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Applying the proven success of modern process engineering economics to the food industry, Food Plant Economics considers the design and economic analysis of food preservation, food manufacturing, and food ingredients plants with regard to a number of representative food processes. Economic analysis of food plants requires the evaluation of quantitative data from the design and operation of food processes and processing plants. Accompanying downloadable resources include prepared Excel spreadsheets for calculating various food plants scenarios by applying appropriate data regarding the cost of equipment and equipment sizing, material and energy balances, and plant operating costs. Beginning with a thorough background in the economics of a food plant, the first three chapters summarize recent advances in food process and research technology, the structure of the food system in the US and EU, and the principles of modern design in food processes, processing equipment, and processing plants. The second three chapters discuss process economics in relation to the food industry by applying the concepts of capital cost, operating cost, and cash flow to estimations of plant profitability. Detailed chapters cover estimations of capital investment and operating costs including statistical data, empirical models, and useful rules of thumb. The remaining three chapters apply the techniques of the previous discussions to food preservation plants such as concentration, canning, and dehydration; manufacturing plants including wine, bread, and yogurt; as well as ingredients plants that produce sugars and oils. A useful appendix contains a glossary, tables, conversions, nomenclature, food properties, and heat transfer coefficients. A practical and comprehensive treatment of process economics, Food Plant Economics provides a complete introduction to the application of this efficient technique to the food industry.
Economics of the Food System provides a comprehensive overview of the food system, beginning with the physical and geographical context of United States agriculture. Concepts and tools of applied economics are then used to analyze the structure and economic characteristics of each component of the food system. Over the course of the text, students learn about agricultural supply, demand, and prices, market elasticities and derived demand, food processing, wholesaling, retailing and food service, and the international food market. They also study the role of transportation, the law of one price, risk management, storage, and emerging issues and challenges for the food system. Throughout the text, the focus is on how markets function to ensure that people have the food they want to eat, when and where they want to eat it. As they read, students will have constant opportunities to consider the key forces that shape the food system's ongoing evolution. With its comprehensive coverage of all aspects of food system economics and its attention to practical economic applications, Economics of the Food System is ideal for courses in agricultural economics or agribusiness Biographies David Blandford, who holds a Ph.D. in agricultural economics from the University of Manchester, is a professor emeritus of agricultural and environmental economics at Pennsylvania State University. His teaching and research interests include agricultural and food policy, and international trade. Alan Webb holds a Ph.D. in agricultural economics from Oklahoma State University and served 14 years as trade economist with USDA before joining Winrock International as a consultant on agricultural development. He held teaching and research positions at the University Putra Malaysia and National Cheng Kung University in Taiwan. James Dunn, who holds a Ph.D. in agricultural economics from Oklahoma State University, is a professor emeritus of agricultural economics at Pennsylvania State University, where his teaching and research focused on agricultural policy and food industry economics.
This book analyzes the economics of the food industry at every stage between the farm gate and the kitchen counter. Central to the text are agricultural marketing problems such as the allocation of production between competing products (such as fresh and frozen markets), spatial competition, interregional trade, optimal storage, and price discrimination. Topics covered will be useful to students who expect to have careers such as food processing management, food sector buying or selling, restaurant management, supermarket management, marketing/advertising, risk management, and product development. The focus is on real world-relevant skills and examples and on intuition and economic understanding above mathematical sophistication, although the text does draw on the nuances of modern economic theory.
The Economics of Sustainable Food details the true cost of food for people and the planet. It illustrates how to transform our broken system, alleviating its severe financial and human burden. The key is smart macroeconomic policy that moves us toward methods that protect the environment like regenerative land and sea farming, low-impact urban farming, and alternative protein farming, and toward healthy diets. The book's multidisciplinary team of authors lay out detailed fiscal and trade policies, as well as structural reforms, to achieve those goals. Chapters discuss strategies to make food production sustainable, nutritious, and fair, ranging from taxes and spending to education, labor market, health care, and pension reforms, alongside regulation in cases where market incentives are unlikely to work or to work fast enough. The authors carefully consider the different needs of more and less advanced economies, balancing economic development and sustainability goals. Case studies showcase successful strategies from around the world, such as taxing foods with a high carbon footprint, financing ecosystems mapping and conservation to meet scientific targets for healthy biomes permanency, subsidizing sustainable land and sea farming, reforming health systems to move away from sick care to preventive, nutrition-based care, and providing schools with matching funds to purchase local organic produce.--Amazon.
Given the frequent movement of commercial plants outside their native location, the consistent and standard use of plant names for proper identification and communication has become increasingly important. This second edition of World Economic Plants: A Standard Reference is a key tool in the maintenance of standards for the basic science underlyin
This timely reference utilizes simplified computer strategies to analyze, develop, and optimize industrial food processes and offers procedures to assess various operating conditions, engineering and economic relationships, and the physical and transport properties of foods for the design of the most efficient food manufacturing technologies and eq
Plant Factory: An Indoor Vertical Farming System for Efficient Quality Food Production, Second Edition presents a comprehensive look at the implementation of plant factory (PF) practices to yield food crops for both improved food security and environmental sustainability. Edited and authored by leading experts in PF and controlled environment agriculture (CEA), the book is divided into five sections, including an Overview and the Concept of Closed Plant Production Systems (CPPS), the Basics of Physics and Physiology – Environments and Their Effects, System Design, Construction, Cultivation and Management and Plant Factories in Operation. In addition to new coverage on the rapid advancement of LED technology and its application in indoor vertical farming, other revisions to the new edition include updated information on the status of business R&D and selected commercial PFALs (plant factory with artificial lighting). Additional updates include those focused on micro and mini-PFALs for improving the quality of life in urban areas, the physics and physiology of light, the impact of PFAL on the medicinal components of plants, and the system design, construction, cultivation and management issues related to transplant production within closed systems, photoautotrophic micro-propagation and education, training and intensive business forums on PFs. - Includes coverage of LED technology - Presents case-studies for real-world insights and application - Addresses PF from economics and planning, to operation and lifecycle assessment
This text covers the design of food processing equipment based on key unit operations, such as heating, cooling, and drying. In addition, mechanical processing operations such as separations, transport, storage, and packaging of food materials, as well as an introduction to food processes and food processing plants are discussed. Handbook of Food Processing Equipment is an essential reference for food engineers and food technologists working in the food process industries, as well as for designers of process plants. The book also serves as a basic reference for food process engineering students.The chapters cover engineering and economic issues for all important steps in food processing. This research is based on the physical properties of food, the analytical expressions of transport phenomena, and the description of typical equipment used in food processing. Illustrations that explain the structure and operation of industrial food processing equipment are presented. style="font-size: 13.3333330154419px;">The materials of construction and fabrication of food processing equipment are covered here, as well as the selection of the appropriate equipment for various food processing operations. Mechanical processing equipment such as size reduction, size enlargement, homogenization, and mixing are discussed. Mechanical separations equipment such as filters, centrifuges, presses, and solids/air systems, plus equipment for industrial food processing such as heat transfer, evaporation, dehydration, refrigeration, freezing, thermal processing, and dehydration, are presented. Equipment for novel food processes such as high pressure processing, are discussed. The appendices include conversion of units, selected thermophysical properties, plant utilities, and an extensive list of manufacturers and suppliers of food equipment.
Over the past two years, food prices have soared -- and plummeted. As crops are increasingly shifted to biofuel production, will food prices soar again? Will people starve as a result? What are the hidden relationships between the food on your plate and the gas in your car? Will economic recovery lead directly to massive price inflation in both food and energy? In this book, one of the world's leading experts untangles the complex global relationships between food, energy, and economics and helps readers come to their own conclusions about the future of food. Pat Westhoff reveals what really causes large swings in food prices and what is likely to cause them to rise and fall in the future. Westhoff discusses all the factors that drive changes in the cost of food: not just biofuel production, but also weather, income growth, exchange rates, energy prices, government policies, market speculation, and more. Next, he walks through several of the most likely scenarios for the future, offering insights that will be indispensable to consumers, commodity speculators, and policymakers alike.
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