10 years
*Yaowanee - Sangpongsanont1, Manit Seapan1, Tanokkorn Chenvidhya1, Krissanapong Kirtikara1, Dhirayut Chenvidhya1, Ballang Muenpinij1, Panusorn Polchai1 (1. CES Solar Cells Testing Center (CSSC), Pilot Plant Development and Training Institute (PDTI), King Mongkut University of Technology Thoburi (KMUTT) (Thailand))
[Th3-P22-39]Effectiveness of the Sky View Factor for power generation estimation method for vertically installed Bifacial PV modules
*Atsushi Goto1, Ryuto Sigenobu1, Akiko Takahashi1, Masakazu Ito1, Takashi Oozeki2, Kyungsoo Lee3 (1. University of Fukui (Japan), 2. National Institute of Advanced Industrial Science and Technology (Japan), 3. Tech University of Korea (Korea))
[Th3-P22-40]Comparative Analysis of Crystalline Silicon and Bifacial Photovoltaic Systems in Thailand.
*sasiwimon songtrai1, Perawut Chinnavornrungsee2, Vichit Saengsuwan2, Supoj Sodarat2, Sirimongkon Sangkhawong2, Nuwong Chollacoop2, Phasapon Manosukritkul3, Wangpai Lewtaveesap4, Kobsak Sriprapha1 (1. National Electronics and Computer Technology Center (Thailand), 2. National Energy Technology Center (Thailand), 3. King Mongkut’s Institute of Technology Ladkrabang Prince of Chumphon Campus (Thailand), 4. Advanced wireless network company limited (Thailand))
[Th3-P22-41]Comparative Study of Bifacial PERC and Heterojunction Modules for the Semi-Arid Climate
*IMANE FLOUCHI FLOUCHI1 (1. Green energy park (Morocco))
[Th3-P22-42]Establishing a 5kW Building-Integrated Photovoltaic System Using Shingled Solar Modules
*Minseob Kim1,2, Sungmin Youn1, Min-Joon Park1, Eunae Jo1, CheolYeong Park1, kiseok Jeon1,3, Jinho Shin1,2, Eunbi Lee1,3, Yu-Jin Kim1,2, Chaehwan Jeong1 (1. Korea Institute of Industrial Technology (Korea), 2. Chonnam national university (Korea), 3. Yonsei University Seoul (Korea))
[Th3-P22-43]Performance assessment of Bifacial Photovoltaic device with modified GE method to enhance measurement accuracy
*Arup Dhar1,2, Birinchi Bora1, Shazma Malik1, Vamsi Krishna Komarala2, Chandan Banerjee1 (1. National Institute of Solar Energy (India), 2. Indian Institute of Technology Delhi (India))
[Th3-P22-44]Novel method for evaluating the performance of cutting-edge bifacial PV modules: HJT, TOPCon, and PERC
*Khadija El Ainaoui1, Mhammed Zaimi1, Imane Flouchi2, Yasmine El Mrabet2, Said Elhamaoui2, Abdellatif Ghennioui2, El Mahdi Assaid1 (1. Chouaib Doukkali University (Morocco), 2. Green Energy Park (Morocco))
[Th3-P22-45]Interpretation of Calculated Degradation Rate Distributions from Nameplate Values of Photovoltaic Modules
*Ruchita Korgaonkar1, Narendra Shiradkar1 (1. Indian Institute of Technology, Bombay (India))
[Th3-P22-46]Development of recovery techniques for Si PV module performance using spot induction heating
*Yu Kawano1, Takashi Minemoto1 (1. Ritsumeikan University (Japan))
[Th3-P22-47]Study on the different procedures for stabilization of reference solar cells
*Shazma Malik1, Birinchi Bora1, Arup Dhar1,2, Chandan Banerjee1 (1. National Institute of Solar Energy (India), 2. Indian Institute of Technology Delhi (India))
[Th3-P22-48]Performance and simulation study on vertical & agri-PV installations
*Samuel Douillez1, Hugo Ronaldo Paipa Chaparro1, Arthur Poquet1, Martin Poveda1 (1. TotalEnergies)