The effectiveness and functioning of air cavities on architectural heritage with pathology caused by rising damp

IF 1.1 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Journal of Cultural Heritage Management and Sustainable Development Pub Date : 2023-08-10 DOI:10.1108/jchmsd-09-2022-0160
M. Gil-Muñoz, Félix Lasheras-Merino
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Abstract

PurposeRising damp affects the deterioration and conservation of architectural heritage. Air cavities built next to the base of these buildings on an unsaturated floor can reduce the damage to foundations and walls due to this. These are passive systems, which are usually designed with no objective data to show their functioning and effectiveness. This is why the authors are presenting this study.Design/methodology/approachThis study is presented starting with simple field equipment for representative types for a previous cataloguing of cases in Spain. The physical parameters of the air in this research are air speed and evaporation in the cavities and the base, taking the local climate and the particular formal and construction characteristics of each case study as a reference.FindingsThe results of the analysis validate the method and the efficiency of such cavities, whose performance is greater in systems with a variety of features, that is to say, those which work by thermal or wind flow rather than those which only use hygric flow.Originality/valueThis work is novel because there are not in situ experimental works which prove the functioning and effectiveness of these systems.
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升潮病理建筑遗产中空气腔的有效性和功能
目的受潮会影响建筑遗产的退化和保存。在这些建筑物的非饱和地板上,靠近地基的空腔可以减少因此对地基和墙壁的破坏。这些都是被动系统,通常在设计时没有客观数据来显示其功能和有效性。这就是作者提出这项研究的原因。设计/方法/方法本研究从简单的现场设备开始,用于西班牙以前的病例编目中具有代表性的类型。在本研究中,空气的物理参数是空腔和基地的风速和蒸发,并参考了每个案例研究的当地气候和特定的形式和建筑特征。分析结果验证了这种空腔的方法和效率,它在具有多种特征的系统中表现更好,也就是说,那些通过热流或风流工作的系统比那些只使用水力流的系统表现更好。原创性/价值这项工作是新颖的,因为没有现场实验作品证明这些系统的功能和有效性。
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来源期刊
CiteScore
2.90
自引率
10.00%
发文量
63
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