Abstract
Fertilizers provide plants with the nutrients they need for their growth and development. Plants live, grow, and reproduce by taking up water and nutrients, carbon dioxide from the air, and energy from the sun. Apart from carbon, hydrogen, and oxygen, which collectively make up 90–95 percent of the dry matter of all plants, other nutrients needed by plants come essentially from the media in which they grow—essentially in the soil. The other nutrients are subdivided into primary nutrients (nitrogen, phosphorus, and potassium) and secondary nutrients (calcium, magnesium, and sulfur). In addition, plants also need other nutrients in much smaller amounts, and they are referred to as micro-nutrients (boron, chlorine, copper, iron, manganese, molybdenum, and zinc).
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References
Smil, V., Cycles of Life, Scientific American Library, New York, NY, 1997.
Food and Agriculture Organization of the United Nations (FAO), FAOSTAT database <http://faostat.fao.org>, Rome, Italy (2002).
United Nations Industrial Development Organization (UNIDO) and International Fertilizer Development Center (IFDC), Fertilizer Manual, Kluwer Academic Publishers, Dordrecht, The Netherlands, 1998.
Herring, J. R., and Fantel, J. R., “Phosphate Rock Demand into the Next Century: Impact on World Food Supply,” Nonrenewable Resources, 2(3), 226–241 (1993).
British Petroleum-Amoco, Statistical Review of World Energy, 1998.
Odell, P., Fossil Fuel Resources in the 21st Century, International Atomic Energy Agency, Vienna, Austria, 1999.
International Fertilizer Development Center (IFDC), Compaction—Alternative Approach for Granular Fertilizers, IFDC Technical Bulletin T-25, 1983.
McVicar, M. H., Using Commercial Fertilizers, 3rd ed., The Interstate Printers and Publishers, Inc., 1970.
Hignett, T. P., “History of World Fertilisers and Manufacturing Processes,” Ind. Chem. Manufacturer, 9(4), 13–17 (1971).
Young, R. D., and Achorn, F. P., “Trends in U.S. Fertilizer Technology,” TVA Bull. Y-133, pp. 5–7, Tennessee Valley Authority, Muscle Shoals, AL (Aug. 1978).
The Role of Phosphorus in Agriculture, Am. Soc. Agron., Crop Science Soc. Am., and Soil Science Soc. Am., pp. 198–199, Madison, WI, 1980.
Hignett, T. P. “Nitrophosphate Process Advantages and Disadvantages,” in Proc. 15th Annual Meeting Fert. Ind. Round Table, pp. 92–95, 1965.
Getsinger, J. G., Houston, E. C., and Achorn, F. P., “Production of Diammonium Phosphate by Continuous Vacuum Crystallization,” J. Agr. Food Chem., 5, 433–436 (June 1957).
Young, R. D., Hicks, G. C., and Davis, C. H., “TVA Process for Production of Granular Diammonium Phosphate,” J. Agr. Food Chem., 10, 442–447 (Nov. 1962).
U.S. Patent 3,153,574.
“New Developments in Fertilizer Technology,” 8th Demonstration, TVA Bull. Y-12, Tennessee Valley Authority (1970).
Young, R. D., and Hicks, G. C., “Production of Monoammonium Phosphate in a TVA-Type Ammonium Phosphate Granulation System,” Comm. Fert., 114(2), 26–27 (Feb. 1967).
Lehr, J. R., and McClellan, G. H., “Phosphate Rocks; Important Factors in Their Economic and Technical Evaluation,” CENTO Symposium on the Mining and Beneficiation of Fertilizer Minerals, pp. 192–242, November 19–24, 1973.
Pelovski, Y., and Garrett, M. K., Partially Acidulated Phosphate Rock Fertilisers—Agronomic, Environmental and Production Aspects, Proceedings No. 364, The Fertiliser Society.
Yates, L. D., Nielsson, F. T., Fox, E. J., and Magness, R. M., “Enriched and Concentrated Superphosphate,” Industrial and Engineering Chemistry, 45(3), 681–690 (1953).
Walthall, J. H., and G. L. Bridger, “Fertilizer by Fusion of Rock Phosphate with Olivine,” Ind. Eng. Chem., 35(7), 744–777 (1943).
Thompson, W. H., “New Route Cuts Costs for Potassium Orthophosphates,” Chem. Eng., 78(8), 83–85 (1971).
Drechsel, E. K., “Potassium Phosphates: The New Generation of SUPER Phosphates,” Paper presented to the American Chemical Society, Division of Fertilizer and Soil Chemistry, Chicago, Illinois, August 28, 1973.
Giese, A., “Environmental Responsibility on the Farm—The Impact on the Fertilizer and Agriculture Industry,” in Environmental Challenges of Fertilizer Production-An Examination of Progress and Pitfalls, Proceedings of an International Workshop, J. J. Schultz and E. N. Roth (Eds.), IFDC, Muscle Shoals, AL, September 17–19, 1998.
Yates, L. D., Nielson, F. T., and Hicks, G. C., “TVA Continuous Ammoniator for Superphosphates and Fertilizer Mixtures,” Part I and Part II of Farm Chemicals (August 1954).
U.S. Patent 2,741,545.
Environmental Challenges of Fertilizer Production—An Examination of Progress and Pitfalls, Proceedings of an International Workshop, J. J. Schultz and E. N. Roth (Eds.), Muscle Shoals, AL, September 17–19, 1998.
“New Developments in Fertilizer Technology,” 9th Demonstration, TVA Bull. Y-50, Tennessee Valley Authority (1972).
“New Developments in Fertilizer Technology,” 11th Demonstration, TVA Bull. Y-107, Tennessee Valley Authority (1976).
Medbery, J., “Experience with Pipe-Cross Reactor,” Proc. Fert. Ind. Round Table, pp. 52–55, 1971.
Baggett, K. J., and Brunner, D. J., “MFA’s Experience with TVA Cross-Pipe Reactor,” Proc. Fert. Ind. Round Table, pp. 64–70, 1977.
Fittell, R. S., Hollingworth, L. A., and Forney, J. G., “Manufacture of Granular Ammonium Phosphates Using a Pipe Reactor Process,” Proc. Fert. Ind. Round Table, pp. 70–81, 1977.
Hoffmeister, G., Watkins, S. C., and Silverberg, J., “Bulk Blending of Fertilizer Material: Effect of Size, Shape, and Density on Segregation,” J. Agr. Food Chem., 12, 64–69 (Jan./Feb. 1964).
Hoffmeister, G., “Compatibility of Raw Materials in Blended Fertilizers—Segregation of Raw Materials,” Proc. 12th Annual Meeting Fert. Ind. Round Table, pp. 83–88, 1962.
Young, R. D., “Providing Micronutrients in Bulk-Blended, Granular, Liquid and Suspension Fertilizer,” Comm. Fert., 118(1), 21–24 (Jan. 1969).
Young, R. D., “Production of Compound Fertilizers from Intermediates in Local Plants,” TVA Bull. Z-30, pp. 12–20, Tennessee Valley Authority (1971).
McKnight, D., and Striplin, M. M., “Phosphoric Acid of High Concentration,” J. Agr. Chem., 13, 33–34 (Aug. 1958).
Phillips, A. B., “Concentration Wet-Processes Acid to Superphosphoric Acid,” Farm Chem., 126, 36, 38, 62 (June 1963).
Meline, R. S., Lee, R. G., and Scott, W. C., “Use of Pipe Reactor in Production of Liquid Fertilizers with Very High Polyphosphate Content,” Fert. Soln., 16(2), 32–45 (Mar./Apr. 1972).
US. Patent 3,775,534.
Walters, H. K., Jr., “Salt Suspension Fertilizers,” Comm. Fert., 25–26 (Sept. 1959).
Newsom, W. S., Jr., “Suspension Fertilizers,” Solutions, 30–35 (Jan.–Feb. 1960).
Sawyer, E. W., Polon, J. A., and Smith, H. A., “The Stabilization of Suspension Fertilizers with Colloidal Attapulgite,” Solutions, 36–43 (Jan.–Feb. 1960).
Mann, C., II, McGill, K. E., and Jones, T. M., I&EC Product Research and Development, pp. 488–495 (Sept. 1982).
Trenkel, M. E., Improving Fertilizer Use Efficiency: Controlled-Release and Stabilized Fertilizers in Agriculture, International Fertilizer Industry Association, Paris, France, 1997.
Hamamoto, M., “Isobutylidine Diurea as a Slow-Acting Nitrogen Fertilizer and Studies in this Field in Japan,” Proceedings No. 90, The Fertiliser Society, London, 1966.
Clark, K. G., Yee, J. Y., and Love, K. S., “New Synthetic Nitrogen Fertilizers, Preparation and Properties of Urea-Form,” Ind. Eng. Chem., 40(7), 1178–1183 (1948).
Kolterman, D. W., and Rennie, W. W., “Ureaform Fertilizers,” in The Chemistry and Technology of Fertilizers, pp. 48–54, V. Sauchelli (Ed.), Rheinhold Publishing Co., New York, NY, 1960.
Ando, J., “Developments in Granulation of Mixed Fertilizers in Japan,” Proceedings of the 20th Annual Meeting Fertilizer Industry Round Table, pp. 85–93, Memphis, TN, 1970.
Kuwabara, M., Hayamizu, S., and Hatakeyama, A., “Trends in Urea-Based Compound Fertilizer Technology,” in Granular Fertilizers and Their Production, pp. 125–147, British Sulphur Corporation, London, England, 1977.
Nielsson, F. T., “IMC Experience in Specialty Fertilizer Manufacture,” Proceedings of the 23rd Annual Meeting of the Fertilizer Industry Round Table, pp. 33–42, Washington, DC, 1973.
Powell, R., Controlled Release Fertilizers, Noyes Development Corporation, Park Ridge, NJ, 1968.
Young, R. D., “TVA’S Development of Sulfur-Coated Urea,” TVA Bull. Y-79, Tennessee Valley Authority, Muscle Shoals, AL (1974).
United Nations, Department of Economic and Social Affairs, Population Division, World Population to 2300 (2004).
Rutland, D. W., “Fertilizer Caking: Mechanisms, Influential Factors, and Methods of Prevention,” Fertilizer Research, 30, 99–114 (1991).
Hofstee, J. S., Physical Properties of Fertilizer in Relation to Handling and Spreading, Wageningen Agricultural University, Wageningen, The Netherlands (1993).
International Organization for Standardization, Central Secretariat, 1, rue de Varembe, Case Postale 5b, ch-1211, Geneva 20, Switzerland.
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Roy, A.H. (2007). Fertilizers and Food Production. In: Kent, J.A. (eds) Kent and Riegel’s Handbook of Industrial Chemistry and Biotechnology. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-27843-8_24
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DOI: https://doi.org/10.1007/978-0-387-27843-8_24
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