Moisture Transfer in Ventilated Facade Structures

Moisture Transfer in Ventilated Facade Structures

This article discusses the phenomenon of moisture transfer in the designs of ventilated facades (VF). The main ways of moisture transfer are defined. The negative factors connected with moisture accumulation and excessive moistening of insulation are given. The physical processes occurring in the ga...

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Main Authors: Olshevskyi Vyacheslav, Statsenko Elena, Musorina Tatiana, Nemova Darya, Ostrovaia Anastasia
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:MATEC Web of Conferences
Online Access:http://dx.doi.org/10.1051/matecconf/20165301010
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spelling doaj-b5af0f47f6c947148f1243741fe376332021-04-02T09:53:52ZengEDP SciencesMATEC Web of Conferences2261-236X2016-01-01530101010.1051/matecconf/20165301010matecconf_spbwosce2016_01010Moisture Transfer in Ventilated Facade StructuresOlshevskyi Vyacheslav0Statsenko Elena1Musorina Tatiana2Nemova Darya3Ostrovaia Anastasia4St. Petersburg State Polytechnical UniversitySt. Petersburg State Polytechnical UniversitySt. Petersburg State Polytechnical UniversitySt. Petersburg State Polytechnical UniversitySt. Petersburg State Polytechnical UniversityThis article discusses the phenomenon of moisture transfer in the designs of ventilated facades (VF). The main ways of moisture transfer are defined. The negative factors connected with moisture accumulation and excessive moistening of insulation are given. The physical processes occurring in the gap of the building envelope due to saturation of air with water vapor are described. The dependence of the intensity of the mass transfer on the air velocity in the layer is considered. Much attention is paid to the selection of the optimum design of the facade, namely a system with or without grooved lines. The dependence of velocity and temperature on the width of the ventilated gap is established empirically for the constructions with open and closed grooves. Expediency of a design without grooves to effectively remove moisture is determined.http://dx.doi.org/10.1051/matecconf/20165301010
collection DOAJ
language English
format Article
sources DOAJ
author Olshevskyi Vyacheslav
Statsenko Elena
Musorina Tatiana
Nemova Darya
Ostrovaia Anastasia
spellingShingle Olshevskyi Vyacheslav
Statsenko Elena
Musorina Tatiana
Nemova Darya
Ostrovaia Anastasia
Moisture Transfer in Ventilated Facade Structures
MATEC Web of Conferences
author_facet Olshevskyi Vyacheslav
Statsenko Elena
Musorina Tatiana
Nemova Darya
Ostrovaia Anastasia
author_sort Olshevskyi Vyacheslav
title Moisture Transfer in Ventilated Facade Structures
title_short Moisture Transfer in Ventilated Facade Structures
title_full Moisture Transfer in Ventilated Facade Structures
title_fullStr Moisture Transfer in Ventilated Facade Structures
title_full_unstemmed Moisture Transfer in Ventilated Facade Structures
title_sort moisture transfer in ventilated facade structures
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2016-01-01
description This article discusses the phenomenon of moisture transfer in the designs of ventilated facades (VF). The main ways of moisture transfer are defined. The negative factors connected with moisture accumulation and excessive moistening of insulation are given. The physical processes occurring in the gap of the building envelope due to saturation of air with water vapor are described. The dependence of the intensity of the mass transfer on the air velocity in the layer is considered. Much attention is paid to the selection of the optimum design of the facade, namely a system with or without grooved lines. The dependence of velocity and temperature on the width of the ventilated gap is established empirically for the constructions with open and closed grooves. Expediency of a design without grooves to effectively remove moisture is determined.
url http://dx.doi.org/10.1051/matecconf/20165301010
work_keys_str_mv AT olshevskyivyacheslav moisturetransferinventilatedfacadestructures
AT statsenkoelena moisturetransferinventilatedfacadestructures
AT musorinatatiana moisturetransferinventilatedfacadestructures
AT nemovadarya moisturetransferinventilatedfacadestructures
AT ostrovaiaanastasia moisturetransferinventilatedfacadestructures
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