1 AIT Asian Institute of Technology

Optimum water allocation in an irrigation project

AuthorShahi, Purusottam Kumar
Call NumberAIT Thesis no. WA-88-14
Subject(s)Irrigation--Linear programming
NoteA thesis submitted in partial fulfilment of the requirement for the degree of Master of Engineering, School of Engineering and Technology
PublisherAsian Institute of Technology
AbstractAn integrated LP-SDP optimization model is developed to derive the steady optimal reservoir operation policy in consonance with the irrigation demand for the optimal acreage to plant for potential irrigation with the objective of achieving maximum benefit from the command area. While determining the optimal cropping pattern for an irrigation project in conjuction with a dam it is desirable to know the best area to plant as a function of beginning-season reservoir level and the best way to allocate a given quantity of water. The SOP model is a well established optimization technique for reservoir operation. The linear programming model is the most suitable optimization technique in selecting among large number of alternative combinations of design, one which would result in the maximum annual benefit. In this study, both optimization techniques are combined to formulate an integrated model for optimal water allocation in an irrigation project in conjuction with reservoir water supply facility. The SOP model derives an optimal policy that predicts changes in reservoir storage resulting from inflows and releases to meet requirements of crops selected by the LP model for optimal benefit. The land area to be allocated to each crop for planting is the decision variable in LP model. The model considers the stochasticity of streamflow time series for realistic approach. The system was modelled as a periodic Markovian decision problem. In the formulation of the model, it is assumed that releases from the given reservoir, the acreage to be planted, and irrigation timing are all controlled by one decision maker. The procedure developed in this study is applied to a case study for the Bagmati Irrigation Project, in Nepal. The formulation of a planning model with the prime objective of fulfilling irrigation demand is sought in this study. Results from the model include optimal reservoir operation policy, optimal cropping pattern and corresponding monthly irrigation delivery schedule. Sensitivity analysis is performed to study the effects of changes in some parameters in the optimal results. The model is found to be computationally feasible and yields practically· satisfactory results.
Year1988
TypeThesis
SchoolSchool of Engineering and Technology (SET)
DepartmentOther Field of Studies (No Department)
Academic Program/FoSWater Resources Research Engineering (WA)
Chairperson(s)Paudyal, Guna N.
Examination Committee(s) Bogardi, Janos J. ; Mizutani, M.
Scholarship Donor(s)Government of France
DegreeThesis (M.Eng.) - Asian Institute of Technology, 1988


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