Measurements and Benchmark of PVT – Collectors According To EN 12975 and Development of a Standardized Measurement Procedure

Hofmann, Philipp; Dupeyrat, Patrick; Krämer, Korbinian; Hermann, Michael; Stryi-Hipp, Gerhard

doi:10.18086/eurosun.2010.15.08

Cited by 11 publications

(4 citation statements)

References 6 publications

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“…(2) Reliability and robustness research Although there are many types of research which were conducted to verify the reliability and robustness of concentrators or flat-plate PVT receivers [224,225], investigations on this field of WHR CPVT system rarely appeared in the documents. The reason for this difference is supposed to be the difficulty in developing reliable and robust CPVT receiver.…”

Section: Discussionmentioning

confidence: 99%

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A review of concentrated photovoltaic-thermal (CPVT) hybrid solar systems with waste heat recovery (WHR)

et al. 2017

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Section: Discussionmentioning

confidence: 99%

“…Thus, the development of other related standards is critical for the WHR CPVT systems. The standards on PVT, CSP, CPV, PV, and solar thermal systems [225,232,233] would be helpful for the initial standardization and commercialization of the WHR CPVT systems.…”

Section: Discussionmentioning

confidence: 99%

A review of concentrated photovoltaic-thermal (CPVT) hybrid solar systems with waste heat recovery (WHR)

et al. 2017

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“…The types of solar technology are explained in Hofmann et al (2010) and Ramos et al (2019), where PVT types are distinguished. Thus, and taking into account applications from low to high temperature, PVT collectors can be classified as flat plate or concentration.…”

Section: The Hybrid Photovoltaic-thermal Technologymentioning

confidence: 99%

Modelling, Simulation and Experimental Study of a Hybrid Photovoltaic-Thermal Collector (PVT)

A. Figueiredo Ramos,

N. Alcaso,

J. Marques Cardoso

2023

Proceedings of the International Conference on Industrial Engineering and Operations Management

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Solar energy is among the renewable energies with the highest growth potential in the world. From this primary energy source, one can obtain electrical or thermal energy through different conversion methods, either using the photovoltaic panel or the thermal collector, respectively. The photovoltaic-thermal (PVT) collector is a hybrid solar device that combines, in the same equipment, an electrical energy production module (photovoltaic module) with a thermal energy production module (thermal module). However, the PVT does not have the same maturity as the photovoltaic panels or the thermal collectors that are independently available on the market. As an emerging equipment, it still needs to be further studied and developed, namely in its modelling, among other aspects. This work focuses on a numerical investigation of the PVT technology, with the goal of evaluating how computational mathematical models predict the operating scenarios of an experimentally studied PVT unit. As such, acquired experimental data was analised against simulations of energy and mass balances. The model was validated for the same conditions of the experimental tests, therefore determining the degree of agreement with the data acquired experimentally. A very good general agreement is observed between the simulated and experimental results.

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“…The available solutions can be compared based on the EN 12975 standard for assessing the performance of solar collectors-in particular, panels with the Solar Keymark certificate [61]. PVT hybrid solar collectors combine elements of thermal solar collector technology and PV modules; therefore, they have to meet the requirements of standard EN 12975 for glazed solar collectors as well as standard IEC 61215 for PV modules [62].…”

Section: Photovoltaic Thermal Hybrid Solar Collectorsmentioning

confidence: 99%

The Influence of Weather Conditions on the Optimal Setting of Photovoltaic Thermal Hybrid Solar Collectors—A Case Study

et al. 2020

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The potential absorption of solar energy in photovoltaic thermal (PVT) hybrid solar collectors at different tilt angles was compared in the present study. The optimal tilt angles were tested in three variants: during 1 day, 1 year and a period of 30 years. Simulations were performed based on actual weather data for 30 years, including average hourly total radiation, insolation and air temperature. The apparent movement of the Sun across the sky, solar radiation properties, and the electrical and thermal efficiency of a PVT collector were also taken into account in the simulation model. The optimal orientation of the absorber surface was determined by solving an optimization task. The results of the study indicate that in the long-term perspective, the collector’s performance is maximized when the absorber is positioned toward the south at an elevation angle of 34.1°.

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Measurements and Benchmark of PVT – Collectors According To EN 12975 and Development of a Standardized Measurement Procedure

Cited by 11 publications

References 6 publications

A review of concentrated photovoltaic-thermal (CPVT) hybrid solar systems with waste heat recovery (WHR)

A review of concentrated photovoltaic-thermal (CPVT) hybrid solar systems with waste heat recovery (WHR)

Modelling, Simulation and Experimental Study of a Hybrid Photovoltaic-Thermal Collector (PVT)

The Influence of Weather Conditions on the Optimal Setting of Photovoltaic Thermal Hybrid Solar Collectors—A Case Study

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