The optimal thermo-optical properties and energy saving potential of adaptive glazing technologies

Favoino, Fabio; Overend, Mauro; Jin, Qian

doi:10.1016/j.apenergy.2015.05.065

Cited by 139 publications

(59 citation statements)

References 32 publications

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“…Thermally insufficient glazing technologies not only cause large amounts of heat loss through building envelope but also negatively affects the thermal comfort of the occupants as recently reported by Vakiloroaya et al [14]. Vacuum glazing [20] and smart windows [21] are also thermally efficient for building applications, but commercialization is still challenging for these special glazing technologies because of their high cost. However in most applications, they are not capable of providing the drastic solution because of some cost, thermal comfort and esthetic matters.…”

Section: Introductionmentioning

confidence: 99%

Novel glazing technologies to mitigate energy consumption in low-carbon buildings: a comparative experimental investigation

Cüce

Cuce

Riffat

2015

Int. J. Energy Res.

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Summary Buildings play a key role in total world energy consumption as a consequence of poor thermal insulation characteristics of facade materials. Among the elements of a typical building envelope, windows are responsible for the greatest energy loss because of their notably high overall heat transfer coefficients. About 60% of heat loss through the building fabric can be attributed to the glazed areas. In this respect, novel cost‐effective glazing technologies are needed to mitigate energy consumption, and thus to achieve the latest targets toward low/zero carbon buildings. Therefore in this study, three unique glazing products called vacuum tube window, heat insulation solar glass and solar pond window which have recently been developed at the University of Nottingham are introduced, and thermal performance analysis of each glazing technology is done through a comparative experimental investigation for the first time in literature. Standardized co‐heating test methodology is performed, and overall heat transfer coefficient (U‐value) is determined for each glazing product following the tests carried out in a calibrated environmental chamber. The research essentially aims at developing cost‐effective solutions to mitigate energy consumption because of windows. The results indicate that each glazing technology provides very promising U‐values which are incomparable with conventional commercial glazing products. Among the samples tested, the lowest U‐value is obtained from the vacuum tube window by 0.40 W/m2K, which corresponds to five times better thermal insulation ability compared to standard air filled double glazed windows. Copyright © 2015 John Wiley & Sons, Ltd.

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Section: Introductionmentioning

confidence: 99%

Novel glazing technologies to mitigate energy consumption in low-carbon buildings: a comparative experimental investigation

Cüce

Cuce

Riffat

2015

Int. J. Energy Res.

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“…New sustainable technology is needed to meet growing global demands for energy, and electrochromics can play an important role in this context . An electrochromic (EC) device is able to regulate its transmittance of visible light and solar energy, and thin‐film devices can be utilized for automatic as well as operator‐based control of glazing in buildings which combine energy efficiency, due to lower need for air conditioning, with good indoor comfort . Not surprisingly there is large and growing interest in EC materials and associated device technology.…”

Section: Introductionmentioning

confidence: 99%

Cation‐/Anion‐Based Electrochemical Degradation and Rejuvenation of Electrochromic Nickel Oxide Thin Films

Primetzhofer

Qiu

et al. 2018

ChemElectroChem

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Ni oxide thin films are widely used in electrochromic (EC) devices with variable throughput of visible light and solar energy. However, the mechanisms underlying the optical modulation – and its degradation under extended operation and subsequent rejuvenation – are poorly understood especially for Li+‐conducting electrolytes. Here, we report a comprehensive study of the EC properties of sputter‐deposited Ni oxide films immersed in an electrolyte of LiClO4 in propylene carbonate. Cyclic voltammetry and optical transmittance measurements were used to document degradation and subsequent potentiostatic rejuvenation. X‐ray diffraction did not show evidence for accompanying changes in crystallinity, whereas vibrational spectroscopy indicated that degraded films had carbonaceous surface layers. Time‐of‐flight elastic recoil detection analysis demonstrated that both Li+ and Cl‐based ions participate in the electrochromism and its degradation and rejuvenation. A major result was that degradation is associated with a reduced difference in the concentrations of Li+ and Cl‐based ions in the nickel oxide during extended electrochemical cycling, and rejuvenation of degraded films is achieved by removal of Li+ ions and accumulation of Cl‐based anions to regain their initial concentration difference. Our work provides new insights into the use of ion‐exchange‐based devices incorporating nickel oxide.

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“…Energy-saving and emission-reduction (ESER) is the ideal choice of building a resource conserving and environment-friendly society. With the deterioration of global resource environment, ESER has attracted increasing attention recently [1][2][3][4]. ESER system should be constructed.…”

Section: Introductionmentioning

confidence: 99%

Investigating carbon tax pilot in YRD urban agglomerations—Analysis of a novel ESER system with carbon tax constraints and its application

Fang

et al. 2017

Applied Energy

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The optimal thermo-optical properties and energy saving potential of adaptive glazing technologies

Cited by 139 publications

References 32 publications

Novel glazing technologies to mitigate energy consumption in low-carbon buildings: a comparative experimental investigation

Novel glazing technologies to mitigate energy consumption in low-carbon buildings: a comparative experimental investigation

Cation‐/Anion‐Based Electrochemical Degradation and Rejuvenation of Electrochromic Nickel Oxide Thin Films

Investigating carbon tax pilot in YRD urban agglomerations—Analysis of a novel ESER system with carbon tax constraints and its application

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