Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-28T01:55:15.471Z Has data issue: false hasContentIssue false

Financial Analysis of On-Farm Grain Drying

Published online by Cambridge University Press:  05 September 2016

Clyde Kiker
Affiliation:
Food and Resource Economics, University of Florida
Mark Lieblich
Affiliation:
Agricultural Cooperative Development International, Washington, D. C.

Abstract

Artificial drying of corn in the Southeastern Coastal Plain was shown to be financially feasible for average annual per farm production levels of greater than 10,000 bushels. Net present values for four types of drying systems were evaluated using simulation modeling in which weather conditions, yield levels, and prices were entered as stochastic variables. Scale of production and irrigation substantially influenced crop drying potential. Stochastic efficiency analysis was used to evaluate the riskiness of the investment.

Type
Submitted Articles
Copyright
Copyright © Southern Agricultural Economics Association 1986

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Anderson, J. R., Dillon, J. L. and Hardaker, J. B.. Agricultural Decision Analysis. Ames, Iowa: The Iowa State University Press, 1977.Google Scholar
Barfield, B. J., Duncan, W. G., and Haan, C. T.. “Simulating the Responses of Corn Irrigation in Humid Areas.American Society of Agricultural Engineers, Paper No. 77-2005, St. Joseph, Michigan, 1977.Google Scholar
Boggess, W. G..and Amerling, C. B.. “A Bioeconomic Simulation Analysis of Irrigation Investments.So. J. Agr. Econ., 15,2(1983):8591.Google Scholar
Bridges, T.C. Loewer, O. J. Jr., and Overhults, D. G.. “The Influence of Harvest Rate and Drying Time on Grain Drying and Storage Facility Selection.Transactions of the Amer. Soc. Agr. Eng., 22(1979a):174177.CrossRefGoogle Scholar
Bridges, T. C., Loewer, O. J. Jr., Walker, J. N., and Overhults, D. G.. “A Computer Model for Evaluating Corn Harvesting, Handling, and Storage Systems.Transactions of the Amer. Soc. Agr. Eng., 22(1979b):618629.Google Scholar
Duncan, W.G.. Simaiz Dictionary (Unpublished paper). Agronomy Department, University of Florida, Gainesville, Florida, 1976.Google Scholar
Feedstuffs. Minneapolis, Minnesota: Miller Publishing Company, 19751983.Google Scholar
Hall, C. W.. Drying and Storage of Agricultural Crops. Westport, Connecticut: AVI Publishing Company, Inc., 1980.Google Scholar
Hewitt, T. C.. Comparison of On-Farm Drying Systems. Food and Resource Economics Department, University of Florida, ARC, Quincy, 1983.Google Scholar
HISARS (Hydrologic Information Storage and Retrieval System). Department of Statistics, University of Florida, Gainesville, 1975.Google Scholar
Internal Revenue Service (IRS). “Farmer's Tax Guide.” Publication 225, U. S. Department of the Treasury, Washington, D. C, 1983.Google Scholar
Klemme, R. M..“An Economic Analysis of the On-Farm Grain Handling Problem.” Ph.D. dissertation, Purdue University, 1980.Google Scholar
Loewer, O. J. Jr., Bridge, T. C., White, G. M., and Overhults, D. G.. “A Computer Model for Determining the Economics of On-The-Farm Drying, Storage, and Feed Processing Systems for Corn.American Society of Agricultural Engineers, Paper No. 79-5020, St. Joseph, Michigan, 1979.Google Scholar
Loewer, O. J. Jr., Bridge, T. C., White, G. M., and Overhults, D. G.. “The Influence of Harvesting Strategies and Economic Constraints on the Feasibility of Farm Grain Drying and Storage Facilities.Transactions of the Amer.Soc. Agr. Egn., 23(1980):468480.CrossRefGoogle Scholar
Loewer, O. J. Jr., Bridges, T. C., White, G. M., and Razor, R. R.. “Energy Expenditures for Drying and Harvesting Losses as Influenced by Harvesting Capacity and Weather.American Society of Agricultural Engineers, Paper No. 82-3515, St. Joseph, Michigan, 1982.Google Scholar
Morey, R. V., Zachariah, G. L., and Peart, R. M.. “Optimum Policies for Corn Harvesting.Transaction of the Amer. Soc. Agr. Eng., 14(1971):787792.Google Scholar
Palmer, W. L., Barfield, B.J., Haan, C. T., and Bitzer, M. E.. “Simulating the Water Requirements and Economic Feasibility of Irrigation of Corn in the Midwest.” Technical Report No. 125, Office of Water Resource Technology, University of Kentucky, Lexington, 1981.Google Scholar
Palmer, W. L., Barfield, B. J., and Haan, C. T.. “Sizing Farm Reservoirs for Supplemental Irrigation of Corn - Parts I and II. Transactions of the Amer. Soc. Agr. Eng., 25,2 and 3(1982):272-280 and 287.Google Scholar
Penson, J. B..and McCarl, B. A.. “Impact of Dryeration of Grain Elevator Performance in a Fluctuating Energy Situation.Amer. J. Agr. Econ., 58,3(1976):446455.Google Scholar
Schwart, R.B. “Investment, Ownership, and Energy Costs of New Bin Storage and of Hot Air Drying Facilities for Corn.” Farm Economics: Facts and Opinions, No. 82-10. Department of Agricultural Economics, University of Illinois-Urbana, 1982.Google Scholar
Schwart, R. B..and Hill, L. D.. “Comparative Costs of Conditioning and Storing Corn.” AERR No. 152. Department of Agricultural Economics, University of Illinois-Urbana, 1977.Google Scholar
Talbot, M. T..“Grain Drying and Storage on Florida Farms.” Agricultural Engineering Extension Report No. 82-30. Gainesville, Florida: Florida Cooperative Extension Service, 1982.Google Scholar
Tew, Bernard V.An Expected Value-Variance Analysis of Alternative Production Systems: A Study of Irrigation Schedules in the Georgia Plain.” Ph.D. dissertation, University of Florida, 1984.Google Scholar
U. S. Bureau of the Census. Statistical Abstract of the United States: 1982-1983. Washington, D. C., 1982.Google Scholar
U. S. Bureau of Economic Analysis. Survey of Current Business, Vol. 63, No. 9. Washington, D.C., 1983.Google Scholar