A new low-temperature hermetic composite edge seal for the fabrication of triple vacuum glazing

Memon, Saim; Farukh, Farukh; Eames, Philip C.; Silberschmidt, Vadim V.

doi:10.1016/j.vacuum.2015.06.024

Cited by 58 publications

(51 citation statements)

References 16 publications

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“…It can be seen that an increase in the frame percentage of the total window area decreases the value of Uw for single, double air glazed and double argon glazed windows. It is because of the frame thermal transmittance (Uf value) is smaller than that of [21] centre-of-pane thermal transmittance (Ug value). Increasing the frame percentage area of the total window, in the case of triple air glazing, the Uw values calculated were nearly the same to the frame Uf value (i.e.…”

Section: Simulation Methodologymentioning

confidence: 91%

“…To reduce the heat loss to a level where the U-value is less than 0.5 Wm -2 K -1 , the concept of triple vacuum glazing was introduced [18] and the best predicted U-value of 0.26 Wm -2 K -1 was reported [19]. In this paper the achievable U-value of a new fabricated sample of composite edge sealed triple vacuum glazing [20][21][22] 0.33 Wm -2 K -1 is used to predict and analyse the implications on heating energy savings, solar energy gains and heat loss in the UK solidwall dwelling in comparison to a range of conventional window types, i.e. single glazed, double air glazed, double argon glazed, triple air glazed windows.…”

Section: Introductionmentioning

confidence: 99%

“…A composite edge sealed triple vacuum glazing consists of three sheets of tin-oxide (SnO2) coated k-glass, an airtight seal around the edge of the three glass sheets, and two evacuated cavities at a pressure below 0.1 Pa to decrease heat transfer by gaseous conduction and convection to a negligible level. Radiative heat transfer can further be minimised to a low level by using soft low-emittance coatings, such as silver (Ag) on the surfaces of the glass sheets [16,21]. An ordered arrangement of stainless steel support pillars, typically 0.15 mm high and 0.3mm diameter, maintain the separation of the three glass sheets [19].…”

Section: Introductionmentioning

confidence: 99%

“…An ordered arrangement of stainless steel support pillars, typically 0.15 mm high and 0.3mm diameter, maintain the separation of the three glass sheets [19]. Details of the fabrication and predicted thermal performance are reported elsewhere [21] while the sample design is illustrated in Fig. 1. …”

Section: Introductionmentioning

confidence: 99%

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Solar Energy Gain and Space-Heating Energy Supply Analyses for Solid-Wall Dwelling Retrofitted with the Experimentally Achievable U-value of Novel Triple Vacuum Glazing

Memon

Eames

2017

Journal of Daylighting

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A considerable effort is devoted to devising retrofit solutions for reducing space-heating energy in the domestic sector. Existing UK solid-wall dwellings, which have both heritage values and historic fabric, are being improved but they tend to have meagre thermal performance, partly, due to the heat-loss through glazings. This paper takes comparative analyses approach to envisage space-heating supply required in order to maintain thermal comfort temperatures and attainable solar energy gains to households with the retrofit of an experimentally achievable thermal performance of the fabricated sample of triple vacuum glazing to a UK solid-wall dwelling. 3D dynamic thermal models (timely regimes of heating, occupancy, ventilation and internal heat gains) of an externally-insulated solidwall detached dwelling with a range of existing glazing types along with triple vacuum glazings are modelled. A dramatic decrease of space-heating load and moderate increase of solar gains are resulted with the dwelling of newly achievable triple vacuum glazings (having centre-of-pane U-value of 0.33 Wm -2 K -1 ) compared to conventional glazing types. The space-heating annual cost of single glazed dwellings was minimised to 15.31% (≈USD 90.7) with the retrofit of triple-vacuum glazings. An influence of total heat-loss through the fabric of solid-wall dwelling was analysed with steady-state calculations which indicates a fall of 10.23% with triple vacuum glazings compared to single glazings.

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Section: Simulation Methodologymentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Solar Energy Gain and Space-Heating Energy Supply Analyses for Solid-Wall Dwelling Retrofitted with the Experimentally Achievable U-value of Novel Triple Vacuum Glazing

Memon

Eames

2017

Journal of Daylighting

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“…In this paper, the design, development, fabrication methods and U-value predictions of a new dual-edge sealed triple vacuum glazing are reported. A dual-edge seal is hermetic and it consists of Cerasolzer alloy CS186 as a main seal and J-B weld epoxy steel resin as a support seal (Memon et al, 2015). A triple vacuum glazing consists of three SnO2 coated k-glass sheets, air-tight sealed around the edges, with evacuated two narrow (0.15mm high) cavities having a pressure of 0.01 Pa. A regular square array of stainless steel support pillars, typically 0.15mm high and 0.3mm diameter spaced at 24mm, maintains the separation of three glass sheets under the effects of atmospheric and vacuum pressure.…”

Section: Introductionmentioning

confidence: 99%

Design, Development and Thermal Performance Analysis of Ultra-Low Heat Loss Triple Vacuum Glazing

Memon¹

2017

Proceedings of SWC2017/SHC2017

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Heat loss through windows of buildings is one of the significant causes of high-energy consumption that require intervention to advance their thermal performance in a move towards net-zero energy buildings. Highperformance triple vacuum glazing features ultra-low heat loss that maintains the transparency, regardless of tiny pillar spots, and slimness due to its narrow evacuated cavities. This study reports the design and development of high-vacuum system with the modified vacuum cup which provides an effective pump-out hole sealing and has an achievable vacuum pressure of 4.02x10 -5 Pa. A new dual-edge seal (low temperature melt 186˚C) consists of Cerasolzer CS186 alloy as a main and J-B Weld epoxy steel adhesive as a support seal is developed and the triple vacuum glazing (area of 300 x 300mm) samples are fabricated, in which the vacuum pressure of 4.8x10 -2 Pa is achieved. A 3D FEM of the fabricated triple vacuum glazed is developed and the centre-of-pane and overall U-value of 0.33Wm -2 K -1 and 1.05 Wm , respectively, are predicted.

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The Scope of Advanced Smart Vacuum Insulation Technologies for Net Zero Energy Buildings

Memon¹

2022

Innovative Renewable Energy

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The conception at which, modernly, buildings are being aspired to achieve to be net zeroenergy buildings (NZEBs) are broadly recognized. The heat loss through the windows of buildings is one of the factors contributing to high energy consumption for space heating ensuing in preventable carbon emissions. This talk/paper aims to present the novel constructions and performance attributes of the advanced smart vacuum insulation technologies that are: (i) Vacuum Glazing (VG), (ii) Triple Vacuum Glazing (TVG), (iii) Electrochromic Vacuum Glazing (EVG), (iv) Semi-transparent Photovoltaic Electrochromic Vacuum Quadruple Glazing (STPV-EVQG), (v) Translucent Vacuum Insulation Panel (TVIP), and (vi) Fusion-sealed Vacuum Glazing (FVG). The experimental results show VG achieved U-value of 0.97 Wm -2 K -1 , it was further reduced with TVG that achieved U-value of 0.33 Wm -2 K -1 . To control the solar heat gains from 0.41 (transparent mode) to 0.13 (opaque mode), ECG is constructed that achieved a U-value of 0.82 Wm -2 K -1 , it required electrical power of < 0.4 Wm -2 . To make it self-reliant, the semi-transparent PV glazing was integrated to EVG to supply the power and store the generated energy using NiMH battery, the STPV-EVQG achieved U-value of 0.7 Wm -2 K -1 . Due to the cost/edge-effects of hermetic glass edge-sealing materials, a new structured core transparent vacuum insulation panel (TVIP) is constructed, to accomplish insulation for the windows without edge sealing effects, that achieved U-value of 1.72 Wm -2 K -1 but suffered the vacuum pressure degradation. The development of a novel cost-effective fusion seal for the construction of fusion-sealed vacuum glazing (FVG) is detailed that achieved the U-value of 1.24 Wm -2 K -1 .

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A new low-temperature hermetic composite edge seal for the fabrication of triple vacuum glazing

Cited by 58 publications

References 16 publications

Solar Energy Gain and Space-Heating Energy Supply Analyses for Solid-Wall Dwelling Retrofitted with the Experimentally Achievable U-value of Novel Triple Vacuum Glazing

Solar Energy Gain and Space-Heating Energy Supply Analyses for Solid-Wall Dwelling Retrofitted with the Experimentally Achievable U-value of Novel Triple Vacuum Glazing

Design, Development and Thermal Performance Analysis of Ultra-Low Heat Loss Triple Vacuum Glazing

The Scope of Advanced Smart Vacuum Insulation Technologies for Net Zero Energy Buildings

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