Optimum insulation thickness and exergy savings of building walls in Bamenda: a comparative analysis

Fodoup Cyrille Vincelas Fohagui; Yemeli Wenceslas Koholé; Njimboh Henry Alombah; Derek Ajesam Asoh; Ghislain Tchuen

Energy Storage and Saving (Mar 2024)

Optimum insulation thickness and exergy savings of building walls in Bamenda: a comparative analysis

Fodoup Cyrille Vincelas Fohagui,
Yemeli Wenceslas Koholé,
Njimboh Henry Alombah,
Derek Ajesam Asoh,
Ghislain Tchuen

Affiliations

Fodoup Cyrille Vincelas Fohagui: Department of Electrical and Electronics Engineering, College of Technology, The University of Bamenda, P.O. Box 39, Bambili, Cameroon; Department of Energetic, Environment and Thermal Engineering, IUT-FV Bandjoun, UR-ISIE, University of Dschang, P.O. Box 134, Bandjoun, Cameroon; Corresponding author at: Department of Electrical and Electronics Engineering, College of Technology, The University of Bamenda, P.O. Box 39, Bambili, Cameroon.
Yemeli Wenceslas Koholé: Department of Energetic, Environment and Thermal Engineering, IUT-FV Bandjoun, UR-ISIE, University of Dschang, P.O. Box 134, Bandjoun, Cameroon
Njimboh Henry Alombah: Department of Electrical and Electronics Engineering, College of Technology, The University of Bamenda, P.O. Box 39, Bambili, Cameroon
Derek Ajesam Asoh: National Higher Polytechnics Institute, and Higher Technical Teacher Training College, The University of Bamenda, P.O. Box 39, Bambili, Cameroon
Ghislain Tchuen: Department of Energetic, Environment and Thermal Engineering, IUT-FV Bandjoun, UR-ISIE, University of Dschang, P.O. Box 134, Bandjoun, Cameroon

Journal volume & issue: Vol. 3, no. 1
pp. 60 – 70

Abstract

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The goal of this study is to examine the energetic, entransy, and exergetic methodologies employed to estimate the ideal insulation thickness for construction walls in terms of cost and ecological impact. To achieve these goals, the life cycle cost analysis-based insulating thicknesses of the various methods are evaluated along with the overall costs, yearly cost reductions, and total expenses. The fuel consumption, CO2 emissions, and ecological effects are then compared using an environmental analysis based on the three methodologies. The savings of hollow concrete brick (HCB), compressed stabilized earth brick (CSEB), and sundried earth brick (SEB) walls are evaluated along with the insulation thicknesses in terms of cost and ecological impact. As a result, it is determined that the exergetic technique is better suited for optimizing insulating width. For CSEB, SEB, and HCB walls, the economic ideal insulation thicknesses are 0.01 m, 0.016 m, and 0.02 m, with yearly financial savings of 5 $/m2, 7.5 $/m2, and 9 $/m2. For CSEB, SEB, and HCB walls, accordingly, the ecological optimal insulation thicknesses are 0.023 m, 0.032 m, and 0.040 m, with net savings of exergetic ecological impact equal to 59 mPts/m2, 55 mPts/m2, and 51 mPts/m2.

Published in Energy Storage and Saving

ISSN: 2772-6835 (Online)
Publisher: KeAi Communications Co., Ltd.
Country of publisher: China
LCC subjects: Technology: Mechanical engineering and machinery: Energy conservation
Website: https://www.keaipublishing.com/en/journals/energy-storage-and-saving/

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