American Journal of Mechanical and Materials Engineering

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Analysis of the Thermal Insulation Properties of Rice Husk Ceiling Board Compared to Selected Fibre Based Ceiling Materials Used in Yola Metropolis, Adamawa State Nigeria

Received: Nov. 25, 2017    Accepted: Dec. 09, 2017    Published: Jan. 10, 2018
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Abstract

The thermal conductivity of a material therefore represents the quantity of heat that passes through a meter thickness per square per second with one degree difference in temperature between the faces. Thermal conductivity is regarded as the most important characteristic of a thermal insulation since it affects directly the resistance to transmission of heat that a material offers. The lower the thermal conductivity value, the lower the overall heat transfer in a building material. Hence the study selected three materials namely: Plaster of Paris (P.o.P), Plywood and Isorel (Masonite) used as ceiling boards in Yola, Nigeria and compared to rice husk ceiling board. The selection of these ceiling materials is due to their predominant usage as ceiling materials in the harsh Yola metropolis. The objective of this study is to investigate the thermal insulation properties of rice husk ceiling boards compared to other conventional fibre related ceiling board used in Yola Metropolis in Adamawa State, Nigeria. To achieve this, the steady-state method using Lee-Charton’s apparatus was adopted to analyze the thermal conductivities of the chosen materials. The results obtained showed that, P.o.P exhibits the best insulation property followed by rice husk ceiling board, plywood then Isorel ceiling board with thermal conductivities of 0.12W/mK, 0.48W/mK, 0.82W/mK and 1.08W/mK respectively. Their corresponding thermal resistivities are 6.44mK/W, 4.65mK/W, 2.98mK/W and 1.92mK/W. From the results obtained, it is concluded that P.o.P is the best insulation property followed by rice husk ceiling board among the materials used in the study area. The study therefore provides a guide to intending builders and civil Engineers on the selection of building heat insulation ceiling materials in Yola metropolis as well as other harsh weather zones of tropical Africa.

DOI 10.11648/j.ajmme.20170104.11
Published in American Journal of Mechanical and Materials Engineering ( Volume 1, Issue 4, December 2017 )
Page(s) 83-88
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Rice Husk, Thermal Insulation, P.o.P, Plywood, Isorel (Masonite), Lee-Charlton’s Method

References
[1] Gesa, F. N. Atser A. R. & Aondoakaa, I. S. (2014) Investigation of the thermal insulation properties of selected ceiling materials used in Makurdi Metropolis (Benue State-Nigeria). American Journal of Engineering Research (AJER), 3(11); 245-250.
[2] Mathur, V. K. (2006). Composite materials from local resources. ELSEVIER Journal of Construction and Building Materials, 20 (7), 470–477.
[3] Osada, Y. 2005. Biomechanical properties of high-toughness double network hydrogels. Biomaterials, 26 (21), 4468-4475.
[4] Miller, G. (1999). Building overseas in worm climate. Journal of Construction Technology, 2 (1), 225-234.
[5] Okhakhu, P. A. (2016). Climatic Implications of Environmental Development in Nigeria. Developing Country Studies, 6(3); 50-59 ISSN 2224-607X (Paper) ISSN 2225-0565 (Online).
[6] Satta, P. and Steve F. (2008). Agricultural Waste Materials as Thermal Insulation for Dwellings in Thailand: Preliminary Results. In: PLEA 2008 – 25th Conference on Passive and Low Energy Architecture, Durbin.
[7] Chen, D. Li, J. & Ren, J. (2010). Study on sound absorption property of ramie fiber reinforced poly (L-lactic acid) composites: Morphology and properties. Composite. Part A: Applied Science Manufacture, 41(8); 1012-1023.
[8] Ahiduzzaman, M. (2007) Rice husk energy technologies in bangladesh. agricultural engineering international. The CIGRE Journal. Invited Overview N0.1.:IX.
[9] Ekpunobi, U. E. Ohaekenyem, E. C. Ogbuagu,. S. & Orjiako, E. N. (2015). The Mechanical Properties of Ceiling Board Produced from Waste. British Journal of Applied Science & Technology, 5(2); 166-172.
[10] Korjenic, A., Petranek V., Zach J., & Hroudova J. (2011). Development and performance evaluation of natural thermal insulation materials composed of renewable resources. Energy and Buildings, 4 (25); 18–23.
[11] Lattimer, B. Y. & Ouellette, J. (2006). Properties of composite materials for thermal analysis involving fires, Composites: Part A. The Arabian Journal for Science and Engi- neering, 30 (1A); 121-126.
[12] Onyeaju, M. Osarolube, E. Chukwuocha, E. Ekuma C. & Omasheye, G. (2012). Comparison of the thermal properties of asbestos and polyvinylchloride (pvc) ceiling sheets. Materials Sciences and Applications, 3 (4), 240-244.
[13] Papadopoulos, A. M. (2005). State of the art in thermal insulation materials and aims for future developments. ELSEVIER Journal of Building and Environment, 37(1); 77–86.
[14] Onésippe, C., Passe-Coutrin N., Toro F., Delvasto S., Bilba K. & Marie-Ange A. (2010). Sugar cane bagasse fibres reinforced cement composites: thermal considerations. Composites 2010;41A: 549–56.
[15] Rajput, (2005). Engineering thermodynamics. New Delhi: Lax Mi Publications.
[16] European Committee for Standardization (CEN), (1998). Acoustics-determination of sound absorption coefficient and impedance in impedances tubes-Part 2: transfer-function method. ISO10534-2, CEN, Brussels, Belgium (1998).
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    Gowon Kerter Eric, Bulama Kallamu Hensley. (2018). Analysis of the Thermal Insulation Properties of Rice Husk Ceiling Board Compared to Selected Fibre Based Ceiling Materials Used in Yola Metropolis, Adamawa State Nigeria. American Journal of Mechanical and Materials Engineering, 1(4), 83-88. https://doi.org/10.11648/j.ajmme.20170104.11

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    ACS Style

    Gowon Kerter Eric; Bulama Kallamu Hensley. Analysis of the Thermal Insulation Properties of Rice Husk Ceiling Board Compared to Selected Fibre Based Ceiling Materials Used in Yola Metropolis, Adamawa State Nigeria. Am. J. Mech. Mater. Eng. 2018, 1(4), 83-88. doi: 10.11648/j.ajmme.20170104.11

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    AMA Style

    Gowon Kerter Eric, Bulama Kallamu Hensley. Analysis of the Thermal Insulation Properties of Rice Husk Ceiling Board Compared to Selected Fibre Based Ceiling Materials Used in Yola Metropolis, Adamawa State Nigeria. Am J Mech Mater Eng. 2018;1(4):83-88. doi: 10.11648/j.ajmme.20170104.11

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  • @article{10.11648/j.ajmme.20170104.11,
      author = {Gowon Kerter Eric and Bulama Kallamu Hensley},
      title = {Analysis of the Thermal Insulation Properties of Rice Husk Ceiling Board Compared to Selected Fibre Based Ceiling Materials Used in Yola Metropolis, Adamawa State Nigeria},
      journal = {American Journal of Mechanical and Materials Engineering},
      volume = {1},
      number = {4},
      pages = {83-88},
      doi = {10.11648/j.ajmme.20170104.11},
      url = {https://doi.org/10.11648/j.ajmme.20170104.11},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ajmme.20170104.11},
      abstract = {The thermal conductivity of a material therefore represents the quantity of heat that passes through a meter thickness per square per second with one degree difference in temperature between the faces. Thermal conductivity is regarded as the most important characteristic of a thermal insulation since it affects directly the resistance to transmission of heat that a material offers. The lower the thermal conductivity value, the lower the overall heat transfer in a building material. Hence the study selected three materials namely: Plaster of Paris (P.o.P), Plywood and Isorel (Masonite) used as ceiling boards in Yola, Nigeria and compared to rice husk ceiling board. The selection of these ceiling materials is due to their predominant usage as ceiling materials in the harsh Yola metropolis. The objective of this study is to investigate the thermal insulation properties of rice husk ceiling boards compared to other conventional fibre related ceiling board used in Yola Metropolis in Adamawa State, Nigeria. To achieve this, the steady-state method using Lee-Charton’s apparatus was adopted to analyze the thermal conductivities of the chosen materials. The results obtained showed that, P.o.P exhibits the best insulation property followed by rice husk ceiling board, plywood then Isorel ceiling board with thermal conductivities of 0.12W/mK, 0.48W/mK, 0.82W/mK and 1.08W/mK respectively. Their corresponding thermal resistivities are 6.44mK/W, 4.65mK/W, 2.98mK/W and 1.92mK/W. From the results obtained, it is concluded that P.o.P is the best insulation property followed by rice husk ceiling board among the materials used in the study area. The study therefore provides a guide to intending builders and civil Engineers on the selection of building heat insulation ceiling materials in Yola metropolis as well as other harsh weather zones of tropical Africa.},
     year = {2018}
    }
    

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    AU  - Gowon Kerter Eric
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    T2  - American Journal of Mechanical and Materials Engineering
    JF  - American Journal of Mechanical and Materials Engineering
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    AB  - The thermal conductivity of a material therefore represents the quantity of heat that passes through a meter thickness per square per second with one degree difference in temperature between the faces. Thermal conductivity is regarded as the most important characteristic of a thermal insulation since it affects directly the resistance to transmission of heat that a material offers. The lower the thermal conductivity value, the lower the overall heat transfer in a building material. Hence the study selected three materials namely: Plaster of Paris (P.o.P), Plywood and Isorel (Masonite) used as ceiling boards in Yola, Nigeria and compared to rice husk ceiling board. The selection of these ceiling materials is due to their predominant usage as ceiling materials in the harsh Yola metropolis. The objective of this study is to investigate the thermal insulation properties of rice husk ceiling boards compared to other conventional fibre related ceiling board used in Yola Metropolis in Adamawa State, Nigeria. To achieve this, the steady-state method using Lee-Charton’s apparatus was adopted to analyze the thermal conductivities of the chosen materials. The results obtained showed that, P.o.P exhibits the best insulation property followed by rice husk ceiling board, plywood then Isorel ceiling board with thermal conductivities of 0.12W/mK, 0.48W/mK, 0.82W/mK and 1.08W/mK respectively. Their corresponding thermal resistivities are 6.44mK/W, 4.65mK/W, 2.98mK/W and 1.92mK/W. From the results obtained, it is concluded that P.o.P is the best insulation property followed by rice husk ceiling board among the materials used in the study area. The study therefore provides a guide to intending builders and civil Engineers on the selection of building heat insulation ceiling materials in Yola metropolis as well as other harsh weather zones of tropical Africa.
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Author Information
  • Department of Technology Education, Modibbo Adama University of Technology, Yola, Nigeria

  • Department of Technology Education, Modibbo Adama University of Technology, Yola, Nigeria

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