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This book examines ways of assessing the rational management of nonrenewable resources. Integrating numerous methods, it systematically exposes the strengths of exergy analysis in resources management. Divided into two parts, the first section provides the theoretical background to assessment methods, while the second section provides practical application examples. The topics covered in detail include the theory of exergy cost and thermo-ecological cost, cumulative calculus and life cycle evaluation. This book serves as a valuable resource for researchers looking to investigate a range of advanced thermodynamic assessments of the influence of production processes on the depletion of nonrenewable resources.
This book is a unique, multidisciplinary, effort to apply rigorous thermodynamics fundamentals, a disciplined scholarly approach, to problems of sustainability, energy, and resource uses. Applying thermodynamic thinking to problems of sustainable behavior is a significant advantage in bringing order to ill defined questions with a great variety of proposed solutions, some of which are more destructive than the original problem. The articles are pitched at a level accessible to advanced undergraduates and graduate students in courses on sustainability, sustainable engineering, industrial ecology, sustainable manufacturing, and green engineering. The timeliness of the topic, and the urgent need for solutions make this book attractive to general readers and specialist researchers as well. Top international figures from many disciplines, including engineers, ecologists, economists, physicists, chemists, policy experts and industrial ecologists among others make up the impressive list of contributors"
This book is a unique, multidisciplinary effort to apply rigorous thermodynamics fundamentals, a disciplined scholarly approach, to problems of sustainability, energy, and resource uses. Applying thermodynamic thinking to problems of sustainable behavior is a significant advantage in bringing order to ill-defined questions with a great variety of proposed solutions, some of which are more destructive than the original problem. The articles are pitched at a level accessible to advanced undergraduates and graduate students in courses on sustainability, sustainable engineering, industrial ecology, sustainable manufacturing, and green engineering. The timeliness of the topic, and the urgent need for solutions make this book attractive to general readers and specialist researchers as well. Top international figures from many disciplines, including engineers, ecologists, economists, physicists, chemists, policy experts and industrial ecologists among others make up the impressive list of contributors.
Thermo-ecology: Exergy as a Measure of Sustainability integrates thermo-ecology and exergy replacement cost as a new and original tool called thermo-ecology cost, or TEC. This tool allows for a more inclusive measurement of the impacts of using renewable and non-renewable resources by including the thermodynamics law in decision-making and presenting applications of this tool across industries and lifecycle assessments. It includes ways to investigate these effects more effectively by combining these critical aspects. This combination has emerged as a valuable decision-support tool for policymakers and the industry as they seek to evaluate the impacts of a product or process. Walks through what Thermo-Ecology Cost (TEC) is and why it gives a more holistic assessment when calculating the costs vs benefits of utilizing a natural resource Provides a new and more efficient way to measure and evaluate the sustainability of resources Includes: TEC calculation examples to explain the TEC theory as well as to help readers prepare their own analyses devoted to exergo-ecological applications across industries including energy production and waste management Demonstrates the potential of TEC usage for applications like ecological taxes proportional on TEC
The state of our planet continues to deteriorate at an alarming rate. We have arrived at a situation where we need to determine urgent solutions before we reach a point of irreversible deterioration. Much has been written in different contexts about reaching sustainability but the concept itself needs to be defined in the framework of all different disciplines in order to arrive at optimal solutions. Hence this book is essentially trans-disciplinary in order to find appropriate sustainable solutions, involving, collaboration across a wide range of disciplines. Publishing papers from the First International Conference on Management of Natural Resources, Sustainable Development and Ecological Hazards, the book features articles encompassing topic areas such as: Water Resources; Air; Soil; Ecology; Health Risk; Energy; Planning and Development; Political and Social Issues; The Re-Encounter; New Technologies; Learning from Nature; Safety.
The biennial series of ECOSUD conferences, originating from the work of the late Nobel laureate, Ilya Prigogine, challenges us to seeking to integrate thermodynamics, ecology and economics into “ecodynamics.” It is not only a platform to present novel research related to ecological problems from all over the world, but it also gives opportunities for new emergent ideas in science arising from the cross fertilization of different disciplines, including mathematical models and eco-informatics, evolutionary thermodynamics and biodiversity, structures in ecosystems modelling and landscapes to mention but a few. This book contains papers presented at the the Eighth International Conference in the well-established conference series on Ecosystems and Sustainable Development. Conference topics include : Greenhouse Gas Issues; Ecosystems Modelling; Mathematical and System Modelling; Natural Resources Management; Environmental Indicators; Sustainability Studies; Recovery of Damaged Areas; Energy and the Environment; Socio Economic Factors; Soil Contamination; Waste Management; Water Resources; Environmental Management; and Modelling of alternative futures.
Exergy, Second Edition deals with exergy and its applications to various energy systems and applications as a potential tool for design, analysis and optimization, and its role in minimizing and/or eliminating environmental impacts and providing sustainable development. In this regard, several key topics ranging from the basics of the thermodynamic concepts to advanced exergy analysis techniques in a wide range of applications are covered as outlined in the contents. - Offers comprehensive coverage of exergy and its applications, along with the most up-to-date information in the area with recent developments - Connects exergy with three essential areas in terms of energy, environment and sustainable development - Provides a number of illustrative examples, practical applications, and case studies - Written in an easy-to-follow style, starting from the basics to advanced systems
Containing papers presented at the Sixth International Conference on Ecosystems and Sustainable Development, this book presents research related to different aspects of ecosystems and sustainable development, including physical sciences and modelling. A wide list of topics include: Thermodynamics and Ecology; Sustainability indicators; Mathematical and system modelling; Biodiversity; Sustainability development studies; Conservation and Management of Ecological Areas; Socio-Economic Factors; Energy Conservation and Generation; Environmental and Ecological Policies; Environmental Management; Environmental Risk; Natural Resources Management; Recovery of Damaged Areas; Biological Aspects; Complexity; Remote Sensing; Landscapes and Forestation Issues; Soil and agricultural issues; Water Resources; Sustainable Waste Management; Air pollution and its Effects on Ecosystems.
The concept of sustainable development was first introduced by the Brundtland Commission almost 20 years ago and has received increased attention during the past decade. It is now an essential part of any energy activities. This is a research-based textbook which can be used by senior undergraduate students, graduate students, engineers, practitioners, scientists, researchers in the area of sustainable energy systems and aimed to address some key pillars: better efficiency, better cost effectiveness, better use of energy resources, better environment, better energy security, and better sustainable development. It also includes some cutting-edge topics, such hydrogen and fuel cells, renewable, clean combustion technologies, CO2 abatement technologies, and some potential tools (exergy, constructal theory, etc.) for design, analysis and performance improvement.
Exergy is the measurement of the amount of work capacity i.e. the amount of energy that can do work. The author applies this concept to ecology, where it can be used as an ecological indicator for ecosystem health assessment and this is presented in the book with illustrative examples. In addition, the question of how it is possible to define a special ecological exergy concept to calculate the exergy for models of ecosystems is covered. The use of exergy and an introduced fourth law of thermodynamics make it possible to understand the ecosystem reactions and how the ecosystem can grow in three different forms - biomass, complexity of network and information. From this analysis, it is clear why ecosystems are sustainable systems and what characteristic properties ecosystems have to ensure that sustainability. A parallel from ecosystems to society makes it possible to formulate the same rules (laws) for society. The concept of exergy as a health indicator measuring the degree of sustainability of society can also be used. Examples will be applied to illustrate the application of exergy and the deduced ecological rules (laws) for understanding the society.