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Biofuels from Agricultural Wastes and Byproducts
Traditional agriculture and emerging biofuels technology produce anumber of wastes and by-products, ranging from corn fiber andglycerin to animal manure, that have the potential to serve as thebasis for additional sources of bioenergy that includes both liquidbiofuels and biogas. Biofuels from Agricultural Wastes and Byproducts isthe first book to focus solely on the production of biofuelsprimarily from agricultural waste and by-products. The book isdivided roughly into two sections. The first section looks atliquid biofuel production from agricultural byproducts,densification of agricultural residues, and the delivery from farmto processing plant of waste and byproducts for use in biofuelproduction. The second section focuses on anaerobic digestion offood and animal wastes, microbial diversity, molecular andbiochemical aspects of methanogensis. Together these sections solidify Biofuels fromAgricultural Wastes and Byproducts as a definitive source ofinformation on the use of agricultural waste and by-products inbiofuel production.
Biomass to Biofuels
Focusing on the key challenges that still impede the realization of the billion-ton renewable fuels vision, this book integrates technological development and business development rationales to highlight the key technological.developments that are necessary to industrialize biofuels on a global scale. Technological issues addressed in this work include fermentation and downstream processing technologies, as compared to current industrial practice and process economics. Business issues that provide the lens through which the technological review is performed span the entire biofuel value chain, from financial mechanisms to fund biotechnology start-ups in the biofuel arena up to large green field manufacturing projects, to raw material farming, collection and transport to the bioconversion plant, manufacturing, product recovery, storage, and transport to the point of sale. Emphasis has been placed throughout the book on providing a global view that takes into account the intrinsic characteristics of various biofuels markets from Brazil, the EU, the US, or Japan, to emerging economies as agricultural development and biofuel development appear undissociably linked.
Nonthermal Processing Technologies for Food
Nonthermal Processing Technologies for Food offers a comprehensive review of nonthermal processing technologies that are commercial, emerging or over the horizon. In addition to the broad coverage, leading experts in each technology serve as chapter authors to provide depth of coverage. Technologies covered include: physical processes, such as high pressure processing (HPP); electromagnetic processes, such as pulsed electric field (PEF), irradiation, and UV treatment; other nonthermal processes, such as ozone and chlorine dioxide gas phase treatment; and combination processes. Of special interest are chapters that focus on the "pathway to commercialization" for selected emerging technologies where a pathway exists or is clearly identified. These chapters provide examples and case studies of how new and nonthermal processing technologies may be commercialized. Overall, the book provides systematic knowledge to industrial readers, with numerous examples of process design to serve as a reference book. Researchers, professors and upper level students will also find the book a valuable text on the subject.
Thermal Processing of Foods
The food industry has utilized automated control systems for over a quarter of a century. However, the past decade has seen an increase in the use of more sophisticated software-driven, on-line control systems, especially in thermal processing unit operations. As these software-driven control systems have become more complex, the need to validate their operation has become more important. In addition to validating new control systems, some food companies have undertaken the more difficult task of validating legacy control systems that have been operating for a number of years on retorts or aseptic systems. Thermal Processing: Control and Automation presents an overview of various facets of t...
Hydrocolloids in Food Processing
In Hydrocolloids in Food Processing, a group of the most experienced and impartial experts explains what stabilizers should be used and how they should be used, food product by food product. Numerous actual product formulations are packed into each chapter and the processing procedures to make these formulations are clearly described. Food manufacturers are shown how to accurately use food stabilizers to make the highest quality food products. Coverage includes all the practical details needed to ensure the most accurate QA standards and testing procedures for each hydrocolloid. Finally, Hydrocolloids in Food Processing explains how to navigate the often tricky area of dealing with hydrocolloid suppliers. An informative discussion of how hydrocolloid companies think and operate today is followed by precise strategies to ensure that the most mutually beneficial relationships can be obtained between specific customer types and appropriate types of suppliers.
Food Carbohydrate Chemistry
Not since "Sugar Chemistry" by Shallenberger and Birch (1975) has a text clearly presented and applied basic carbohydrate chemistry to the quality attributes and functional properties of foods. Now in Food Carbohydrate Chemistry, author Wrolstad emphasizes the application of carbohydrate chemistry to understanding the chemistry, physical and functional properties of food carbohydrates. Structure and nomenclature of sugars and sugar derivatives are covered, focusing on those derivatives that exist naturally in foods or are used as food additives. Chemical reactions emphasize those that have an impact on food quality and occur under processing and storage conditions. Coverage includes: how che...
Nanotechnology and Functional Foods
The continued advancement in the sciences of functional foods and nutraceuticals has clearly established a strong correlation between consumption of bioactives and improved human health and performance. However, the efficacy and bioavailability of these bioactive ingredients (e.g., omega-3 oils, carotenoid antioxidants, vitamins, and probiotic bacteria) in foods often remains a challenge, due to their instability in food products and gastrointestinal tract, as well as their limited bioavailability. In some cases, these bioactive ingredients may impart an undesirable organoleptic characteristic to the final product, which hinders acceptance by consumers. In addressing these challenges, develo...
Improving Import Food Safety
Food safety has been a global concern for many years. While global sourcing of foods and ingredients provides great opportunity for variety and diversity of cultural products, there are significant risks. Programs that regulate food safety and quality in countries around the world vary in their scope and effectiveness, with many being underfunded. Rapidly developing countries may lack the expertise, laboratory resources for testing, and established inspection programs to adequately promote the safety of foods. Rather, these countries may be more focused on providing enough food for their citizens. Lack of documentation or traceability in the exporting country can further exacerbate the situa...
Advances in Dairy Ingredients
Advances in Dairy Ingredients provides an international perspective on recent developments in the area of dairy ingredients and dairy technology. Market and manufacturing trends and opportunities are aligned with the latest science tools that provide the foundation to successfully and rapidly capture these opportunities. Functional foods are emerging as key drivers of the global food economy and dairy ingredients and technology are at the forefront in these developments. Advances in Dairy Ingredients brings together food scientists, industry specialists, and marketers from around the world to provide unique insight into the scientific basis for the success of dairy ingredients in modern food products, and a glimpse into the future of new dairy ingredients and foods on the horizon.
Photosynthesis
This book assembles state-of-the-art approaches for harnessing light energy as a model to develop natural systems such as biofuels. After the basics and potential of photosynthesis of microalgae it discusses topics from engineering micro-algae towards increased photosynthetic efficiency till the optimization of photobioreactor techniques for enhanced biotechnological applications such as cyanobacteria.
