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Assessment of sandcrete hollow blocks’ thermal performance as a walling material for tropical buildings in Lokoja, Nigeria

Adamu Muhammed (Federal University of Technology, Akure, Nigeria)
Clement Oluwole Folorunso (Federal University of Technology, Akure, Nigeria)
Gabriel Fadairo (Federal University of Technology, Akure, Nigeria)

International Journal of Building Pathology and Adaptation

ISSN: 2398-4708

Article publication date: 8 March 2022

Issue publication date: 12 August 2024

144

Abstract

Purpose

Understanding the thermal performance of sandcrete hollow block walls in the tropic is very essential for occupants' well-being, productivity and efficiency, due to its widespread application in buildings in the study area. Lokoja, in Nigeria, lies in the warm humid zone with its attendant's high temperatures all year round. Thus, providing an acceptable walling material that will control the high indoor air temperature becomes imperative. This paper assessed sandcrete hollow blocks as a walling material used in Lokoja, to determine the thermal performances for effective thermal comfort of the residents.

Design/methodology/approach

It involves the construction of a habitable model building with the commonly available sandcrete hollow blocks in the area. One unit of Cryopak iMINI Temperature and Relative Humidity Data Logger called new generation intelligent iMINI with Serial Number and Product Code MX-CI-145–0009 and MX-HE-S-16-L was installed, to record the indoor air temperature and relative humidity data at an interval of one hour, for 12 months covering dry and wet seasons. The results of the recorded data were downloaded to an excel spread sheet for assessment and analysis throughout the seasons. The values were computed using the temperature–humidity index (THI) equation, with a view to determine the indoor thermal comfort level category.

Findings

The study revealed that sandcrete hollow block walls provide thermal discomfort of the indoor environment for both seasons, with attendant adverse effects in the comfort of the occupants. The paper concludes that proper orientation of buildings, planting of trees, use of low absorbing or reflective surface materials, application of cavity walls to receive insulation materials in between the hollow spaces provided, instead of the single walling as well as providing shading device elements, can improve users' comfort and also ameliorate the heat effect on the external surface of building transferred into the interior by conduction, radiation or convection within the area and in the tropics at large. Other thermally eco-friendly wall materials available in Lokoja includes timber, stabilized laterite–cement blocks, burnt bricks and earth-mud bricks which can be used to replace sandcrete hollow block walls. These alternative wall materials are used for construction of residential and office buildings by the colonial government of Sir Fredrick Lugard in the study area.

Practical implications

The application of sandcrete hollow blocks as a wall material is in vogue, not minding its thermal discomfort to the users and the environment; this is due to its availability and ease of production. The acceptability of this walling material requires holistic study to unravel the best way to reduce the thermal discomfort inherent in its application.

Originality/value

The author succeeded in revealing the thermal performance of sandcrete hollow blocks as walling material in Lokoja, the study area. It is a first attempt at understanding the performance for human comfort in the area. This will greatly assist the resident and other researchers to improve on the application of sandcrete hollow blocks as walling material towards ensuring that maximum indoor thermal comfort is achieved.

Keywords

Citation

Muhammed, A., Folorunso, C.O. and Fadairo, G. (2024), "Assessment of sandcrete hollow blocks’ thermal performance as a walling material for tropical buildings in Lokoja, Nigeria", International Journal of Building Pathology and Adaptation, Vol. 42 No. 4, pp. 653-671. https://doi.org/10.1108/IJBPA-07-2021-0096

Publisher

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Emerald Publishing Limited

Copyright © 2021, Emerald Publishing Limited

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