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This report presents a cost analysis of 2,5-Furandicarboxylic Acid (FDCA) production from glucose syrup via the furan pathway. The process examined is similar to the Avantium YXY process, which is being scaled up to become a commercial process. In this process, glucose is isomerized to fructose. Then, fructose is converted to methoxy methyl furan (MMF) intermediate, which is oxidized to FDCA. The process uses a 70 wt% glucose-water syrup as raw material and generates methyl acetate and methyl levulinate as by-products. This report was developed based essentially on the following reference(s): (1) US Patent 20100299991, issued to Furanix Technologies B.V. in 2010 (2) US Patent 8519167, issued to Furanix Technologies B.V. in 2013 (3) US Patent 20160024039, issued to Furanix Technologies B.V. in 2016 Keywords: Polyethylene Furanoate, PEF, Green FDCA, Hydroxyl Methyl Furfural, HMF, Purified Terephthalic Acid
This report presents a cost analysis of Polyethylene Furanoate (PEF) production from monoethylene glycol (MEG) and 2,5-furandicarboxylic acid (FDCA). In this process, FDCA and MEG are polymerized to PEF in two polymerization steps in order to obtain Bottle-Grade PEF: melt-phase polymerization and solid-state polymerization. This report was developed based essentially on the following reference(s): (1) WO Patent 2015137807, issued to Furanix Technologies in 2015 (2) US Patent 6749821 issued to UOP in 2004 Keywords: Polyethylene Furanoate, Polyethylene 2,5-Furandicarboxylate, PEF, Green PEF, FDCA, MEG
In this book, some of the most qualified scientists review different food safety topics, ranging from emerging and reemerging foodborne pathogens, food regulations in the USA, food risk analysis and the most important foodborne pathogens based on food commodities. This book provides the reader with the necessary knowledge to understand some of the complexities of food safety. However, anybody with basic knowledge in microbiology will find in this book additional information related to a variety of food safety topics.
In its decades-long effort to assure the safety, efficacy, and security of medicines and other products, the Food and Drug Administration has struggled with issues of funding, proper associations with industry, and the balance between consumer choice and consumer protection. Today, these challenges are compounded by the pressures of globalization, the introduction of novel technologies, and fast-evolving threats to public health. With essays by leading scholars and government and private-industry experts, FDA in the Twenty-First Century addresses perennial and new problems and the improvements the agency can make to better serve the public good. The collection features essays on effective regulation in an era of globalization, consumer empowerment, and comparative effectiveness, as well as questions of data transparency, conflicts of interest, industry responsibility, and innovation policy, all with an emphasis on pharmaceuticals. The book also intervenes in the debate over off-label drug marketing and the proper role of the FDA before and after a drug goes on the market. Dealing honestly and thoroughly with the FDA's successes and failures, these essays rethink the structure, function, and future of the agency and the effect policy innovations may have on regulatory institutions abroad.
How the FDA became the world's most powerful regulatory agency The U.S. Food and Drug Administration is the most powerful regulatory agency in the world. How did the FDA become so influential? And how exactly does it wield its extraordinary power? Reputation and Power traces the history of FDA regulation of pharmaceuticals, revealing how the agency's organizational reputation has been the primary source of its power, yet also one of its ultimate constraints. Daniel Carpenter describes how the FDA cultivated a reputation for competence and vigilance throughout the last century, and how this organizational image has enabled the agency to regulate an industry as powerful as American pharmaceuticals while resisting efforts to curb its own authority. Carpenter explains how the FDA's reputation and power have played out among committees in Congress, and with drug companies, advocacy groups, the media, research hospitals and universities, and governments in Europe and India. He shows how FDA regulatory power has influenced the way that business, medicine, and science are conducted in the United States and worldwide. Along the way, Carpenter offers new insights into the therapeutic revolution of the 1940s and 1950s; the 1980s AIDS crisis; the advent of oral contraceptives and cancer chemotherapy; the rise of antiregulatory conservatism; and the FDA's waning influence in drug regulation today. Reputation and Power demonstrates how reputation shapes the power and behavior of government agencies, and sheds new light on how that power is used and contested. Some images inside the book are unavailable due to digital copyright restrictions.
In order to develop effective education programs for adult learners, it is necessary first to determine what the needs of those learners are. In this book, Donna S. Queeney offers step-by-step guidance on using needs assessment to design high-quality programs in continuing education settings. She identifies the factors to be considered in planning and conducting a needs assessment, such as the educational setting and characteristics of learners, and she tells how to determine the scope, target population, and level of complexity for an assessment.Queeney details specific needs assessment methods—such as self-reporting of needs and supervisor evaluations—that can be implemented with minimal experience and resources. She explains how to design surveys, questionnaires, and interviews that will motivate people to respond. And she describes how to integrate needs assessment into an organization to make it an ongoing asset to operations.
This book presents the state-of-the-art in the area of water remediation. It covers topics such as decentralized ecological wastewater treatment, applications of remote sensing and geographic information systems (GIS) in water quality monitoring and remediation, water remediation through nanotechnology, and processes used in water purification. The contents of this volume will prove useful to researchers, students, and policy makers alike.
Students embarking on their studies in chemical, mechanical, aerospace, energy, and environmental engineering will face continually changing combustion problems, such as pollution control and energy efficiency, throughout their careers. Approaching these challenges requires a deep familiarity with the fundamental theory, mathematics, and physical concepts of combustion. Based on more than two decades of teaching experience, Combustion Science and Engineering lays the necessary groundwork while using an illustrative, hands-on approach. Taking a down-to-earth perspective, the book avoids heavy mathematics in the first seven chapters and in Chapter 17 (pollutants formation and destruction), but considers molecular concepts and delves into engineering details. It begins with an outline of thermodynamics; basics of thermochemistry and chemical equilibrium; descriptions of solid, liquid, and gaseous fuels; chemical kinetics and mass transfer; and applications of theory to practical systems. Beginning in chapter 8, the authors provide a detailed treatment of differential forms of conservation equations; analyses of fuel combustion including jet combustion and boundary layer problems; ignition; flame propagation; interactive and group combustion; pollutant formation and control; and turbulent combustion. In addition, this textbook includes abundant examples, illustrations, and exercises, as well as spreadsheet software in combustion available for download. This software allows students to work out the examples found in the text. Combustion Science and Engineering imparts the skills and foundational knowledge necessary for students to successfully approach and solve new problems.
Conventional fossil fuels will constitute the majority of automotive fuels for the foreseeable future but will have to adapt to changes in engine technology. Unconventional transport fuels such as biofuels, gas-to-liquid fuels, compressed natural gas, and liquid petroleum gas will also play a role. Hydrogen might be a viable transport fuel if it overcomes barriers in production, transport, storage, and safety and/or if fuel cells become viable. This book opens by considering these issues and then introduces practical transport fuels. A chapter on engine deposits follows, which is an important practical topic about how fuels affect engines that is not usually considered in other books. The next three chapters discuss auto-ignition phenomena in engines. The auto-ignition resistance of fuels is the most important fuel property since it limits the efficiency of spark ignition engines and determines the performance of compression ignition engines. Moreover, the manufacture of fuels is primarily driven by the need to meet auto-ignition quality demands set by fuel specifications. The final chapter considers the implications for future fuels. The book covers the many important ways that fuels and engines interact and why and how fuels will need to change to meet the requirements of future engines, as well as the implications for fuels manufacture and specifications.