The Physics of Stocks and Flows of Energy Systems


Book Description

Using a system dynamics approach, this book illustrates the physics of fundamental accumulation processes (stocks and flows) across the demand and supply sectors of energy systems. Examples of system dynamics simulation models are presented where these accumulation processes are driving the behavior of the system. Based on these modeling efforts, two cases (the socio-economic and environmental implications of the energy policy of Pakistan and the dynamics of green power in Ontario, Canada) are analyzed and discussed. By studying the dynamics of the fundamental structures of an energy system, the reader gains an enhanced understanding of the stocks and flows of complex systems as well as their role in energy policy. This book is of use to managers and practitioners, teachers, researchers, and students of design and assessment of policy making for complex, dynamic energy systems.




The Physics of Energy


Book Description

A comprehensive and unified introduction to the science of energy sources, uses, and systems for students, scientists, engineers, and professionals.




Energy and Society


Book Description

Energy and Society is the first major text to provide an extensive critical treatment of energy issues informed by recent research on energy in the social sciences. Written in an engaging and accessible style it draws new thinking on uneven development, consumption, vulnerability and transition together to illustrate the social significance of energy systems in the global North and South. The book features case studies, examples, discussion questions, activities, recommended reading and more, to facilitate its use in teaching. Energy and Society deploys contemporary geographical concepts and approaches but is not narrowly disciplinary. Its critical perspective highlights connections between energy and significant socio-economic and political processes, such as globalisation, urban isation, international development and social justice, and connects important issues that are often treated in isolation, such as resource availability, energy security, energy access and low-carbon transition. Co-authored by leading researchers and based on current research and thinking in the social sciences, Energy and Society presents a distinctive geographical approach to contemporary energy issues. It is an essential resource for upperlevel undergraduates and Master’s students in geography, environmental studies, urban studies, energy studies and related fields.




The Changing Flow of Energy Through the Climate System


Book Description

Elegant, novel explanation of climate change, emphasizing physical understanding and concepts, while avoiding complex mathematics, supported by excellent color illustrations.




The Ontology of Physics for Biology


Book Description

This book introduces semantic representations of multiscale, multidomain physiological systems that link to qualitative reasoning and to quantitative analysis of biophysical processes in health and disease. Two major public health problems, diabetes and hypertension, serve as use-cases to illustrate the depth and rigor of such representations for logical inference and quantitative analysis. Central to this approach is the Ontology of Physics for Biology (OPB) that formally represents the foundations of classical physics and engineering system dynamics that are the basis for our understanding of biomedical entities, processes, and functional relationships. Furthermore, we introduce OPB-based software for annotating and abstracting available biosimulation models for reuse, recombination, and for archiving of physics-based biomedical knowledge. We have formalized and leveraged physics-based biological knowledge as a working view of physiology and biophysics from three distinct perspectives: (1) biologists and biomedical investigators, (2) biophysicists and bioengineers, and (3) biomedical ontologists and informaticists. We present a logical and intuitive semantics of classical physics as a tool for mediating and translating biophysical knowledge among biomedical domains. Daniel L. Cook, MD, PhD John H. Gennari, PhD Maxwell L. Neal, PhD




The Energy System


Book Description

A comprehensive textbook that integrates tools from technology, economics, markets, and policy to approach energy issues using a dynamic systems and capital-centric perspective. The global energy system is the vital foundation of modern human industrial society. Traditionally studied through separate disciplines of engineering, economics, environment, or public policy, this system can be fully understood only by using an approach that integrates these tools. This textbook is the first to take a dynamic systems perspective on understanding energy systems, tracking energy from primary resource to final energy services through a long and capital-intensive supply chain bounded by both macroeconomic and natural resource systems. The book begins with a framework for understanding how energy is transformed as it moves through the system with the aid of various types of capital, its movement influenced by a combination of the technical, market, and policy conditions at the time. It then examines the three primary energy subsystems of electricity, transportation, and thermal energy, explaining such relevant topics as systems thinking, cost estimation, capital formation, market design, and policy tools. Finally, the book reintegrates these subsystems and looks at their relation to the economic system and the ecosystem that they inhabit. Practitioners and theorists from any field will benefit from a deeper understanding of both existing dynamic energy system processes and potential tools for intervention.




Healing Spaces, Modern Architecture, and the Body


Book Description

Healing Spaces, Modern Architecture, and the Body brings together cutting-edge scholarship examining the myriad ways that architects, urban planners, medical practitioners, and everyday people have applied modern ideas about health and the body to the spaces in which they live, work, and heal. The book’s contributors explore North American and European understandings of the relationship between physical movement, bodily health, technological innovation, medical concepts, natural environments, and architectural settings from the nineteenth century through the heyday of modernist architectural experimentation in the 1920s and 1930s and onward into the 1970s. Not only does the book focus on how professionals have engaged with the architecture of healing and the body, it also explores how urban dwellers have strategized and modified their living environments themselves to create a kind of vernacular modernist architecture of health in their homes, gardens, and backyards. This new work builds upon a growing interdisciplinary field incorporating the urban humanities, geography, architectural history, the history of medicine, and critical visual studies that reflects our current preoccupation with the body and its corresponding therapeutic culture.




A Systems Approach to Modeling the Water-Energy-Land-Food Nexus, Volume II


Book Description

This two-volume book describes a flexible and adaptive system-based methodology and associated guidelines for the management and allocation of community-based WELF resources. Over the next 50 years, rapid population, urbanization, and economic growth worldwide will create unprecedented demands for water, energy, land, and food (WELF) resources. The discussion on how to meet human needs for WELF resources and how to guarantee their respective securities has changed over time from looking at all four sectors in isolation to understanding their interdependency through the so-called WELF nexus. The approach presented in this book responds to the overall agreement in the WELF nexus literature that the management and allocation of WELF resources at the community level need to be examined in a more systemic, multidisciplinary, participatory, and practical manner while seeking to increase synergies and reduce trade-offs. This book was written to explore the value proposition of that approach. This two-volume book describes a flexible and adaptive system-based methodology and associated guidelines for the management and allocation of community-based WELF resources. Volume 1 focuses on defining the landscape in which the nexus operates and outlines the proposed methodology. Volume 2 explores the quantitative and qualitative modeling of the nexus and landscape using system modeling tools including system dynamics. It presents a road map for the formulation, simulation, selection, and ranking of possible intervention plans. The proposed methodology is designed to serve as a guide for different groups involved in the science and policy decision aspects of the WELF nexus within the context of community development. The methodology focuses mostly on WELF-related issues in small-scale and low-income communities where securing resources is critical to their short- and long-term livelihood and development.




Handbook of Research on Modeling, Analysis, and Control of Complex Systems


Book Description

The current literature on dynamic systems is quite comprehensive, and system theory’s mathematical jargon can remain quite complicated. Thus, there is a need for a compendium of accessible research that involves the broad range of fields that dynamic systems can cover, including engineering, life sciences, and the environment, and which can connect researchers in these fields. The Handbook of Research on Modeling, Analysis, and Control of Complex Systems is a comprehensive reference book that describes the recent developments in a wide range of areas including the modeling, analysis, and control of dynamic systems, as well as explores related applications. The book acts as a forum for researchers seeking to understand the latest theory findings and software problem experiments. Covering topics that include chaotic maps, predictive modeling, random bit generation, and software bug prediction, this book is ideal for professionals, academicians, researchers, and students in the fields of electrical engineering, computer science, control engineering, robotics, power systems, and biomedical engineering.




Sustainability Science


Book Description

This textbook surveys key issues of sustainability - energy, nature, agro-food, resources, economics - for advanced undergraduate and graduate level courses.