| Titre de série : |
Journal of irrigation and drainage engineering, 2 |
| Titre : |
Dimensionless runoff cuves for irrigation borders |
| Type de document : |
texte imprimé |
| Auteurs : |
Yitayew, M. ; Fangmeir, D. D. ; Axe, M. |
| Mention d'édition : |
ASCE |
| Editeur : |
ASCE |
| Année de publication : |
1984 |
| ISBN/ISSN/EAN : |
CI-06263 |
| Note générale : |
Nondimensional runoff cuves useful in the design of reuse systems are presented for free outflow irrigation borders. Pertinent open channel variables affecting runoff in border irrigation, including inflow rate, surface resistance, border slope, soil infiltration characteristics, application time, and length of border, were studied and their effects presented. Maximum advance distance/ which is of interest in designing border irrigation systems, is also given by the zero runoff cuves. A zero -inertia mathematical model was used to develop the nondimensional predictive graphical solution in terms of four reduced variables. |
| Langues : |
Anglais (eng) |
| Mots-clés : |
Irrigation Gestion de l'eau Modèle mathématique Infiltration |
| Index. décimale : |
631.58 Méthodes de culture : jachère, assolement irrigation |
| Résumé : |
Nondimensional runoff cuves useful in the design of reuse systems are presented for free outflow irrigation borders. Pertinent open channel variables affecting runoff in border irrigation, including inflow rate, surface resistance, border slope, soil infiltration characteristics, application time, and length of border, were studied and their effects presented. Maximum advance distance/ which is of interest in designing border irrigation systems, is also given by the zero runoff cuves. A zero -inertia mathematical model was used to develop the nondimensional predictive graphical solution in terms of four reduced variables. |
| Note de contenu : |
Nondimensional runoff cuves useful in the design of reuse systems are presented for free outflow irrigation borders. Pertinent open channel variables affecting runoff in border irrigation, including inflow rate, surface resistance, border slope, soil infiltration characteristics, application time, and length of border, were studied and their effects presented. Maximum advance distance/ which is of interest in designing border irrigation systems, is also given by the zero runoff cuves. A zero -inertia mathematical model was used to develop the nondimensional predictive graphical solution in terms of four reduced variables. |
Journal of irrigation and drainage engineering, 2. Dimensionless runoff cuves for irrigation borders [texte imprimé] / Yitayew, M. ; Fangmeir, D. D. ; Axe, M. . - ASCE . - ASCE, 1984. ISSN : CI-06263 Nondimensional runoff cuves useful in the design of reuse systems are presented for free outflow irrigation borders. Pertinent open channel variables affecting runoff in border irrigation, including inflow rate, surface resistance, border slope, soil infiltration characteristics, application time, and length of border, were studied and their effects presented. Maximum advance distance/ which is of interest in designing border irrigation systems, is also given by the zero runoff cuves. A zero -inertia mathematical model was used to develop the nondimensional predictive graphical solution in terms of four reduced variables. Langues : Anglais ( eng)
| Mots-clés : |
Irrigation Gestion de l'eau Modèle mathématique Infiltration |
| Index. décimale : |
631.58 Méthodes de culture : jachère, assolement irrigation |
| Résumé : |
Nondimensional runoff cuves useful in the design of reuse systems are presented for free outflow irrigation borders. Pertinent open channel variables affecting runoff in border irrigation, including inflow rate, surface resistance, border slope, soil infiltration characteristics, application time, and length of border, were studied and their effects presented. Maximum advance distance/ which is of interest in designing border irrigation systems, is also given by the zero runoff cuves. A zero -inertia mathematical model was used to develop the nondimensional predictive graphical solution in terms of four reduced variables. |
| Note de contenu : |
Nondimensional runoff cuves useful in the design of reuse systems are presented for free outflow irrigation borders. Pertinent open channel variables affecting runoff in border irrigation, including inflow rate, surface resistance, border slope, soil infiltration characteristics, application time, and length of border, were studied and their effects presented. Maximum advance distance/ which is of interest in designing border irrigation systems, is also given by the zero runoff cuves. A zero -inertia mathematical model was used to develop the nondimensional predictive graphical solution in terms of four reduced variables. |
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