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Advisor(s)
Abstract(s)
Atualmente presenciamos um mundo tecnológico e inovador, em que a cada dia nos são apresentadas novas descobertas e
formas simplificadas de resolver as nossas necessidades de conforto. Esta evolução tem contrapartidas, uma vez que a
dependência energética tem aumentado de forma progressiva e contribuido, deste modo, para um elevado consumo de
energias não renováveis que provocam a escassez de recursos e potenciam as alterações climáticas. O setor dos edifícios,
principalmente os existentes antes da criação do primeiro regulamento térmico, o RCCTE (1990), apresenta-se como um dos
principais consumidores de energia, maioritariamente devido à falta de isolamento térmico ao nível da sua envolvente.
Neste artigo, tendo como base o regulamento atualmente em vigor, o REH, são apresentadas propostas de melhoria do
isolamento térmico para as principais tipologias da envolvente dos edifícios portugueses que consistem na aplicação de
aglomerado negro de cortiça, um material de excelência que é abundante em Portugal e que potencia a sustentabilidade.
Esta informação encontra-se reunida num catálogo, com possibilidade de integração numa aplicação móvel denominada
“Pocket Engineer”, orientando o utilizador no processo de decisão da espessura necessária de cortiça. Esta informação
consisdera aa zona onde a habitação se encontra construída de forma a garantir a temperatura interior de conforto e reduzir
o custo associado à utilização de energias não renováveis.
Nowadays we live in a technological, emerged and innovative world, where every day new discoveries and simplified forms of solving our comfort needs are presented. This evolution has counterparts, since energy dependence has been growing in a progressive way, leading to an elevated consumption of non-renewable energies, which is causing resource scarcity and climate changes. The building sector, mostly the existents before the first thermal regulation (RCCTE, 1990). is one of the major energy consumers mainly because of the lack of thermal insulation of its surroundings. ln this article, and being based on the current regulation, the REH, we present proposals of improvements of thermal insulation for the main typologies of building envelops of the portuguese buildings, consisting at the application of black agglomerate of cork a material of excellence that is abundant in Portugal and strongly promotes sustainability. This information is available in a catalog, with the possibility of using a mobile app named "Pocket Engineer", which was designed to guide the user at the process of decision making regarding the cork thickness needed. This information considers the area where the dwelling is built in order to guarantee a comfortable inside temperature and reduce the cost associated to the use of non-renewable energies.
Nowadays we live in a technological, emerged and innovative world, where every day new discoveries and simplified forms of solving our comfort needs are presented. This evolution has counterparts, since energy dependence has been growing in a progressive way, leading to an elevated consumption of non-renewable energies, which is causing resource scarcity and climate changes. The building sector, mostly the existents before the first thermal regulation (RCCTE, 1990). is one of the major energy consumers mainly because of the lack of thermal insulation of its surroundings. ln this article, and being based on the current regulation, the REH, we present proposals of improvements of thermal insulation for the main typologies of building envelops of the portuguese buildings, consisting at the application of black agglomerate of cork a material of excellence that is abundant in Portugal and strongly promotes sustainability. This information is available in a catalog, with the possibility of using a mobile app named "Pocket Engineer", which was designed to guide the user at the process of decision making regarding the cork thickness needed. This information considers the area where the dwelling is built in order to guarantee a comfortable inside temperature and reduce the cost associated to the use of non-renewable energies.
Description
Keywords
Sustentabilidade Energia Reabilitação Isolamento térmico
Pedagogical Context
Citation
Carlos F. F. Oliveira, João C.G. Lanzinha, 20.03 “SOLUÇÕES TÉCNICAS PARA A REABILITAÇÃO TÉRMICA DE EDIFÍCIOS INCORPORANDO CORTIÇA”, in proceedings of ICEUBI2017 – International Congress on Engineering – “A Vision for the Future”; http://iceubi.ubi.pt/wp-content/uploads/2019/01/ICEUBI2017.livrodeproceedings.pdf, ISBN 978-989-654-403-4 (book of proceedings), ISBN 978-989-654-405-8 (USB Pen drive); ISBN: 978-989-654-402-7 (book of abstracts), Faculty of Engineering, University of Beira Interior, Covilhã, Portugal, 5-7 Dec 17
Publisher
Serviços Gráficos da Universidade da Beira Interior