A Computer Model for the Hydraulic Analysis of Open Channel Cross Sections
Irrigation and hydraulic engineers are often faced with the difficulty of tedious trial solutions of the Manning equation to determine the various geometric elements of open channels. This paper addresses the development of a computer model for the design of the most commonly used channel-sections....
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Sultan Qaboos University
1996-01-01
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| Series: | Journal of Agricultural and Marine Sciences |
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| Online Access: | https://journals.squ.edu.om/index.php/jams/article/view/486 |
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doaj-089f9a19cf3f43c484a6d2843a98cd5b2020-11-25T03:20:09ZengSultan Qaboos UniversityJournal of Agricultural and Marine Sciences2410-10602410-10791996-01-0110576410.24200/jams.vol1iss0pp57-64481A Computer Model for the Hydraulic Analysis of Open Channel Cross SectionsW. H. Shayya0R. H. Mohtar1M. S Baasiri2Department os Bioresource Engineering , College of Agriculture , Sultan Qaboos University, P.O.Box 34 Al-Khod 123, Sultanate of OmanDepartment of Agricultural Engineering, Penn. State University , U.S.A.Department of Soils, Irrigation and Mechanization, American University of Beirut, LebanonIrrigation and hydraulic engineers are often faced with the difficulty of tedious trial solutions of the Manning equation to determine the various geometric elements of open channels. This paper addresses the development of a computer model for the design of the most commonly used channel-sections. The developed model is intended as an educational tool. It may be applied to the hydraulic design of trapezoidal , rectangular, triangular, parabolic, round-concered rectangular, and circular cross sections. Two procedures were utilized for the solution of the encountered implicit equations; the Newton-Raphson and the Regula-Falsi methods. In order to initiate the solution process , these methods require one and two initial guesses, respectively. Tge result revealed that the Regula-Flasi method required more iterations to coverage to the solution compared to the Newton-Raphson method, irrespective of the nearness of the initial guess to the actual solution. The average number of iterations for the Regula-Falsi method was approximately three times that of the Newton-Raphson method.https://journals.squ.edu.om/index.php/jams/article/view/486agricultural sciences |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
W. H. Shayya R. H. Mohtar M. S Baasiri |
| spellingShingle |
W. H. Shayya R. H. Mohtar M. S Baasiri A Computer Model for the Hydraulic Analysis of Open Channel Cross Sections Journal of Agricultural and Marine Sciences agricultural sciences |
| author_facet |
W. H. Shayya R. H. Mohtar M. S Baasiri |
| author_sort |
W. H. Shayya |
| title |
A Computer Model for the Hydraulic Analysis of Open Channel Cross Sections |
| title_short |
A Computer Model for the Hydraulic Analysis of Open Channel Cross Sections |
| title_full |
A Computer Model for the Hydraulic Analysis of Open Channel Cross Sections |
| title_fullStr |
A Computer Model for the Hydraulic Analysis of Open Channel Cross Sections |
| title_full_unstemmed |
A Computer Model for the Hydraulic Analysis of Open Channel Cross Sections |
| title_sort |
computer model for the hydraulic analysis of open channel cross sections |
| publisher |
Sultan Qaboos University |
| series |
Journal of Agricultural and Marine Sciences |
| issn |
2410-1060 2410-1079 |
| publishDate |
1996-01-01 |
| description |
Irrigation and hydraulic engineers are often faced with the difficulty of tedious trial solutions of the Manning equation to determine the various geometric elements of open channels. This paper addresses the development of a computer model for the design of the most commonly used channel-sections. The developed model is intended as an educational tool. It may be applied to the hydraulic design of trapezoidal , rectangular, triangular, parabolic, round-concered rectangular, and circular cross sections. Two procedures were utilized for the solution of the encountered implicit equations; the Newton-Raphson and the Regula-Falsi methods. In order to initiate the solution process , these methods require one and two initial guesses, respectively. Tge result revealed that the Regula-Flasi method required more iterations to coverage to the solution compared to the Newton-Raphson method, irrespective of the nearness of the initial guess to the actual solution. The average number of iterations for the Regula-Falsi method was approximately three times that of the Newton-Raphson method. |
| topic |
agricultural sciences |
| url |
https://journals.squ.edu.om/index.php/jams/article/view/486 |
| work_keys_str_mv |
AT whshayya acomputermodelforthehydraulicanalysisofopenchannelcrosssections AT rhmohtar acomputermodelforthehydraulicanalysisofopenchannelcrosssections AT msbaasiri acomputermodelforthehydraulicanalysisofopenchannelcrosssections AT whshayya computermodelforthehydraulicanalysisofopenchannelcrosssections AT rhmohtar computermodelforthehydraulicanalysisofopenchannelcrosssections AT msbaasiri computermodelforthehydraulicanalysisofopenchannelcrosssections |
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