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A Microcomputer Model for Irrigation System Evaluation

Published online by Cambridge University Press:  28 April 2015

Jeffrey R. Williams
Affiliation:
Department of Agricultural Economics, Kansas State University
Orlan H. Buller
Affiliation:
Department of Agricultural Economics, Kansas State University
Gary J. Dvorak
Affiliation:
Department of Agricultural Economics, Kansas State University
Harry L. Manges
Affiliation:
Department of Agricultural Engineering, Kansas State University

Abstract

ICEASE (Irrigation Cost Estimator and System Evaluator) is a microcomputer model designed and developed to meet the need for conducting economic evaluation of adjustments to irrigation systems and management techniques to improve the use of irrigated water. ICEASE can calculate the annual operating costs for irrigation systems and has five options that can be used to economically evaluate improvements in the pumping plant or the way the irrigation system is used for crop production.

Type
Submitted Articles
Copyright
Copyright © Southern Agricultural Economics Association 1988

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References

Dorn, T.W.. “Selecting the Most Economical Energy Source for Irrigation Pumping.” Irrigation Pumping Plant Performance Handbook. Agricultural Engineering Department, Cooperative Extension Service, Institute of Agriculture and Natural Resources. University of Nebraska-Lincoln, 1982.Google Scholar
Dvorak, G.J., Manges, H.L., and Williams, J.R.. “Criteria for Repairing or Replacing An Irrigation Pump.” ASAE Paper No. MCR 85-129, 1985a.Google Scholar
Dvorak, G.J., Manges, H.L., Schrock, M.D., and Williams, J.R.. “Determining an Economic Fuel Source for Irrigation.” ASAE Paper No. 85-5549, 1985b.Google Scholar
Etzold, P.E., and Williams, J.R.. 1984 Irrigation Repair and Maintenance Survey Results. Department of Agricultural Economics, Kansas State University, 1985.Google Scholar
Kletke, D.D., Harris, T.R., and Mapp, H.P. Jr.. “Irrigation Cost Program User's Reference Manual.” Agricultural Experiment Station, Research Report P-770, Oklahoma State University, 1978.Google Scholar
Ngo, V.T.. “Repair Cost Study: Agricultural Pumps.Pacific Gas and Electric Company. Private communication, San Francisco, CA, 1983.Google Scholar
Pacific Gas and Electric Company. “Pumping Plant Comparison Studies.Private communication, San Francisco, CA, 1984.Google Scholar
Sloggett, G.Energy and U.S. Agriculture. Irrigation Pumping, 1974-80.” Nat. Res. Econ. Div., Econ. Res. Serv. Rep. No. 495. U.S. Department of Agriculture, Washington, DC, 1982.Google Scholar
Sloggett, G.Prospects for Groundwater Irrigation: Declining Levels and Rising Energy Costs.” Nat. Res. Econ. Div., Econ. Res. Serv. No. 478. U.S. Department of Agriculture, Washington, DC, 1981.Google Scholar
Thompson, T.L., and Fischback, P.E.. “AGNET ‘Pump’ Computer Program Cost Analysis.” Irrigation Pumping Plant Performance Handbook. Agricultural Engineering Department, Cooperative Extension Service, Institute of Agriculture and Natural Resources. University of Nebraska-Lincoln, 1981.Google Scholar
Williams, J.R., Manges, H.L.Buller, O.H., Dvorak, G.J., and Etzold, P.E.. “A Study of Managerial Irrigation Cost Estimation Procedures.” Consultants' Report to the Kansas Water Resources Research Institute and U.S. Geological.Survey, Kansas Water Resources Research Institute, Kansas State University, 1985.Google Scholar
Williams, J.R., Manges, H.L., and Gross, L.K.. “ICEASE: Irrigation Cost Estimator and System Evaluator User's Manual.” Department of Agricultural Economics Staff Paper No. 86-1, Kansas State University, 1986.Google Scholar