Performance Assessment of Concentrated Photovoltaic Thermal (CPVT) Solar Collector at Different Locations

Hosouli, Sahand; Cabral, Diogo; Gomes, João; Kosmadakis, George; Mathioulakis, E.; Mohammadi, Hadi; Loris, Alexander; Naidoo, Adeel

doi:10.18086/swc.2021.22.05

Cited by 3 publications

(2 citation statements)

References 28 publications

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“…A solar heat rejection unit equipped with a dry-cooler is placed in a parallel loop to avoid over-heating, and is engaged with a three-way valve once the collector outlet temperature exceeds 85 • C. Further details of the PVT collector and its characterization are provided in Refs. [27][28][29].…”

Section: Pvt Collectorsmentioning

confidence: 99%

Modeling of an Integrated Renewable-Energy-Based System for Heating, Cooling, and Electricity for Buildings

2023

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An integrated numerical model that describes the operation of a renewable-energy-based system for a building’s heating, cooling, and domestic hot water needs is described in this study. The examined energy system includes a vapor compression multi-source heat pump, PVT collectors, borehole thermal energy storage, and water tanks. Energy balance equations for the collectors and the tanks are coupled with correlations for the heat pump and the piping losses within a thermal network approach. The non-linear system of equations that arises is solved by employing in-house software developed in Python v. 3.7.3. The performance of the numerical tool is validated against measurements collected during the pilot operation of such a system installed in Athens (Greece) for two 5-day periods (summer and winter). It is shown that the proposed model can predict, both qualitatively and quantitatively, the building’s energy system performance, whereas limited deviations from the experimental findings are mostly observed when highly transient phenomena occur. The numerical tool is designed with flexibility in mind and can be easily adapted to accommodate additional energy-system configurations and operational modes. Thus, it can be utilized as a supporting decision tool for new energy systems’ designs and the optimization of existing ones.

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Section: Pvt Collectorsmentioning

confidence: 99%

Modeling of an Integrated Renewable-Energy-Based System for Heating, Cooling, and Electricity for Buildings

2023

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“…A PVT collector is a single unit formed by a combination of photovoltaic (PV) and solar thermal technologies to generate electricity and heat from the same area [2,12,13]. PVT technology can result in higher solar conversion efficiency of the module, leading to better use of the limited roof space.…”

Section: Introductionmentioning

confidence: 99%

Performance Evaluation of Novel Concentrating Photovoltaic Thermal Solar Collector under Quasi-Dynamic Conditions

Hosouli

Gomes

Jahangir

et al. 2023

Solar

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Concentrating Photovoltaic Thermal (CPVT) collectors are suitable for integration in limited roof space due to their higher solar conversion efficiency. Solar sunlight can be used more effectively by CPVT collectors in comparison to individual solar thermal collectors or PV modules. In this study, the experimental investigation of a novel CPVT collector called a PC (power collector) has been carried out in real outdoor conditions, and the test set-up has been designed based on ISO 9806:2013. A quasi-dynamic testing method has been used because of the advantages that this method can offer for collectors with a unique construction, such as the proposed collector, over the steady-state testing method. With a quasi-dynamic testing method, it is possible to characterize the collector within a wide range of incidence angles and a complex incidence angle modifier profile. The proposed novel collector has a gross area of 2.57 m2. A maximum power output per collector unit area of 1140 W is found at 0 °C reduced temperature (1000 W/m2 irradiance level), while at a higher reduced temperature (70 °C), it drops down to 510 W for the same irradiance level. The data have been fitted through a multiple linear regression method, and the obtained efficiency curve coefficients are 0.39, 0.192, 1.294, 0.023, 0.2, 0, −5929 and 0 for Kθd, b0, c1, c2, c3, c4, c5 and c6, respectively. The experimental characterization carried out on the collector proved that the output powers calculated by using the obtained parameters of the quasi-dynamic testing method are in good agreement with experimental points.

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Towards a 100% renewable energy share for heating and cooling in office buildings with solar and geothermal energy

Pilou

Kosmadakis

Meramveliotakis

et al. 2022

Solar Energy Advances

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Performance Assessment of Concentrated Photovoltaic Thermal (CPVT) Solar Collector at Different Locations

Cited by 3 publications

References 28 publications

Modeling of an Integrated Renewable-Energy-Based System for Heating, Cooling, and Electricity for Buildings

Modeling of an Integrated Renewable-Energy-Based System for Heating, Cooling, and Electricity for Buildings

Performance Evaluation of Novel Concentrating Photovoltaic Thermal Solar Collector under Quasi-Dynamic Conditions

Towards a 100% renewable energy share for heating and cooling in office buildings with solar and geothermal energy

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