Aerogel-Assisted Support Pillars for Thermal Performance Enhancement of Vacuum Glazing: A CFD Research for a Commercial Product

Cüce, Erdem; Riffat, Saffa

doi:10.1007/s13369-015-1727-5

Cited by 46 publications

(9 citation statements)

References 35 publications

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“…Windows are the main units of the building envelope for the ventilation of buildings, solar energy gain, and easy visibility from outside [22]- [24]. On the other hand, what kind of role they play in the total energy consumption in buildings is uncertain.…”

Section: Production Of Solar Glass Panelmentioning

confidence: 99%

Cam Güneş Panelleri: Bir Derleme

Karasu

Oytaç

Ergani

et al. 2020

European Journal of Science and Technology

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The need for energy sources in the world is gradually increasing day by day. Photovoltaics (PVs) usage has worldwidely spread thanks to the efficiency and reliability increase and price decrease of solar panels. The photovoltaic (PV) glazing technique is a preferred method in modern architecture because of its aesthetic properties besides electricity generation. Traditional PV glazing systems are mostly produced from crystalline silicon solar cells (c-SiPVs). The development of low-cost PV cells for the production of costeffective and energy-saving glass systems has been of great interest. Solar control glass which is one of the crucial components of PV panels is largely employed for architectural and automotive windows to lower the sunlight and heat inlet for the comfort. Hereby a general overview of solar glass panels is presented.

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Section: Production Of Solar Glass Panelmentioning

confidence: 99%

Cam Güneş Panelleri: Bir Derleme

Karasu

Oytaç

Ergani

et al. 2020

European Journal of Science and Technology

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“…As reported by Jelle et al [66], SPACIA-21 a product from the Pilkington Company (Tokyo, Japan) (Figure 9), shows excellent promise with an overall heat loss coefficient of 0.70 W/m 2 K and a small external thickness of 21 mm, as opposed to a comparable multilayer glazing configuration at 40 mm. Cuce and Riffat [67] included translucent aerogel support pillars into a vacuum glazing design and modelled their impact on thermal performance and found a 44% reduction in the panels U-value. The authors indicated that a lower U-value could be reached if the number and distribution of the support pillars is optimised.…”

Section: Glazing Layersmentioning

confidence: 99%

Thermal Performance through Heat Retention in Integrated Collector-Storage Solar Water Heaters: A Review

et al. 2018

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Solar thermal systems are a long-standing technology that is receiving increased attention, in terms of research and development, due to ambitious climate change targets and the need for renewable energy solutions. Integrated collector-storage solar water heaters (ICSSWHs) are a potential contributing solution and numerous studies have focussed on the optimisation of their thermal performance and efficiency. A major drawback of these systems is the heavy heat losses experienced during non-collection periods. To combat this, various heat retention strategies have been proposed and evaluated, including baffles plates, additional insulation, multiple glazing layers, selective coatings, and phase change materials. This paper aims to bring together these studies through a systematic review of the existing literature surrounding the performance of ICSSWH systems, focusing on heat retention. This review provides a comprehensive and up-to-date point of reference on relevant research and developments for researchers in this field.

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“…Further reports reveal that space cooling-related energy use shows 60% rise from 2000 to 2010, which corresponds to 4% of global energy consumption in 2010 [8]. Remarkable influence of buildings on heating and cooling demand can be easily ascribed to the insufficient thermal insulation performance of building elements such as external walls, windows, roofs and floors [9][10][11][12][13][14][15]. In this respect, intensive studies are carried out to improve the thermal insulation performance of the aforesaid building elements notably external walls in a renewable, low-cost and ecofriendly manner [16].…”

Section: Introductionmentioning

confidence: 99%

Improving thermal resistance of lightweight concrete hollow bricks: A numerical optimisation research for a typical masonry unit

Cüce

Cuce

Besir

2020

Journal of Energy Systems

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Heat loss/gain through the walls accounts for about 30% of the total building energy losses. Bricks are indispensable parts of buildings as a very common masonry wall unit; hence the present work aims at optimising thermal resistance of lightweight concrete hollow bricks through a CFD based numerical research. The optimisation is conducted over a certain number of independent variables such as hollow geometry and design, number of hollow rows across the heat transfer path and hollow depth for natural convection aspects within the hollow enclosure. A reliable CFD software ANSYS FLUENT 18.1 is utilised in the research. The accuracy of the CFD results is justified first through the reference model brick (RMB). Overall heat transfer coefficient (U-value) of RMB is determined to be 0.916 W/m2. K, which is in good accordance with the manufacturer's data report (0.9 W/m2.K). Following this, parametric research is carried out for various scenarios to optimise the U-value as a function of brick mass. Based on the findings, the maximum improvement is found to be about 53% (U-value 0.43 W/m2. K) through the case of B48 which has an h-ratio of 1 (continuous hollow from top to bottom). Moreover, depending on the increase in h-ratio, it is achieved that the thermal performance of the bricks proportionally increases. The minimum weight of the brick design (B45) is found to be 7.645 kg and the corresponding U-value is obtained as 0.44 W/m2. K.

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Aerogel-Assisted Support Pillars for Thermal Performance Enhancement of Vacuum Glazing: A CFD Research for a Commercial Product

Cited by 46 publications

References 35 publications

Cam Güneş Panelleri: Bir Derleme

Cam Güneş Panelleri: Bir Derleme

Thermal Performance through Heat Retention in Integrated Collector-Storage Solar Water Heaters: A Review

Improving thermal resistance of lightweight concrete hollow bricks: A numerical optimisation research for a typical masonry unit

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