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This book summarises the advanced CO2 capture technologies that can be used to reduce greenhouse gas emissions, especially those from large-scale sources, such as power-generation and steel-making plants.

This book explores the potential of magnetic superconductors in storage systems, specifically focusing on superconducting magnetic energy storage (SMES) systems and using the Spanish electricity system, controlled by Red Eléctrica de España (REE), as an example.The book provides a comprehensive analysis of the economic costs associated with the manufacture and maintenance of SMES systems, as well as a regulatory analysis for their implementation in the complex Spanish electrical system. The analysis also compares this system with the regulations of other countries, providing a comprehensive case study.The book examines the possible economic and environmental benefits of using magnetic superconductors in electrical systems and provides a technical study of the use of these systems in hybrid storage systems that complement each other to optimize network performance. The study is conducted from the perspective of new distribution networks, distributed generation, and the concepts of the smart city. The book also explores potential applications and developments, such as electric vehicles.Overall, this book offers an insightful and comprehensive analysis of the potential of magnetic superconductors in storage systems. It will be an invaluable resource for researchers, engineers, and policymakers interested in the future of energy storage systems

The work demonstrates a techno-economic model of power generation for the cost-effective integration of renewable energy sources, with the goal of reducing greenhouse gas emissions in Canada.

Although this transportation revolution has allowed many of us to fill our homes with global goods even a past emperor would envy, our era of abundance, and the freight transport system in particular, is predicated on the affordability and high energy density of a single fuel, oil.

MATLAB (R) funtions implemented on time-series analysis and modeling as described in this book are available for download. Detailed instructions are provided to help the user employ the code correctly.

Neoclassical growth theory is the dominant perspective for explaining economic growth.

This book provides a comprehensive account of the electricity industry in China, the world's largest power producer and carbon emitter.

This book consists of two parts, the first of which focuses on combustible solids, and the second on the industrial position concerning these materials. The risk of explosion of biomass dust materials can lead to massive economic and human losses worldwide, and applies to every facility that produces, processes or handles these materials.

The modern financial system was developed to support the rapid economic growth that took off about 200 years ago with the phenomenal amounts of cheap energy made available through the exploitation of fossil fuels.

It contains a wealth of data in tables and figures that illustrate South Africa's oil dependencies and vulnerabilities to oil shocks.

Petroleum fuels and feedstocks are responsible for much of what we take for granted in modern society, from chemical products such as fertilizer and plastics, to the energy that moves people and goods in a global economy. This book provides a perspective and overview of today's energy reality and its enormous economic and social implications.

The Chinese Oil Industry: History and Future presents a wealth of tables and figures with new data on Chinese fossil fuel production and consumption, together with a peak oil model to forecast future trends in energy supply and demand.

This book offers a detailed guide to the design and simulation of basic control methods applied to microgrids in various operating modes, using MATLAB (R) Simulink (R) software.

Research on Smart Grids has recently focused on the energy monitoring issue, with the objective of maximizing the user consumption awareness in building contexts on the one hand, and providing utilities with a detailed description of customer habits on the other.

This book is dedicated to the numerical modeling of shallow geothermal systems. The utilization of shallow geothermal energy involves the integration of multiple Borehole Heat Exchangers (BHE) with Ground Source Heat Pump (GSHP) systems to provide heating and cooling.

This is the first book to describe the development of and state of the art in solar shading devices in buildings, detailing all methods of evaluating shading systems according to thermal and visual comfort.

This book highlights the importance of human behaviour in the building design process, with a focus on the construction of zero-energy buildings.

Thermochemical gas-solid reactions, as well as adsorption processes, are currently of significant interest for the design of heat storage systems. This book provides detailed models of these reactions and processes that account for heat and mass transport, chemical and physical reactions, and possible local thermal non-equilibrium.

"The Limits to Growth" (Meadows, 1972) generated unprecedented controversy with its predictions of the eventual collapse of the world's economies.

This book explains how energy demand and energy consumption in new buildings can be predicted and how these aspects and the resulting CO2 emissions can be reduced.

This book focuses on numerical modeling of deep hydrothermal and petrothermal systems in fractured georeservoirs for utilization in Geothermal Energy applications.

This introduction to geothermal modeling deals with flow and heat transport processes in porous and fractured media related to geothermal energy applications.

This book addresses the challenges of planning sustainable freight transport systems (road and air) in a time when the industry faces increasing pressure from environmental limits, climate change, carbon emission targets, bottlenecks in oil supply, infrastructure shortages and urban congestion.

This book analyses the economic and environmental aspects of installing photovoltaic facilities for residential electricity users and determines whether the installation of photovoltaic units "behind the meter" makes sense, and if so, the best economic size to install.

This book focuses on modelling issues and their implications for the correct design of reactive absorption-desorption systems. Further, it will be of interest to all academics and students whose work involves reactive absorption-stripping design and the modelling of reactive absorption-stripping systems.

This work executes a unique transdisciplinary methodology building on the authorΓÇÖs previous book, A UserΓÇÖs Guide to the Crisis of Civilization: And How to Save it (Pluto, 2010), which was the first peer-reviewed study to establish social science framework for the integrated analysis of crises across climate, energy, food, economic, terror and the police state. Since the 2008 financial crash, the world has witnessed an unprecedented outbreak of social unrest in every major continent. Beginning with the birth of the Occupy movement and the Arab Spring, the eruption of civil disorder continues to wreak havoc unpredictably from Greece to Ukraine, from China to Thailand, from Brazil to Turkey, and beyond. Yet while policymakers and media observers have raced to keep up with events, they have largely missed the biophysical triggers of this new age of unrest ΓÇô the end of the age of cheap fossil fuels, and its multiplying consequences for the EarthΓÇÖs climate, industrial food production, and economic growth. Contrary to widely reported claims across mainstream media of a new era of prosperity heralded by the shale boom, the proliferation of contemporary climate, food and economic crises have at their root the common denominator of a fundamental and permanent disruption in the energy basis of industrial civilization. This inevitable energy transition, which will be completed well before the close of this century, entails a paradigm shift in the organization of civilization. Yet for this shift to result in a viable new way of life will require a fundamental epistemological shift recognizing humanityΓÇÖs embeddedness in the natural world. For this to be achieved, the stranglehold of conventional models achieved through the hegemony of establishment media reporting ΓÇô dominated by fossil fuel interests ΓÇô must be broken. Although the book offers a rigorous academic analysis, it is written in a clean, journalistic style to ensure readability and accessibility to a general audience. It will contain a large number of graphical illustrations concerning oil production data, population issues, the food price index, economic growth and debt, and other related issues to demonstrate the interconnections and correlations across key sectors.

By studying historical trends and outlining future scenarios, the authors illustrate the evolution of energy consumption in the transport sector, compare alternative decarbonization strategies, and analyze digitalization trends and their effects on energy consumption.