Effect of Water Spray in Controlling Temperature of Hot Gas Propagation through Double Skin Facade

The rapid development of science and technology have contributed in the applied building design. One of them is the improvement of the construction design of the building envelope. Current high-rise building design impacts in wider building envelop surface area and greater heat load received from th...

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Main Authors: Purba Wolter, Dianti Afiri, Sigalingging Jefri, Gilang Ratnasari Nadhira, Nugroho Yulianto
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20186704038
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spelling doaj-688ca8f8e3de4ec28441eff69e53007d2021-02-02T06:54:49ZengEDP SciencesE3S Web of Conferences2267-12422018-01-01670403810.1051/e3sconf/20186704038e3sconf_i-trec2018_04038Effect of Water Spray in Controlling Temperature of Hot Gas Propagation through Double Skin FacadePurba WolterDianti AfiriSigalingging JefriGilang Ratnasari NadhiraNugroho YuliantoThe rapid development of science and technology have contributed in the applied building design. One of them is the improvement of the construction design of the building envelope. Current high-rise building design impacts in wider building envelop surface area and greater heat load received from the sun irradiation. One of the common used design is the doubleskin façade type building envelope. The insulation characteristic given by the envelope interlayer gap can reduce the heat load received. However, in fire cases, the gap becomes hot gasses path, supporting wider flame propagation. Its position in the outside leads to harder fire suppression effort. During this time, the active fire protection system design has just considering fire scenarios inside the building. This research is conducted to see water droplets impact as extinguisher aspect on interlayer gap hot gasses propagation. The experiment used wooden layer with 540 mm x 80 mm x 6 mm dimention as the envelope layer. The interlayer gap varies among others 30 mm, 50 mm, and 70 mm to see flame output characteristic through and time needed for 4 nozzles to extinguish the flame. The suppression system applied is expected to be a solution in the case of double-skin façade building envelope fire event.https://doi.org/10.1051/e3sconf/20186704038
collection DOAJ
language English
format Article
sources DOAJ
author Purba Wolter
Dianti Afiri
Sigalingging Jefri
Gilang Ratnasari Nadhira
Nugroho Yulianto
spellingShingle Purba Wolter
Dianti Afiri
Sigalingging Jefri
Gilang Ratnasari Nadhira
Nugroho Yulianto
Effect of Water Spray in Controlling Temperature of Hot Gas Propagation through Double Skin Facade
E3S Web of Conferences
author_facet Purba Wolter
Dianti Afiri
Sigalingging Jefri
Gilang Ratnasari Nadhira
Nugroho Yulianto
author_sort Purba Wolter
title Effect of Water Spray in Controlling Temperature of Hot Gas Propagation through Double Skin Facade
title_short Effect of Water Spray in Controlling Temperature of Hot Gas Propagation through Double Skin Facade
title_full Effect of Water Spray in Controlling Temperature of Hot Gas Propagation through Double Skin Facade
title_fullStr Effect of Water Spray in Controlling Temperature of Hot Gas Propagation through Double Skin Facade
title_full_unstemmed Effect of Water Spray in Controlling Temperature of Hot Gas Propagation through Double Skin Facade
title_sort effect of water spray in controlling temperature of hot gas propagation through double skin facade
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2018-01-01
description The rapid development of science and technology have contributed in the applied building design. One of them is the improvement of the construction design of the building envelope. Current high-rise building design impacts in wider building envelop surface area and greater heat load received from the sun irradiation. One of the common used design is the doubleskin façade type building envelope. The insulation characteristic given by the envelope interlayer gap can reduce the heat load received. However, in fire cases, the gap becomes hot gasses path, supporting wider flame propagation. Its position in the outside leads to harder fire suppression effort. During this time, the active fire protection system design has just considering fire scenarios inside the building. This research is conducted to see water droplets impact as extinguisher aspect on interlayer gap hot gasses propagation. The experiment used wooden layer with 540 mm x 80 mm x 6 mm dimention as the envelope layer. The interlayer gap varies among others 30 mm, 50 mm, and 70 mm to see flame output characteristic through and time needed for 4 nozzles to extinguish the flame. The suppression system applied is expected to be a solution in the case of double-skin façade building envelope fire event.
url https://doi.org/10.1051/e3sconf/20186704038
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