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Environmental Carbon Footprints: Industrial Case Studies provides a wide range of industrial case-studies, beginning with textiles, energy systems and bio-fuels. Each footprint is associated with background information, scientific consensus and the reason behind its invention, methodological framework, assessment checklist, calculation tool/technique, applications, challenges and limitations. More importantly, applications of each indicator/framework in various industrial sectors and their associated challenges are presented. As case studies are the most flexible of all research designs, this book allows researchers to retain the holistic characteristics of real-life events while investigating empirical events. - Includes case studies from various industries, such as textiles, energy systems and conventional and bio-fuels - Provides the calculation tool/technique, applications, challenges and limitations for determining carbon footprints on an industry by industry basis - Presents the background information, scientific consensus and reason behind each case study
This book highlights the concepts and assessment methods of Ecological Footprints. Ecological footprint is defined as, ”a measure of how much area of biologically productive land and water an individual, population or activity requires to produce all the resources it consumes and to absorb the waste it generates, using prevailing technology and resource management practices”. Developed in 1992 by William Rees, it was the first footprint developed followed by other footprints such as Carbon, Water and Energy. Assessment of Ecological footprints strive for comparing consumption footprint to biological capacity. This book presents five interesting chapters pertaining to the assessment of Ecological Footprints.
Assessing and Measuring Environmental Impact and Sustainability answers the question “what are the available methodologies to assess the environmental sustainability of a product, system or process?” Multiple well-known authors share their expertise in order to give a broad perspective of this issue from a chemical and environmental engineering perspective. This mathematical, quantitative book includes many case studies to assist with the practical application of environmental and sustainability methods. Readers learn how to efficiently assess and use these methods. This book summarizes all relevant environmental methodologies to assess the sustainability of a product and tools, in order to develop more green products or processes. With life cycle assessment as its main methodology, this book speaks to engineers interested in environmental impact and sustainability. Helps engineers to assess, evaluate, and measure sustainability in industry Provides workable approaches to environmental and sustainability assessment Readers learn tools to assess the sustainability of a process or product and to design it in an environmentally friendly way
"In the present scenario of global climate change, ecological footprint analysis is necessary for the development of more sustainable and environmentally friendly ways of living. This book includes five chapters that explore various aspects of ecological footprint analysis. Chapter One provides a platform that relates and compares principles oriented towards reducing environmental urban impacts through the analysis of urban form and empirical knowledge about the applicability of ecological footprint as a tool for urban planning and design. Chapter Two focuses on the societal need to keep cities livable and sustainable through appropriate waste management. Chapter Three illustrates how city authorities and residents can better understand their rate of dependence upon and impact on the environment at various scales, realize their vulnerability to overseas environmental changes, and suggest local action or policy guidelines that may increase their urban sustainability. Chapter Four explores means for reducing the lifecycle ecological footprint of residential buildings. Finally, Chapter Five includes an ecological footprint analysis of jatropha biodiesel production at low scale"--
'It is terrific. I can't remember the last time I read a book that was more fascinating and useful and enjoyable all at the same time.' Bill Bryson How Bad Are Bananas? was a groundbreaking book when first published in 2009, when most of us were hearing the phrase 'carbon footprint' for the first time. Mike Berners-Lee set out to inform us what was important (aviation, heating, swimming pools) and what made very little difference (bananas, naturally packaged, are good!). This new edition updates all the figures (from data centres to hosting a World Cup) and introduces many areas that have become a regular part of modern life - Twitter, the Cloud, Bitcoin, electric bikes and cars, even space tourism. Berners-Lee runs a considered eye over each area and gives us the figures to manage and reduce our own carbon footprint, as well as to lobby our companies, businesses and government. His findings, presented in clear and even entertaining prose, are often surprising. And they are essential if we are to address climate change.
This book examines the environmental footprints of recycled polyesters, highlighting the benefits and impact of recycling polyester waste and preparing it to replace virgin polyester in the raw material stage. It also discusses the importance of recycled polyester as a sustainable raw material in textile production.
This book highlights one of the most important water pollutants known as Microplastics. It has been reported that humans and the environment are dealing with microplastics particles in water and aquatic media. Despite the fact that such pollution might have mainly started out from the sea, it is now in lakes, rivers, ponds and even drinking water. This book presents as overview of microplastics in freshwater environments in different regions around the world. It discusses the ecotoxicological effects of microplastics, the removal/remediation techniques of microplastics and the role of water/wastewater treatment plants in spreading microplastics. This book is a valuable resource, covering wide aspects of microplastics from sources, detection and characterization to removal and their fate in treatment plants.
This book focuses on environmental footprints that have attracted considerable interest and discussion within academia, policy makers and the public as a tool to assess anthropogenic effects on the environment. It begins with an overview which provides a starting point for understanding the concept of environmental footprints. On the basis of a thorough investigation into the theoretical and methodological aspects of selected environmental footprints that have been widely adopted, a unified framework for structuring, categorizing and integrating various footprint indicators is established. Furthermore, the book brings clarity to the relationship between footprint analysis and life cycle assessment, and challenges the isolation of environmental footprints and planetary boundaries. The findings provide novel insights into the development of environmental footprints for environmental impact assessment and environmental sustainability assessment.
Our Ecological Footprint presents an internationally-acclaimed tool for measuring and visualizing the resources required to sustain our households, communities, regions and nations, converting the seemingly complex concepts of carrying capacity, resource-use, waste-disposal and the like into a graphic form that everyone can grasp and use. An excellent handbook for community activists, planners, teachers, students and policy makers.
This book discusses the concepts, methods and case studies pertaining to Life Cycle Assessment (LCA) based Carbon Footprint Assessment. It covers chapters on Carbon Footprint Assessment with LCA methodology & case studies on carbon footprint calculation following the LCA approach on power plants in India, Impacts of Vehicle Incidents On CO2 Emissions and school buildings in India.