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Life Cycle Assessment and Environmental Impact of Polymeric Products

Author: T. J. O'Neill

Publisher: iSmithers Rapra Publishing

Published: 2003

Total Pages: 148

ISBN-13: 9781859573648

This review describes the process of life cycle analysis in some detail. It describes the different organisations involved in researching and applying these techniques and the database resources being used to generate comparative reports. The overview explains the factors to be considered, the terminology, the organisations involved in developing these techniques and the legislation which is driving the whole process forward. The ISO standards relating to environmental management are also discussed briefly in the document. Design for the environment is covered in the report. This review is accompanied by summaries of selected papers on life cycle analysis and environmental impact from the Rapra Polymer Library database.

State-of-the-Art Polymer Science and Technology in Italy (2019,2020).

Author: Ignazio Blanco

Publisher:

Published: 2020

Total Pages: 338

ISBN-13: 9783039431816

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Polymer science and technology in Italy represent long-lasting and interdisciplinary fields in which chemistry, physics, and engineering mix together to produce studies which are considered among the best in the world. Several research groups coming from very different fields often collaborate in the design of the material, of the part, and of the processing technology to obtain innovative products with outstanding, new, and smart properties. Examples of the contributions of Italian research in the field are featured in top journals and conferences throughout the world. This Special Issue collects an overview of polymer science and technology in Italy. The research topics include: polymer composites and nanocomposites; biodegradable polymers; polymers with special properties and smart polymers; advanced characterization of polymers; new and innovative polymer processes; modeling of polymer processing; polymeric materials in additive manufacturing; process-properties relationships; polymeric parts for special applications.

Life Cycle Engineering of Plastics

Author: L. Lundquist

Publisher: Elsevier

Published: 2001-01-23

Total Pages: 221

ISBN-13: 008053547X

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"This book adds much to the already evolving field of Design for Environment; but it goes far beyond most works on this subject by surrounding the central notions of life cycle assessment with a scientific body of knowledge and with a more practical slant reflecting the reality of the organizations in which product development occurs. Through a focus on plastic products, the authors show the importance of making ties between basic technical knowledge and the process of life cycle engineering. Their approach offers a practical, deliberate way to make ecologically and economically sensible decisions about product reuse and recycling and other critical dimensions of product life behavior. They demonstrate a positive approach to designing products that fits into a sustainable economy through down-to-earth cases. While the book focuses on the life cycle engineering of plastics, it is only a short step to other materials and products. Beyond contributing to the technology of life cycle engineering, this text adds to the growing body of knowledge that argues for an fundamentally new way of thinking about economic and social activity--a new paradigm for sustainable social and industrial problem solving. Industrial ecology is such a new system for thinking about and implementing sustainability that draws its core set of ideas from the ecological world. Industrial ecology brings to the surface the idea of interdependence among members of a community-- natural or economic, and notes the material cycles that are central to a stable ecosystem. The life cycle engineering framework, coupled with sound scientific knowledge of materials behavior as articulated in this book, makes a giant step towards bringing the model of industrial ecology into everyday practice." From the Preface by John R. Ehrenfeld Director, MIT Technology, Business and Environment Program Center for Technology, Policy, and Industrial Development

Life Cycle Impact Assessment

Author: Michael Z. Hauschild

Publisher: Springer

Published: 2015-03-24

Total Pages: 345

ISBN-13: 9401797447

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This book offers a detailed presentation of the principles and practice of life cycle impact assessment. As a volume of the LCA compendium, the book is structured according to the LCIA framework developed by the International Organisation for Standardisation (ISO)passing through the phases of definition or selection of impact categories, category indicators and characterisation models (Classification): calculation of category indicator results (Characterisation); calculating the magnitude of category indicator results relative to reference information (Normalisation); and converting indicator results of different impact categories by using numerical factors based on value-choices (Weighting). Chapter one offers a historical overview of the development of life cycle impact assessment and presents the boundary conditions and the general principles and constraints of characterisation modelling in LCA. The second chapter outlines the considerations underlying the selection of impact categories and the classification or assignment of inventory flows into these categories. Chapters three through thirteen exploreall the impact categories that are commonly included in LCIA, discussing the characteristics of each followed by a review of midpoint and endpoint characterisation methods, metrics, uncertainties and new developments, and a discussion of research needs. Chapter-length treatment is accorded to Climate Change; Stratospheric Ozone Depletion; Human Toxicity; Particulate Matter Formation; Photochemical Ozone Formation; Ecotoxicity; Acidification; Eutrophication; Land Use; Water Use; and Abiotic Resource Use. The final two chapters map out the optional LCIA steps of Normalisation and Weighting.

Analytical Tools for Environmental Design and Management in a Systems Perspective

Author: Nicoline Wrisberg

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 279

ISBN-13: 9401004560

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The aim of this book is to link demand and supply of environmental information in the field of Life Cycle Management. The book is based on the results of the CHAINET concerted action financed by EU-DGXII for the work period 1998-2000, and is intended to build bridges between the different scientific communities in the field of Life Cycle Management. A structured approach is followed, meaning that both demand and supply of environmental information are characterised, after which the two are linked.

Life Cycle Management

Author: Guido Sonnemann

Publisher: Springer

Published: 2015-07-16

Total Pages: 353

ISBN-13: 9401772215

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This book provides insight into the Life Cycle Management (LCM) concept and the progress in its implementation. LCM is a management concept applied in industrial and service sectors to improve products and services, while enhancing the overall sustainability performance of business and its value chains. In this regard, LCM is an opportunity to differentiate through sustainability performance on the market place, working with all departments of a company such as research and development, procurement and marketing, and to enhance the collaboration with stakeholders along a company’s value chain. LCM is used beyond short-term business success and aims at long-term achievements by minimizing environmental and socio-economic burden, while maximizing economic and social value.

Polymers

Author: Adisa Azapagic

Publisher: John Wiley and Sons

Published: 2007-12-10

Total Pages: 235

ISBN-13: 047030927X

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Recycling von Kunststoffen, Gummi und anderen Polymeren: Wie beeinflussen solche Prozesse unsere Umwelt? Dieser Frage geht der vorliegende Band nach, wobei sich der Autor auf die neue Gesetzgebung in den USA, Japan und der EU bezieht, die Polymerhersteller zum Recycling zwingt. Vor- und Nachteile der Recyclingkreisläufe werden einander gegenübergestellt. Alle Kapitel enthalten Beispielfragen und -antworten.

Polysaccharide Materials

Author: Kevin Edgar

Publisher: American Chemical Society

Published: 2009

Total Pages: 316

ISBN-13:

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Today we are experiencing a renaissance in the chemistry of polysaccharide materials. This is due in part to recognition of the importance of renewable-based materials in a society in which petroleum has become a much more expensive feedstock, with a cloudy future with respect to adequacy of supply. There are currently intense, global efforts to develop a biomass-based refinery process, intended to produce biofuel (ethanol or butanol being the top candidates) that will replace some or all of the petroleum-based fuel we now use. In parallel, scientists and non-scientists have become aware of the opportunities that this biofuel industry will create for biomass-based products. The utilization of waste from the biofuel process, along with the exploitation of the collection system for biomass that will serve the biofuel production process, to make other products from biomass, will create an unprecedented and revolutionary opportunity for the creation of integrated biorefineries. These biorefineries will have substantial resemblance to current petroleum refineries, in that they will convert a natural product (or more properly, products) into fuel by chemical transformations and separation processes, and simultaneously use co-products and main products as feedstocks for the production of more complex chemicals. In order to take advantage of the opportunities presented by a biorefinery-based economy, it is crucial that we develop new synthetic methods for polysaccharide derivatives, and new understanding of the structure-property-performance relationships of these versatile molecules. This symposium series book will describe new synthetic methods, novel polysaccharide derivatives, new applications of these derivatives in biomedicine and packaging applications, and numerous examples of the creation of new insight into the design of polysaccharide materials for performance. The articles in this symposium series book are good examples of the advances in polysaccharide chemistry being made in the current renaissance that will help to move us towards a biorefinery future.

Role of Uncertainty in Streamlined Life Cycle Assessment--exploring the Case of Petrochemical Refineries and Polymer Manufacturing Units

Author: Ashwin Krishna Murali

Publisher:

Published: 2014

Total Pages: 115

ISBN-13:

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Life Cycle Assessment (LCA) is used in the chemical process sector to compare the environmental merits of different product or process alternatives. One of the tasks that involves much time and cost in LCA studies is the specification of the exact materials and processes modeled which has limited its widespread application. To overcome this, researchers have recently created probabilistic underspecification as an LCA streamlining method, which uses a structured data classification system to enable an LCA modeler to specify materials and processes in a less precise manner. This study presents a statistical procedure to understand when streamlined LCA methods can be used, and what their impact on overall model uncertainty is. Petrochemicals and polymer product systems were chosen to examine the impacts of underspecification and mis-specification applied to LCA modeling. Ecoinvent database, extracted using GaBi software, was used for data pertaining to generic crude oil refining and polymer manufacturing modules. By assessing the variation in LCA results arising out of streamlined materials classification, the developed statistics estimate the amount of overall error incurred by underspecifying and mis-specifying material impact data in streamlined LCA. To test the impact of underspecification and mis-specification at the level of a product footprint, case studies of HDPE containers and aerosol air fresheners were conducted. Results indicate that the variation in LCA results decreases as the specificity of materials increases. For the product systems examined, results show that most of the variability in impact assessment is due to the differences in the regions from which the environmental impact datasets were collected; the lower levels of categorization of materials have relatively smaller influence on the variance. Analyses further signify that only certain environmental impact categories viz. global warming potential, freshwater eutrophication, freshwater ecotoxicity, human toxicity and terrestrial ecotoxicity are affected by geographic variations. Outcomes for the case studies point out that the error in the estimation of global warming potential increases as the specificity of a component of the product decreases. Fossil depletion impact estimates remain relatively robust to underspecification. Further, the results of LCA are much more sensitive to underspecification of materials and processes than mis-specification.

Gaseous Carbon Waste Streams Utilization

Author: National Academies of Sciences, Engineering, and Medicine

Publisher: National Academies Press

Published: 2019-02-22

Total Pages: 257

ISBN-13: 0309483360

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In the quest to mitigate the buildup of greenhouse gases in Earth's atmosphere, researchers and policymakers have increasingly turned their attention to techniques for capturing greenhouse gases such as carbon dioxide and methane, either from the locations where they are emitted or directly from the atmosphere. Once captured, these gases can be stored or put to use. While both carbon storage and carbon utilization have costs, utilization offers the opportunity to recover some of the cost and even generate economic value. While current carbon utilization projects operate at a relatively small scale, some estimates suggest the market for waste carbon-derived products could grow to hundreds of billions of dollars within a few decades, utilizing several thousand teragrams of waste carbon gases per year. Gaseous Carbon Waste Streams Utilization: Status and Research Needs assesses research and development needs relevant to understanding and improving the commercial viability of waste carbon utilization technologies and defines a research agenda to address key challenges. The report is intended to help inform decision making surrounding the development and deployment of waste carbon utilization technologies under a variety of circumstances, whether motivated by a goal to improve processes for making carbon-based products, to generate revenue, or to achieve environmental goals.