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1

Assessment of the impact of jet impingement technique on the energy efficiency of air-cooled BIPV/T roof tile

Wajs Jan, Łukasik Jakub

Archives of Thermodynamics

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2024

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Vol. 45, no 2

5--18

EN

The paper concerns a numerical analysis of cooling of the hybrid photovoltaic (PV) modules dedicated to Building-Integrated Photovoltaic/Thermal (BIPV/T) systems. Attention was focused on the photovoltaic roof tiles, using a jet impingement technique, in which the intensification of heat transfer is ensured by streams of air hitting the heat exchange partition. A series of numerical simulations were carried out to assess an influence of the distance of the nozzle outlet from the absorber surface on the values of selected thermal-hydraulic performance indicators and the electrical parameters of the roof tile. The results confirmed the high effectiveness of the proposed method. The best effect was obtained for the case in which the relative distance of the nozzle from the partition to the nozzle diameter was equal to 1. For the mentioned configuration, an over 4 times increase in the value of the heat transfer coefficient was obtained in relation to the reference variant of cooling roof tiles. At the same time, the relative increase in the value of the generated electrical power was from 2.9 to 7.8%, depending on the value of the Reynolds number characterising the flow.

2

Cooling techniques for PV panels: A review

Kozak-Jagieła Ewa, Cisek Piotr, Ocłoń Paweł

Scientiae Radices

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2023

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Vol. 2, Iss. 1

47--68

EN

Solar energy is considered one of the most dominant renewable energy sources. It can be used to produce electricity through PV panels. Unfortunatly, this technology is subject to limitations. High operating temperature exceeding 25°C, causes the PV panels to overheat, reducing their lifetime and efficiency. Various approaches to PV cooling are used to overcome these challenges.This paper presents a comprehensive overview of different cooling techniques to increase the performance of PV panels. Passive and active PV cooling systems are analysed using air, water, phase change materials (PCMs) and nanofluids as working agents. A review analysis showed that water cooling is better than air cooling. PCMs, which have recently been gaining in popularity, also deserve attention.

3

Wysokoefektywny hybrydowy panel fotowoltaiczny z minikanałowym kolektorem cieczowym

Lisik Zbigniew, Znajdek Katarzyna, Raj Ewa, Ruta Łukasz, Czarnecki Przemysław

Przegląd Elektrotechniczny

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2023

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R. 99, nr 4

59--62

PL

W artykule zaprezentowano koncepcję wysokoefektywnego hybrydowego panelu fotowoltaicznego wykorzystującego chłodzenie cieczowe. W odróżnieniu od rozwiązań obecnie obecnych na rynku, posiada on część fotowoltaiczną i kolektorową zintegrowane z sobą oraz kolektor cieplny wykonany jako dedykowana płyta chłodząca wyposażona w wysokoefektywny mikrokanałowy wymiennik ciepła. Pozwala to na efektywne chłodzenie ogniw słonecznych i przeciwdziałanie spadkowi ich efektywności w wyniku przegrzania. Zostało to potwierdzone eksperymentalnie.

EN

The article presents the concept of a high-efficient hybrid photovoltaic panel with liquid cooling system. In contrast to other products available on the market, its photovoltaic and thermal collector pars are integrated and the collector is manufactured as a dedicated cold plate covering a high- efficient microchannel heat converter. It allows effective cooling of solar cells and preventing against the decrease of their efficiency due to overheating. It has been proved experimentally.

4

Prototyp hybrydowego panelu fotowoltaicznego z płytą chłodzącą

Czarnecki Przemysław, Ruta Łukasz, Znajdek Katarzyna, Raj Ewa, Lisik Zbigniew

Przegląd Elektrotechniczny

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2022

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R. 98, nr 10

267--270

PL

W artykule zaprezentowano prototyp hybrydowego panelu fotowoltaicznego wykorzystującego chłodzenie cieczowe. W odróżnieniu od innych produktów obecnych na rynku, w których łączone są odrębne części składowe (moduł fotowoltaiczny i kolektor solarny), przedstawione rozwiązanie stanowi całkowicie nowe podejście. Jest to idealnie dopasowana płyta z cieczą chłodzącą, na której bezpośrednio umieszczone są ogniwa fotowoltaiczne. Taki panel, charakteryzujący się niższą, niż w standardowych rozwiązaniach PV/T, rezystancją termiczną, zapewni bardziej efektywne chłodzenie elementów PV.

EN

The article presents a prototype of a hybrid photovoltaic panel with liquid cooling system. In contrast to other products available on the market, in which separate components are combined (photovoltaic module and solar thermal collector), the presented solution is a completely new approach. This is a perfectly tallied cooling liquid plate, on which photovoltaic cells are directly placed. Such a panel, characterized with lower thermal resistance than in standard PV/T solutions, will provide more effective cooling of PV elements.

5

Photovoltaic systems - types of installations, materials, monitoring and modeling - review

Andula Angelika, Heim Dariusz

Acta Innovations

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2020

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no. 34

40--49

EN

Photovoltaic systems have become a common solution for, both small residential buildings as well as large service buildings. When buildings are being designed, it is important to focus on the aspect of the object's energy efficiency as lowering the energy consumption of a given facility is crucial. The article discusses the use of photovoltaic panels such as so-called BAPV (Building Applied Photovoltaics) and BIPV (Building Installed Photovoltaics) installations as well as photovoltaic thermal systems (PV/T), which generate both electricity and heat. The role of PV installation in so-called zero energy buildings and proposals for future research and solutions are also discussed.

6

Management of hybrid renewable energy source in smart building

Szymenderski J., Typańska D.

Poznan University of Technology Academic Journals. Electrical Engineering

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2015

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No. 81

191-196

EN

The paper presents how to manage renewable energy hybrid structure. The first section provides an example of a source hybrid PV/T panel and describes its construction and use. The next section shown the use of KNX installations for thermal management in rooms, presents examples of system configurations and work of the individual elements. The next part is devote to the presentation of the SCADA system and its use as a management software of hybrid sources. In the last part is present an example of model to simulate the operation of the entire system, its properties and describe their control structure.

7

Social-economic benefits of a novel photovoltaic/loop-heat-pipe system and its adaptability in building energy plant

Zhang X.

Czasopismo Techniczne. Budownictwo

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2014

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R. 111, z. 5-B

305--313

EN

This article describes a novel photovoltaic/thermal (PV/T) water heating system. Through incorporating a loop-heat-pipe (LHP) and a heat pump, the system can essentially maximise the electrical return of PV panel, and simultaneously produce a reasonable amount of heat. This system can therefore harvest larger amount of solar energy and enable enhanced system performance. It is expected that such dedicated technology could become the next generation of solar driven heating system and enable a significant reduction of building’s carbon footprint.

PL

Artykuł ten opisuje nowe fotowoltaiczno-termiczne (PV/T) systemy ogrzewania wody. Poprzez włączenie do pętli ciepłowodów (LHP) oraz pompy ciepła system może w istocie zmaksymalizować zwrot elektryczny panelu fotowoltaicznego, a jednocześnie produkować wystarczającą ilość ciepła. System ten może więc zebrać większą ilość energii słonecznej i zwiększyć wydajność systemu. Oczekuje się, że takie dedykowane technologie mogą stać się następną generacją instalacji solarnej j i umożliwić znaczną redukcję emisji dwutlenku węgla.