Thermal conductivity of selected tropical timber using hot box method / Raihana Mohamad Hata
In this study, thermal conductivity of selected tropical timber species was measured using Hot Box method. Each of the selected timber species represent hardwood and softwood as classified in Malaysian Standard MS 544 Part 2. Samples are categorized according to Strength Group (SG) and listed as SGI...
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my.uitm.ir.395222024-08-05T02:06:10Z https://ir.uitm.edu.my/id/eprint/39522/ Thermal conductivity of selected tropical timber using hot box method / Raihana Mohamad Hata Mohamad Hata, Raihana Engineering instruments, meters, etc. Industrial instrumentation Engineering machinery, tools, and implements In this study, thermal conductivity of selected tropical timber species was measured using Hot Box method. Each of the selected timber species represent hardwood and softwood as classified in Malaysian Standard MS 544 Part 2. Samples are categorized according to Strength Group (SG) and listed as SGI to SG7. The higher the strength group, the higher its strength and density. For this research, Chengal, Balau, Kekatong, Kempas, Kembang Semangkok, Keranji, Merpauh, Perupok, Nyatoh, Rubberwood, Terap, Jelutong, Pulai and Sesendok were selected. Application and selection of timber for building are good for insulation as timber has lower thermal conductivity compared to concrete, steel and others building materials. Thus, data on thermal conductivity value for different timber species are useful for building design purposes. Therefore, the objectives of this research is first to determine the heat flux through selected timber species which the data then used to calculate the thermal conductivity and hence the correlation to its physical characteristic. The hot box method was selected since the test gave sufficient amount of data to analyse the thermal conductivity values. The hot box method also gave accurate data compared to other method. The Hot Box method of testing is based on steady state conditions. The testing was conducted up until the heat flux, air temperature and surface temperature value at hot and cold chamber become persistent. The thermal conductivity test was carried out based on BS EN ISO 8990:1996 and MS 1532:2002 standard. Prior to thermal conductivity test, density and specific gravity value were first measured. The moisture content measured using oven dried method. Heat flux value recorded for selected timber species ranged from 90.0 wm"2 to 139.3 wm'2 which is 35.4% different. The value of heat flux were then used to calculate thermal conductivity value. Based on calculations, the value of thermal conductivity are range from the highest is SG3 Kembang Semangkok 0.051 Wirf'K"1 and lowest is SG6 Terap 0.033Wm"lK"1 which the difference in 35.3%. Terap is the best timber species for building insulation purposes. The values of thermal conductivity were then compared with moisture content, density, specific gravity and temperature to see their relationship between these parameters. The relationship between density, specific gravity, moisture content, temperature to thermal conductivity shows a poor linear relationship R2 of 0.09 and 0.14. As conclusion, timber with lowest moisture content, density and specific gravity is preferable for building insulation purposes. 2019-04 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/39522/2/39522.pdf Thermal conductivity of selected tropical timber using hot box method / Raihana Mohamad Hata. (2019) Masters thesis, thesis, Universiti Teknologi MARA. <http://terminalib.uitm.edu.my/39522.pdf> |
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Engineering instruments, meters, etc. Industrial instrumentation Engineering machinery, tools, and implements Mohamad Hata, Raihana Thermal conductivity of selected tropical timber using hot box method / Raihana Mohamad Hata |
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In this study, thermal conductivity of selected tropical timber species was measured using Hot Box method. Each of the selected timber species represent hardwood and softwood as classified in Malaysian Standard MS 544 Part 2. Samples are categorized according to Strength Group (SG) and listed as SGI to SG7. The higher the strength group, the higher its strength and density. For this research, Chengal, Balau, Kekatong, Kempas, Kembang Semangkok, Keranji, Merpauh, Perupok, Nyatoh, Rubberwood, Terap, Jelutong, Pulai and Sesendok were selected. Application and selection of timber for building are good for insulation as timber has lower thermal conductivity compared to concrete, steel and others building materials. Thus, data on thermal conductivity value for different timber species are useful for building design purposes. Therefore, the objectives of this research is first to determine the heat flux through selected timber species which the data then used to calculate the thermal conductivity and hence the correlation to its physical characteristic. The hot box method was selected since the test gave sufficient amount of data to analyse the thermal conductivity values. The hot box method also gave accurate data compared to other method. The Hot Box method of testing is based on steady state conditions. The testing was conducted up until the heat flux, air temperature and surface temperature value at hot and cold chamber become persistent. The thermal conductivity test was carried out based on BS EN ISO 8990:1996 and MS 1532:2002 standard. Prior to thermal conductivity test, density and specific gravity value were first measured. The moisture content measured using oven dried method. Heat flux value recorded for selected timber species ranged from 90.0 wm"2 to 139.3 wm'2 which is 35.4% different. The value of heat flux were then used to calculate thermal conductivity value. Based on calculations, the value of thermal conductivity are range from the highest is SG3 Kembang Semangkok 0.051 Wirf'K"1 and lowest is SG6 Terap 0.033Wm"lK"1 which the difference in 35.3%. Terap is the best timber species for building insulation purposes. The values of thermal conductivity were then compared with moisture content, density, specific gravity and temperature to see their relationship between these parameters. The relationship between density, specific gravity, moisture content, temperature to thermal conductivity shows a poor linear relationship R2 of 0.09 and 0.14. As conclusion, timber with lowest moisture content, density and specific gravity is preferable for building insulation purposes. |
| format |
Thesis |
| author |
Mohamad Hata, Raihana |
| author_facet |
Mohamad Hata, Raihana |
| author_sort |
Mohamad Hata, Raihana |
| title |
Thermal conductivity of selected tropical timber using hot box method / Raihana Mohamad Hata |
| title_short |
Thermal conductivity of selected tropical timber using hot box method / Raihana Mohamad Hata |
| title_full |
Thermal conductivity of selected tropical timber using hot box method / Raihana Mohamad Hata |
| title_fullStr |
Thermal conductivity of selected tropical timber using hot box method / Raihana Mohamad Hata |
| title_full_unstemmed |
Thermal conductivity of selected tropical timber using hot box method / Raihana Mohamad Hata |
| title_sort |
thermal conductivity of selected tropical timber using hot box method / raihana mohamad hata |
| publishDate |
2019 |
| url |
https://ir.uitm.edu.my/id/eprint/39522/2/39522.pdf https://ir.uitm.edu.my/id/eprint/39522/ |
| _version_ |
1806692683113037824 |