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Illustrates current fluid fertilizer technology in the US and abroad, including manufacture, handling, storage, distribution, and use in the field demonstrating how fluid fertilizer facilitates more precise delivery of nutrition to crops. The volume provides the means to analyze fluid fertilizer sys
This Manual of Fertilizer Processing, which is the fifth volume of the Fertilizer Science and Technology series. Francis (Frank) T. Nielsson, the editor of the book, has over 40 years of experience in the fertilizer industry, ranging from ammonia manufacture to the extraction of uranium from phosphoric acid, but he is best known for his work with compound or “mixed” fertilizers—fertilizers that contain two or more of the primary plant nutrients: nitrogen, phosphorus, and potassium. Compound fertilizers also may contain one or more of the ten other elements that are essential to plant growth.
Van de volgende stoffen of processen wordt gesteld dat ze de meststoffenmarkt spoedig zullen beinvloeden: suspensies van ureum-ammoniumnitraat, ureum-ammoniumsulfaat, ammoniumfosfaat en ammoniumpolyfosfaat, gegroepeerde produktie van orthofosfaatsuspensie uit fosforzuur, gegroepeerde produktie van orthofosfaatsuspensies uit diammonium, ammonium-polyfosfaat-sulfaatsuspensie, ureum-salpeterfosfaten. Ingegaan wordt op de produktiewijze
The Fertilizer Manual, 3rd Edition, is a new, fully updated, comprehensive reference on the technology of fertilizer production. The manual contains engineering flow diagrams and process requirements for all major fertilizer processes including ammonia, urea, phosphates, potassium products and many others. Environmental considerations are addressed clearly. Equally important, the manual includes chapters on fertilizer use, production and distribution economics, raw materials, and the status of the fertilizer industry with demand-supply projections. Professionals involved with any phase of fertilizer production, use, marketing, or distribution will find this book valuable.
This Fertilizer Manual was prepared by the International Fertilizer Development Center (IFDC) as a joint project with the United Nations Industrial Development Organi zation (UNIDO). It is designed to replace the UN Fertilizer Manual published in 1967 and intended to be a reference source on fertilizer production technology and economics and fertilizer industry planning for developing countries. The aim of the new manual is to describe in clear, simple language all major fertilizer processes, their requirements, advan tages and disadvantages and to show illustrative examples of economic evaluations. The manual is organized in five parts. Part I deals with the history of fertilizers, world outlook, the role of fertilizers in agriculture, and raw materials and includes a glossary of fertilizer-related terms. Part II covers the production and transportation of ammonia and all important nitrogen fertilizers-liquids and solids. Part III deals with the characteristics of phosphate rock, production of sulfuric and phosphoric acid, and all important phosphate fertilizers, including nitrophosphates and ammonium phosphates. Part IV deals with potash fertilizers-ore mining and refining and chemical manufac ture; compound fertilizers; secondary and micronutrients; controlled-release fertilizers; and physical properties of fertilizers. Part V includes chapters on planning a fertilizer industry, pollution control, the economics of production of major fertilizer products anJ intermediates, and problems facing the world fertilizer industry.
It is hoped that this paper will bring to the reader's attention the fact that the mode of addition of micronutrient materials of fertilizers is a factor that can have a significant influence on both the physical and chemical properties of the mixture. It should become obvious that, in adding micronutrient materials, due consideration must be given to such factors as the chemical compatibility of the ingredients, the segregation characteristics of the mixture, solubility in liquid systems, and the uniformity and density of micronutrient distribution sites that will result from field application of the mixture. While the review of addition methods now in use included here should serve as a useful guide, it is hoped that the reader, on becoming aware of the problems, will be stimulated to contrive improvements and modifications in methods that will fit his own needs.
Much has been learned about the proper and judicious use of fertilizers. Fertilizer application by farmers has grown from an art to a science. As food producers have strived to increase crop yields by overcoming nutrient deficiencies the use of fertil izers has increased dramatically. This has created a large chemical industry capable of supplying the needed plant food elements. A more complete understanding of soil chemistry and plant nutrition has led to greater fertilizer use with improved fertilization methods and crop cultural practices. Improved fertilizer technology has led to the production of more efficient forms of fertilizer. The modem fertilizer industry and with it fertilization practices began in the humid countries of the world. The use of fertilizers in arid and semiarid regions was later in development, although agriculture had its beginning in semiarid and arid regions. The development offertilizer use is parallel to industrial development in various areas of the world.