Numerical modelling of sound intensity based on sound absorption coeficient of WCPP at 40% perforation ratio
The boundary element method (BEM) is a numerical method that solves boundary value problems through the boundary integral equation (BIE) formulations. The applications of direct BIE formulations started in the early 1960 ‘s by Jaswon on a potential problem. This work was extended by Rizzo to so...
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2007
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my.utm.136742017-10-08T01:13:30Z http://eprints.utm.my/id/eprint/13674/ Numerical modelling of sound intensity based on sound absorption coeficient of WCPP at 40% perforation ratio Ula, Munirul Abd. Hamid, Siti Zaleha Abd. Rahman, Fareha Hashim, Abdul Wahab Ishari Baharom, Amerudin Ahmad, Abdul Hamid TK Electrical engineering. Electronics Nuclear engineering The boundary element method (BEM) is a numerical method that solves boundary value problems through the boundary integral equation (BIE) formulations. The applications of direct BIE formulations started in the early 1960 ‘s by Jaswon on a potential problem. This work was extended by Rizzo to solve the electrostatic problem. Since then, extensive research efforts have been made to develop BIE formulations for a variety of problems in applied mechanics. As the result, the BEM has become an attractive numerical tool useful in many engineering applications, such as acoustics, heat transfer, solid mechanics, structural mechanics, fluid mechanics, fracture mechanics, geomechanics, electromagnetic and so on. Penerbit UTM 2007 Book Section PeerReviewed Ula, Munirul and Abd. Hamid, Siti Zaleha and Abd. Rahman, Fareha and Hashim, Abdul Wahab Ishari and Baharom, Amerudin and Ahmad, Abdul Hamid (2007) Numerical modelling of sound intensity based on sound absorption coeficient of WCPP at 40% perforation ratio. In: Contemporary Issues On Mosques Acoustics. Penerbit UTM , Johor, pp. 124-141. ISBN 978-983-52-0642-9 |
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TK Electrical engineering. Electronics Nuclear engineering Ula, Munirul Abd. Hamid, Siti Zaleha Abd. Rahman, Fareha Hashim, Abdul Wahab Ishari Baharom, Amerudin Ahmad, Abdul Hamid Numerical modelling of sound intensity based on sound absorption coeficient of WCPP at 40% perforation ratio |
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The boundary element method (BEM) is a numerical method that solves boundary value problems through the boundary integral equation (BIE) formulations. The applications of direct BIE formulations started in the early 1960 ‘s by Jaswon on a potential problem. This work was extended by Rizzo to solve the electrostatic problem. Since then, extensive research efforts have been made to develop BIE formulations for a variety of problems in applied mechanics. As the result, the BEM has become an attractive numerical tool useful in many engineering applications, such as acoustics, heat transfer, solid mechanics, structural mechanics, fluid mechanics, fracture mechanics, geomechanics, electromagnetic and so on. |
| format |
Book Section |
| author |
Ula, Munirul Abd. Hamid, Siti Zaleha Abd. Rahman, Fareha Hashim, Abdul Wahab Ishari Baharom, Amerudin Ahmad, Abdul Hamid |
| author_facet |
Ula, Munirul Abd. Hamid, Siti Zaleha Abd. Rahman, Fareha Hashim, Abdul Wahab Ishari Baharom, Amerudin Ahmad, Abdul Hamid |
| author_sort |
Ula, Munirul |
| title |
Numerical modelling of sound intensity based on sound absorption coeficient of WCPP at 40% perforation ratio |
| title_short |
Numerical modelling of sound intensity based on sound absorption coeficient of WCPP at 40% perforation ratio |
| title_full |
Numerical modelling of sound intensity based on sound absorption coeficient of WCPP at 40% perforation ratio |
| title_fullStr |
Numerical modelling of sound intensity based on sound absorption coeficient of WCPP at 40% perforation ratio |
| title_full_unstemmed |
Numerical modelling of sound intensity based on sound absorption coeficient of WCPP at 40% perforation ratio |
| title_sort |
numerical modelling of sound intensity based on sound absorption coeficient of wcpp at 40% perforation ratio |
| publisher |
Penerbit UTM |
| publishDate |
2007 |
| url |
http://eprints.utm.my/id/eprint/13674/ |
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1643646250854121472 |
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13.211869 |