A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Optimal distribution of water resources for long-term agricultural sustainability and maximization recompense from agriculture
The objective of the study is to develop conjunctive use model for the effective utilization of groundwater (GW) and canal water so as to maximize the net benefit. In this study, it has been shown that canal water can be saved up to a greater extent just by using GW as an additional source. The developed conjunctive use model is being solved by teaching–learning-based optimization (TLBO) algorithm. To validate TLBO algorithm results, LINGO is being used. It has been found that both the algorithms give nearly the same results. From results, it has been found that the sugarcane cultivation has to be increased to recompense net return. Increased net benefit is about 4–7%. Optimization results show that to maximize the net benefit all other crop cultivation (except sugarcane) has to be reduced by 7–12%. Overall net benefit is increased to 5–10% in any given season. From the results, it has been concluded that, by utilizing both canal water and GW, canal water can be saved up to 55% in hot season, 27% in rabi season and 22% in kharif season.
Optimal distribution of water resources for long-term agricultural sustainability and maximization recompense from agriculture
The objective of the study is to develop conjunctive use model for the effective utilization of groundwater (GW) and canal water so as to maximize the net benefit. In this study, it has been shown that canal water can be saved up to a greater extent just by using GW as an additional source. The developed conjunctive use model is being solved by teaching–learning-based optimization (TLBO) algorithm. To validate TLBO algorithm results, LINGO is being used. It has been found that both the algorithms give nearly the same results. From results, it has been found that the sugarcane cultivation has to be increased to recompense net return. Increased net benefit is about 4–7%. Optimization results show that to maximize the net benefit all other crop cultivation (except sugarcane) has to be reduced by 7–12%. Overall net benefit is increased to 5–10% in any given season. From the results, it has been concluded that, by utilizing both canal water and GW, canal water can be saved up to 55% in hot season, 27% in rabi season and 22% in kharif season.
Optimal distribution of water resources for long-term agricultural sustainability and maximization recompense from agriculture
Patel, Jayantilal N. (author) / Bhavsar, Pawan N. (author)
ISH Journal of Hydraulic Engineering ; 27 ; 110-116
2021-01-02
7 pages
Article (Journal)
Electronic Resource
Unknown
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