Standard

An hourly based performance comparison of an integrated micro-structural perforated shading screen with standard shading systems. / Appelfeld, David; McNeil, Andrew; Svendsen, Svend.

In: Energy and Buildings, Vol. 50, 2012, p. 166-176.

Publication: Research - peer-reviewJournal article – Annual report year: 2012

Harvard

APA

CBE

MLA

Vancouver

Author

Appelfeld, David; McNeil, Andrew; Svendsen, Svend / An hourly based performance comparison of an integrated micro-structural perforated shading screen with standard shading systems.

In: Energy and Buildings, Vol. 50, 2012, p. 166-176.

Publication: Research - peer-reviewJournal article – Annual report year: 2012

Bibtex

@article{4391ffd39f8f479ea599a5c4b3128b14,
title = "An hourly based performance comparison of an integrated micro-structural perforated shading screen with standard shading systems",
keywords = "Shading, Complex fenestration system, Solar gains, Daylight, Building performance modelling",
publisher = "Elsevier S.A.",
author = "David Appelfeld and Andrew McNeil and Svend Svendsen",
year = "2012",
doi = "10.1016/j.enbuild.2012.03.038",
volume = "50",
pages = "166--176",
journal = "Energy and Buildings",
issn = "0378-7788",

}

RIS

TY - JOUR

T1 - An hourly based performance comparison of an integrated micro-structural perforated shading screen with standard shading systems

A1 - Appelfeld,David

A1 - McNeil,Andrew

A1 - Svendsen,Svend

AU - Appelfeld,David

AU - McNeil,Andrew

AU - Svendsen,Svend

PB - Elsevier S.A.

PY - 2012

Y1 - 2012

N2 - This article evaluates the performance of an integrated micro structural perforated shading screen (MSPSS). Such a system maintains a visual connection with the outdoors while imitating the shading functionality of a venetian blind. Building energy consumption is strongly influenced by the solar gains and heat transfer through the transparent parts of the fenestration systems. MSPSS is angular-dependent shading device that provides an effective strategy in the control of daylight, solar gains and overheating through windows. The study focuses on using direct experimental methods to determine bi-directional transmittance properties of shading systems that are not included as standard shading options in readily available building performance simulation tools. The impact on the indoor environment, particularly temperature and daylight were investigated and compared to three other static complex fenestration systems. The bi-directional description of the systems was used throughout the article. The simulations were validated against outdoor measurements of solar and light transmittance.

AB - This article evaluates the performance of an integrated micro structural perforated shading screen (MSPSS). Such a system maintains a visual connection with the outdoors while imitating the shading functionality of a venetian blind. Building energy consumption is strongly influenced by the solar gains and heat transfer through the transparent parts of the fenestration systems. MSPSS is angular-dependent shading device that provides an effective strategy in the control of daylight, solar gains and overheating through windows. The study focuses on using direct experimental methods to determine bi-directional transmittance properties of shading systems that are not included as standard shading options in readily available building performance simulation tools. The impact on the indoor environment, particularly temperature and daylight were investigated and compared to three other static complex fenestration systems. The bi-directional description of the systems was used throughout the article. The simulations were validated against outdoor measurements of solar and light transmittance.

KW - Shading

KW - Complex fenestration system

KW - Solar gains

KW - Daylight

KW - Building performance modelling

U2 - 10.1016/j.enbuild.2012.03.038

DO - 10.1016/j.enbuild.2012.03.038

JO - Energy and Buildings

JF - Energy and Buildings

SN - 0378-7788

VL - 50

SP - 166

EP - 176

ER -