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Seasonal variations in indoor air quality parameters and occupants self-reported physical health within a warm humid climatic environment (2020)

Orola, Bode Abiodun

EDP Sciences

In: Sustainable Buildings. 2020; 5: 2. Published 2020 Jan 01. doi: 10.1051/sbuild/2020001.

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Publication Date: 2020-01-01

Description: This study examines seasonal variations in Indoor Air Quality in occupied spaces within student hostels of Obafemi Awolowo University, Nigeria, and the associated physical health effects reported by occupants. Indoor Air Quality data were obtained from 22 selected rooms, with at least two rooms selected from the nine different spatial design layouts identified in the hostel buildings. Indoor Air Quality parameters obtained were 15-minute interval data of relative humidity, as well as concentrations of carbon dioxide, total volatile organic compounds, and particulate matters. These were measured with data loggers placed at 1.0 m from the floor level in the centre of selected rooms. Measurements were taken in selected rooms through a period of four consecutive weeks each during the peaks of dry and wet seasons. A questionnaire, which was administered immediately at the end of the measurement period to 696 respondents, was used to capture the significant physical health symptoms as reported by the occupants, as well as information regarding their activities and use of the rooms. Significant health symptoms reported by occupants were the same across seasons. These were cold, fatigue, and headache. Indoor concentrations of carbon dioxide and particulate matters have most significant relationship with reported health symptoms.

Electronic ISSN: 2492-6035

Topics: Architecture, Civil Engineering, Surveying

Published by EDP Sciences

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Analysis of the potential use of Trombe walls in Brazil: design recommendations (2020)

de Melo Sá Cavalcanti, Fernando Antonio ; Caram, Rosana Maria

EDP Sciences

In: Sustainable Buildings. 2020; 5: 4. Published 2020 Jan 01. doi: 10.1051/sbuild/2020003.

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Publication Date: 2020-01-01

Description: In this paper, the thermal performance of a standard environment was evaluated based on the use of a Trombe wall with different configurations and types of use, as the potential for using this passive strategy is still little studied in Brazil. This device is capable of absorbing energy from solar radiation by heating the air in this greenhouse and this heated air can be directed to the interior or exterior of the building depending on the purpose. This air can be used to heat the room or cool it by means of natural ventilation. The analysis of this research was based on a series of computer simulations using the EnergyPlus software, version 7.0 in order to quantify and classify the thermal performance of a standard environment equipped with this component, under the various construction configurations. Both for heating and cooling environments. The use of Trombe walls improved the thermal comfort of users in buildings located in Brazil, depending on the climate where they are located, promoting natural ventilation and passive solar heating, allowing the potential of this device to be investigated in the most diverse Brazilian regions.

Electronic ISSN: 2492-6035

Topics: Architecture, Civil Engineering, Surveying

Published by EDP Sciences

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Briefing: task force for climate financial disclosures (TCFD) for the property and construction industry (2020)

Siew, Renard

EDP Sciences

In: Sustainable Buildings. 2020; 5: 3. Published 2020 Jan 01. doi: 10.1051/sbuild/2020002.

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Publication Date: 2020-01-01

Description: The property and construction industry are known to be a main contributor to climate change contributing more than 40% of the world's emissions. In direct response to this, there has been a call for corporations to be more transparent and align themselves to the requirements of the task force for climate financial disclosures (TCFD). This paper seeks to provide a briefing on the requirements of the TCFD. It highlights common challenges faced by the property and construction industry in implementing TCFD such as the difficulty in integrating climate related risks and translating them into quantitative measures, lack of capability within the industry to understand the complexities of climate risks and data collection issues among others. Recommendations are proposed to address these issues including setting up an industry specific network to share best practices in TCFD, harmonisation of existing frameworks to include TCFD requirements and exploring opportunities for incentivisation and rewards for early movers. This paper will be useful to property and construction industry practitioners who are looking at aligning to the requirements of the TCFD.

Electronic ISSN: 2492-6035

Topics: Architecture, Civil Engineering, Surveying

Published by EDP Sciences

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