Methodology for Optimizing Design of Integrated Tank Irrigation System

Abstract

Tank irrigation has been in existence for centuries. However, optimization of the tank irrigation system is of recent origin. Even this has been attempted in piecemeal, optimizing every segment/aspect of the irrigation system individually. Thus, although each component may be optimal, the system as a whole may not be optimal. This paper presents a methodology to optimize the design of the tank irrigation system by taking into account the constraints, objectives, options of the location, conveyance and application methods, crops and their irrigation levels, productivity, demand of the population dependent upon that area in terms of amount of foodgrains, pulses, oilseeds, nutrients, and the availability of different inputs to achieve an optimal design of all components of the system.

Keywords

This publication has 12 references indexed in Scilit:

Irrigation Planning by Multilevel Optimization
Journal of Irrigation and Drainage Engineering, 1990
Problems with Traditional Small Reservoir Irrigation Systems in the Semi Arid Tropics
Transactions of the ASAE, 1984
Optimum design of small reservoirs (tanks)
Water Resources Research, 1983
Sizing Farm Reservoirs for Supplemental Irrigation of Corn. Part I: Modeling Reservoir Size Yield Relationships
Transactions of the ASAE, 1982
Problems in Applying Optimal Irrigation Plans
Journal of the Water Resources Planning and Management Division, 1980
Irrigation planning: 1. Cropping pattern
Water Resources Research, 1979
Intertemporal allocation of irrigation water in the Mayurakshi Project (India): An application of chance‐constrained linear programing
Water Resources Research, 1978
Irrigation planning: 3. The best size irrigation area for a reservoir
Water Resources Research, 1972
Primal Resource-Directive Approaches for Optimizing Nonlinear Decomposable Systems
Operations Research, 1970
Decomposition Principle for Linear Programs
Operations Research, 1960