Food Industry Wastes: Assessment and Recuperation of Commodities presents emerging techniques and opportunities for the treatment of food wastes, the reduction of water footprint, and creating sustainable food systems. Written by a team of experts from around the world, this book provides a guide for implementing bioprocessing techniques. It also helps researchers develop new options for the recuperation of these wastes for community benefit. More than 34 million tons of food waste was generated in the United States in 2009, at a cost of approximately $43 billion. And while less than three percent of that waste was recovered and recycled, there is growing interest and development in recovering and recycling food waste. These processes have the potential not only to reduce greenhouse gases, but to provide energy and resources for other purposes. This book examines these topics in detail, starting with sources, characterization and composition of food wastes, and development of green production strategies. The book then turns to treatment techniques such as solid-state fermentation and anaerobic digestion of solid food waste for biogas and fertilizer. A deep section on innovative biocatalysts and bioreactors follows, encompassing hydrogen generation and thermophilic aerobic bioprocessing technologies. Rounding out the volume are extensive sections on water footprints, including electricity generation from microbial fuel cells (MFCs), and life cycle assessments. - Food waste is an area of focus for a wide range of related industries from food science to energy and engineering - Outlines the development of green product strategies - International authoring team represents the leading edge in research and development - Highlights leading trends of current research as well as future opportunities for reusing food waste
This is the third volume of the ISEKI-Food book series. It deals with the main features of utilization of the food industry waste, defined thereby as by-product, and the treatments necessary to discard waste to environmental acceptors. It discusses the utilization of byproducts of plants and fish, and presents case studies on waste treatment in the food industry.
The continuously increasing human population, has resulted in a huge demand for processed and packaged foods. As a result of this demand, large amounts of water, air, electricity and fuel are consumed on a daily basis for food processing, transportation and preservation purposes. Although not one of the most heavily polluting, the food industry does contribute to the increase in volume of waste produced as well as to the energy expended to do so. For the first time, nine separate food industry categories are thoroughly investigated in Waste Management for the Food Industries in an effort to help combat this already acute problem. The current state of environmental management systems is described, offering comparisons of global legislation rarely found in other resources. An extensive review of commercial equipment, including advantages and disadvantages per employed waste management technique, offers a unique perspective for any academic, student, professional, and/or consultant in the food, agriculture and environmental industries. - Thoroughly examines the most prevalent and most polluting industries such as Meat, Fish, Dairy, Olive Oil, Juice and Wine industries - Includes synoptical tables [methods employed, physicochemical or microbiological parameters altered after treatment etc] and comparative figures of the effectiveness of various waste management methods - Contains nearly 2500 of the most up-to-date references available
Food Bioconversion, Volume Two in the Handbook of Food Bioengineering series is an interdisciplinary resource of fundamental information on waste recovery and biomaterials under certain environmental conditions. The book provides information on how living organisms can be used to transform waste into compounds that can be used in food, and how specialized living cells in plants, animals and water can convert the most polluting agents into useful non-toxic products in a sustainable way. This great reference on the bioconversion of industrial waste is ideal in a time when food resources are limited and entire communities starve. - Presents extraction techniques of biological properties to enhance food's functionality, i.e. functional foods or nutraceuticals - Provides detailed information on waste material recovery issues - Compares different techniques to help advance research and develop new applications - Includes research solutions of different biological treatments to produce foods with antibiotic properties, i.e. probiotics - Explores how bioconversion technologies are essential for research outcomes to increase high quality food production
Food Waste Recovery: Processing Technologies, Industrial Techniques, and Applications, Second Edition provides information on safe and economical strategies for the recapture of value compounds from food wastes while also exploring their re-utilization in fortifying foods and as ingredients in commercial products. Sections discuss the exploration of management options, different sources, the Universal Recovery Strategy, conventional and emerging technologies, and commercialization issues that target applications of recovered compounds in the food and cosmetics industries. This book is a valuable resource for food scientists, technologists, engineers, chemists, product developers, researchers, academics and professionals working in the food industry. - Covers food waste management within the food industry by developing recovery strategies - Provides coverage of processing technologies and industrial techniques for the recovery of valuable compounds from food processing by-products - Explores the different applications of compounds recovered from food processing using three approaches: targeting by-products, targeting ingredients, and targeting bioactive applications
Biotechnology has immense potential for resolving environmental problems and augmenting food production. Particularly, it offers solutions for converting solid wastes into value-added items. In food processing industries that generate voluminous by-products and wastes, valorization can help offset growing environmental problems and facilitate the s
Value Addition in Agri-Food Industry Waste through Enzyme Technology, Volume Three explores advances in the production of high value-added products from agri-food industry waste/residues using enzyme technology. Waste materials used in hydrogen production are categorized as agricultural waste, municipal waste, industrial waste, and other hazardous wastes. The book explores advances in value-addition to waste materials and includes utilization of industrial, agricultural and municipal waste for its bioconversion using enzyme technology. This book assembles the novel sources and technologies involved in value-added products formation from specific waste materials, making it an essential reference to professionals, scientists, and academics in agri-food and related industries. - Provides biotechnological tools used in valorizing waste for the agri-food industry - Presents novel and eco-friendly alternative processes to produce value added products by food waste utilization - Discusses valuable molecules from agriculture and food industry residues as a future sustainable solution to improve public health and protect the environment
By covering both the general principles of bioconversion and the specific characteristics of the main groups of waste materials amenable to bioconversion methods, this new book provides the chemical, biochemical, agrochemical and process engineer with clear guidance on the use of these methods in devising a solution to the problem of industrial waste products.
Handbook on Organic Waste for Biological Treatment, Liquid Manure into a Solid, Tomato Waste Water Treatment, Oxalic Acid from Jute Stick, Cotton Processing Waste, Fish Waste, Agro-Industrial Wastes, Bioconversion of Pretreated Wheat Straw and Sunflower Stalks to Ethanol, Agricultural Waste Treatment, Waste of Dehydrated Onion, Beef-Cattle Manure Slurry, Meat Meal and Algae for Calves, Wastes from Large Piggeries, Pig Waste, Oxytetracycline, Methane from Cattle Waste (Also Known as The Complete Book on Biological Waste Treatment and their Utilization) Biological Treatment is the recycling of humus, nutrients and/or energy from biological waste by means of aerobic (composting) or anaerobic (digesting) processing. Biological treatment is an important and integral part of any wastewater treatment plant that treats wastewater from either municipality or industry having soluble organic impurities or a mix of the two types of wastewater sources. Biological wastewater treatment is an important and integral step of wastewater treatment system and it treats wastewater coming from either residential buildings or industries etc. It is often called as Secondary Treatment process which is used to remove any contaminants that left over after primary treatment. Organic waste is material that is biodegradable and comes from either a plant or animal. Organic waste is usually broken down by other organisms over time and may also be referred to as wet waste. Most of the time, it's made up of vegetable and fruit debris, paper, bones and human waste which quickly disintegrate. Wastewater treatment is a process used to convert wastewater, which is water no longer needed or suitable for its most recent use, into an effluent that can be either returned to the water cycle with minimal environmental issues or reused. Expenditure on water and wastewater infrastructure in India is set to increase by 83% over the next five years, hitting an annual run rate of $16 billion by 2020. The utility market is set to top $14 billion within five years, while annual spending in the industrial sector will approach $2 billion. Spending on water supply will grow from $5.56 billion to $9.4 billion over the next five years. It will be a standard reference book for professionals, entrepreneurs, those studying and researching in this important area. TAGS Biological Treatment, Organic-Waste Treatment, Biological Treatment of Organic Waste, Biological Wastewater Treatment, Biological Treatment Plant or Organic Waste, Organic Solid Waste Biological Treatment, Biological Treatment Plant, Microorganisms in Organic Waste Disposal, Biological Treatment of Waste, Process for Biological Treatment of Organic Waste, Biological Treatment Process, Organic Waste Treatment, Organic Waste Recycling, Organic Waste Forms and Treatment Strategies, Biological Waste Treatment and Utilization, Transformation of Liquid Manure into Solid, Tomato Waste Water Treatment, Treatment of Wastewater from Peeled Tomato, Tomato Cleaning and Water Recycle, Preparation of Oxalic Acid from Jute Stick, Oxalic Acid Manufacture, Oxalic Acid from Jute Stick, Digestion of Cotton Processing Waste, Properties of Sorghum Stalk, Physical and Mechanical Properties of Sorghum Stalk, Biological Fermentation of Fish Waste, Fermentation of Fish Waste, Fermented Fish Waste, Fish Waste in Fermentation, Agro-industrial Wastes, Agro-industrial wastes utilization, Recycling of Agro-Industrial Wastes, Modelling of Agricultural Waste Treatments, Utilization of Waste of Dehydrated Onion, Utilization of Waste Products of Dehydrated Onion Industry, Palm Oil Mill Effluent Disposal on Land, Palm Oil Mill Effluent (POME), Palm Oil Mill Effluent (POME) Treatment, Waste Management in Palm Oil Mill, Management and Treatment of Wastes from Large Piggeries, treatment of wastes from piggeries, Treatment of Piggery Wastes, Management of Wastes from Pig, Piggery Waste Management, Tower Digestion of Pig Waste, Nutritive Value of Poultry Waste, Digestion of Rabbit and Pig Waste, Chemical Composition of Palm Oil Mill Effluent, Humic Substances from Composed Barks, Humic Substances from Decomposing Bark, Particle Size and Tomato Waste Digestion, Humic Acids on Hydrolysis of Potato Protein, Effects of Composts on Wheat Yields, Production of Oxytetracycline, Oxytetracycline Production, Production of oxytetracycline from agricultural wastes, Use of Manure in Fish Farming, Bacteria in Swine Waste, Poultry Waste Water as Broiler Feeds, Utilization of Indian Wastes in Livestock Feeds, Methane from Cattle Waste, Methane Production from Cattle Waste, Treatment of Milking Parlour Wastewater, Pig Liquid Manure, UASB Treatment of Wastes, Digestion of Poultry Litter, Beef-Cattle Manure Slurries, New small scale ideas for Biological Treatment, Business Ideas for Biological Treatment, How to start a Biological Treatment Plant, Start Your Own Biological Treatment Business, Biological Treatment Business Plan, Business plan for Organic Waste for Biological Treatment, Small Scale Industries in India, Organic Waste for Biological Treatment Based Small Business Ideas in India, Small Scale Industry You Can Start on Your Own, Business plan for small scale industries, Profitable Small Scale Manufacturing, How to Start a Small Business in India, Free Manufacturing Business Plans, Small and Medium Scale Manufacturing, Profitable Small Business Industries Ideas, Business ideas for Startup, Detailed Project Report on Biological Treatment, Project Report on Biological Treatment, Pre-Investment Feasibility Study on Oxytetracycline Production, Techno-Economic feasibility study on Oxytetracycline Production, Feasibility report on Piggery Waste Management, Free Project Profile on Piggery Waste Management, Project profile on Organic Waste for Biological Treatment, Download free project profile on Oxytetracycline Production
Biological Treatment of Industrial Wastewater presents a comprehensive overview of the latest advances and trends in the use of bioreactors for treating industrial wastewater.