Ground Thermal Inertia for Energy Efficient Building Design: A Case Study on Food Industry

Mazarrón, Fernando R.; Cid-Falceto, J.; Cañas, Ignacio

doi:10.3390/en5020227

Cited by 34 publications

(25 citation statements)

References 15 publications

(19 reference statements)

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“…All these kinds of resources are able to reduce energy produced by fossil fuel and greenhouse gas emission. Ground has high heat capacity and thermal inertia which absorbs 46% of the sun's energy and makes temperature fluctuation of the ground surface penetrate deeper into the ground at an exponential rate [3,4]. Therefore, a time lag occurs between the temperature fluctuations at the surface and in the ground.…”

Section: Introductionmentioning

confidence: 99%

A Review of Ground Heat Exchangers for Cooling Application in the Malaysian Climate

2015

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The ground heat exchanger (GHE) is one of the energy sources that has been identified since the 1970s which is able to produce sustainable energy for cooling which is in passive side. GHEs are widely implemented around the world, especially in European countries and a few Asian countries. In Malaysia, application of GHE is still considered as a new passive cooling approach in building energy reduction. Therefore, this paper reviews several important ways of implementing GHE in order to supply passive cooling for any application. The review covers general implementation of the GHE for thermal comfort and agricultural greenhouse cooling. The ground temperature variation used in different researches is also reviewed in this paper as an important part of identifying potential GHE implementations. Design and performance aspects of the GHE are also reviewed. Finally, this paper summarizes the potential and benefit of GHE implementation in the Malaysian climate for cooling applications to reduce the energy used in buildings and greenhouse gas emission.

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Section: Introductionmentioning

confidence: 99%

A Review of Ground Heat Exchangers for Cooling Application in the Malaysian Climate

2015

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“…In both cases, conditioned and unconditioned rooms, the environment temperature trend affects the wine-keeping and wine-aging processes. Recently, also for this reason, several researches used energy simulation programs to predict temperature [10] and humidity [25] in wine aging rooms.…”

Section: Definition Of the Target Precisionmentioning

confidence: 99%

Indoor air temperature monitoring: A method lending support to management and design tested on a wine-aging room

Barbaresi

Torreggiani

Benni

et al. 2015

Building and Environment

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“…Essas alterações são relacionadas a fatores como: cor da superfície externa dos componentes (GRANJA; LABAKI, 2003;CHENG;GIVONI, 2005;BRITO;AKUTSU, 2015), orientação solar de aberturas (AKUTSU; VITTORINO, 1990;CLARO, 2010), sombreamento de aberturas, contato do piso com o solo (CHIRAS, 2002;SOUZA et al, 2011;MAZZARRÓN et al, 2012;BRITO et al, 2013) e área envidraçada nos recintos (AKUTSU; VITTORINO, 1990;CLARO, 2010;SALES et al, 2014). Para o último aspecto, Sales et al (2014) mostram que a alteração na área envidraçada na fachada de um recinto habitacional de 15 % da área de piso para 30%, proporciona um aumento de até 3 o C no valor da temperatura máxima do ar interior em ambiente com sistema leve, enquanto, em um sistema pesado, ocorre um aumento da ordem de 0,7 o C.…”

Section: Projeto Padrão De Ensaiounclassified

Necessidade de Revisão dos Métodos de Avaliação do Desempenho Térmico de Edificações no Âmbito da Norma NBR 15575 e do SiNAT

Brito¹,

Sales²,

Vittorino³

et al. 2017

Avaliação De Desempenho De Tecnologias Construtivas Inovadoras: Conforto Ambiental, Durabilidade E Pós-Ocupação

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A Norma NBR 15575 (ABNT, 2013) estabelece três métodos para a avaliação do desempenho térmico: um método simplificado, que envolve cálculos de propriedades térmicas de componentes da envoltória, como paredes externas e cobertura, e dois métodos detalhados, relativos a simulações computacionais ou medições no local.O método simplificado apresenta valores limites para a transmitância e para a capacidade térmica de paredes e também para a transmitância térmica de coberturas. A transmitância térmica é calculada levando em conta as espessuras dos materiais, sua condutividade e resistência térmica de espaços de ar, sendo relacionada ao isolamento térmico do componente, ou seja, suas propriedades em dificultar as trocas de calor entre ambientes. A capacidade térmica é calculada em função das espessuras dos materiais, do calor específico http://dx

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Ground Thermal Inertia for Energy Efficient Building Design: A Case Study on Food Industry

Cited by 34 publications

References 15 publications

A Review of Ground Heat Exchangers for Cooling Application in the Malaysian Climate

A Review of Ground Heat Exchangers for Cooling Application in the Malaysian Climate

Indoor air temperature monitoring: A method lending support to management and design tested on a wine-aging room

Necessidade de Revisão dos Métodos de Avaliação do Desempenho Térmico de Edificações no Âmbito da Norma NBR 15575 e do SiNAT

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