The world’s economy is fuelled by energy. Depletion of resources and severe environmental effects resulting from the continuous use of fossil fuels has motivated an increasing amount of interest in renewable energy resources and the search for energy policies leading to a sustainable future. The changes required to progress from an economy mainly relying on hydrocarbons to one taking advantage of sustainable renewable energy resources require considerable scientific research, as well as the development of new technology and design of energy systems. Energy policies and management are of primary importance to achieve sustainability and need to be compatible with recent advances in energy production and distribution. In many cases, the challenges lie as much in the conversion from renewable (wind, solar, etc.) to useful energy forms (electricity, heat, fuel) at an acceptable cost that includes the possible damage to the environment as in the integration of these renewable forms of energy into the existing infrastructure. The papers in this volume originate from the 10th edition of the Energy and Sustainability conference whose scope was to address the above issues. The conference covered diverse topics which often require the collaboration between different disciplines so that optimum solutions can be reached. The reported research includes, among others, studies on energy policies, sustainable buildings, renewable energy resources, energy and material systems performance, energy storage and distribution, as well as environmental issues linked to sustainability.

The tenth volume from the successful international conference series on sustainable tourism. Tourism is an important component of development, not only in economic terms but also for knowledge and human welfare. Today, tourism is an activity accessible to a growing number of people. The phenomenon has many more advantages than disadvantages. New forms of economic development and increasing wealth of human societies depend on tourism. Human welfare has physiological and psychological elements, which tourism promotes, both because of the enjoyment of knowing new territories and increasing contacts with near or far away societies and cultures. The tourism industry has nevertheless given rise to some serious concerns, including social costs and ecological impacts. Many ancient local cultures have practically lost their identity. Their societies have orientated their economy only to this industry. Both the natural and cultural – rural or urban – landscapes have also paid a high price for certain forms of tourism. These problems will persist if the economic benefit is the only target, leading to economic gains that eventually become ruinous. It is also important to consider that visitors nowadays are increasingly demanding in cultural and environmental terms. The research papers included in this book focus on finding ways to protect the natural and cultural landscape through the development of new solutions that minimise the adverse effects of tourism.

The future of energy production, operation and management in a changing world was the focus of the 5th International Conference on Energy Production and Management. Papers presented at the meeting form this volume. A focus is placed on the comparison of conventional energy sources, particularly hydrocarbons, with a number of other ways of producing energy, emphasising new technological developments, based on renewable resources such as solar, hydro, wind and geothermal. Key to sustainability is the need to convert new sustainable sources of energy into useful forms (electricity, heat, fuel), while finding efficient ways of storage and distribution. In many cases, the challenges lie as much with the production of such renewable energy at an acceptable cost, including damage to the environment, as with the integration of those resources into the existing infrastructure. The changes required to progress from an economy based mainly on hydrocarbons to one taking advantage of sustainable energy resources are massive and require considerable scientific research as well as the development of advanced engineering systems. Such progress demands close collaboration between different disciplines in order to arrive at optimum solutions. Also discussed is the energy use of industrial processes, including the embedded energy contents of materials, such as those in the built environment. Energy production, operation, distribution and usage, result in environmental risks that need to be better understood. They are part of energy economics and relate to human environmental health as well as ecosystems behaviour. An emphasis is placed on the ways in which more efficient use can be made of conventional as well as new energy sources. This relates to savings in energy consumption, reduction of energy losses, as well as the implementation of smart devices and the design of intelligent distribution networks.

Energy policies and management are of primary importance to achieve the development of sustainability and need to be consistent with recent advances in energy production and distribution. Progressing from an economy mainly focussed on hydrocarbons to one taking advantage of sustainable renewable energy resources requires considerable scientific research, as well as the development of new engineering systems. Energy fuels the world’s economy. Diminishing resources and severe environmental effects resulting from the continuous use of fossil fuels has motivated an increasing amount of interest in renewable energy resources and the search for sustainable energy policies. Key difficulties to overcome often originate from the conversion of renewable energies (wind, solar, etc.) to useful forms (electricity, heat, fuel) at an acceptable cost, including impacts on the environment as well as in the integration of these resources into the existing infrastructure. A wide range of topics are covered by the works contained in this book. The collaboration of varied disciplines are involved in order to arrive at optimum solutions, including studies of materials, energy networks, new energy resources, storage solutions, waste to energy systems, smart grids and many others.

The world’s economy is fuelled by energy. Depletion of resources and severe environmental effects resulting from the continuous use of fossil fuels has motivated an increasing amount of interest in renewable energy resources and the search for sustainable energy policies. This volume contains research papers presented at the 9th International conference on Energy and Sustainability. The changes required to progress from an economy mainly focussed on hydrocarbons to one taking advantage of sustainable renewable energy resources require considerable scientific research, as well as the development of new engineering systems. Energy policies and management are of primary importance to achieve the development of sustainability and need to be consistent with recent advances in energy production and distribution. In many cases, the challenges lie as much in the conversion from renewable energies (wind, solar, etc.) to useful forms (electricity, heat, fuel) at an acceptable cost including damage to the environment as in the integration of these resources into the existing infrastructure. The diverse topics covered by the papers in this book involve collaboration between different disciplines in order to arrive at optimum solutions, including studies of materials, energy networks, new energy resources, storage solutions, waste to energy systems, smart grids and many others. These research papers put a focus on sustainability across the multidisciplinary components of urban planning, the challenges presented by the increasing size of cities, the number of resources required and the complexity of modern society.

Consisting of presented papers from the 15th International Conference on Urban Regeneration and Sustainability, the included works address various aspects of the urban environment and provide solutions leading towards sustainability. Urban areas result in a series of environmental challenges varying from the consumption of natural resources and the subsequent generation of waste and pollution, contributing to the development of social and economic imbalances. As cities continue to grow all over the world, these problems tend to become more acute and require the development of new solutions. The challenge of planning sustainable contemporary cities lies in considering the dynamics of urban systems, exchange of energy and matter, and the function and maintenance of ordered structures directly or indirectly supplied and maintained by natural systems. The task of researchers is to improve the capacity to manage human activities, pursuing welfare and prosperity in the urban environment. Any investigation or planning on a city ought to consider the relationships between the parts and their connections with the living world. The dynamics of its networks (flows of energy matter, people, goods, information and other resources) are fundamental for an understanding of the evolving nature of today’s cities. Large cities represent a fertile ground for architects, engineers, city planners, social and political scientists, and other professionals able to conceive new ideas and time them according to technological advances and human requirements. Coastal areas and coastal cities are an important area covered in this volume as they have some specific features. Their strategic location facilitates transportation and the development of related activities, but this requires the existence of large ports, with the corresponding increase in maritime and road traffic and all its inherent negative effects. This requires the development of well-planned and managed urban environments, not only for reasons of efficiency and economics but also to avoid inflicting environmental degradation that causes the deterioration of natural resources, quality of life and human health. These research papers put a focus on sustainability across the multidisciplinary components of urban planning, the challenges presented by the increasing size of cities, the number of resources required and the complexity of modern society.

Comprising a selection of articles dedicated to disaster management this volume focuses on the challenges arising from extreme natural phenomena and descriptions of methods for assessing their occurrence probability and of measures for mitigating their intensity and detrimental effects.The first group of articles describes general strategies for risk assessment and mitigation, providing examples in the context of various kinds of natural disasters. The economic impact of mitigation measures, communities' differing coping capabilities, human attitudes towards relocation and possible links to climate change are among the topics considered. Natural strategies are outlined in the contexts of Turkey, Brazil and United Arab Emirates.The second part of the book is concerned with disasters from specific natural causes starting with a group of ten articles on floods.The corresponding contributions address flood frequency, vulnerability and resilience of communities, response of small and medium enterprises, risk in terms of financial losses, private investment participation to mitigation measures, assessment of design solutions against flood hazard, sleeper dykes as a means of reducing risk, preparedness of hospitals, causes of highway flooding and their relative importance, and impact of floods on poor communities. The third set of articles are related to earthquake-related hazards describing, in particular, an analysis tool providing integrated risk, coping capacity and management output, a method for assessing vulnerability considering key contributing factors, a technique for urban aftershock management and damage assessment, and neural network modelling to estimate tsunami damage.Finally, a group of three articles address issues related to landslides, namely, slope management as a means of reducing risk and losses, early warning based on rainfall data, and hazard prediction using favourability function modelling and spatial target mapping software.Providing a unique global perspective this volume focuses on recent developments over a wide range of topics that cannot be found in similar, currently available, publications in this field.This is a valuable addition to the relevant literature available to researchers and engineers working on risk assessment and mitigation of natural disaster intensity and consequences. It will appeal of those working in academic and research environments as well as governmental, professional, national and international organisations.

The book provides a comprehensive overview of the most recent and advanced research findings on energy production and management in the important Ural industrial region of Russia. The authors consider economic problems of energy development, management systems for sustainable energy, and investment mechanisms for energy. Comprised of chapters on energy efficient technologies, environmental aspects of using energy, and personnel for the power industry, the volume is ideal for a range of scientists and engineers interested in innovative approaches to generation and distribution of energy.

The book provides a comprehensive overview of the most recent and advanced research findings on energy production and management in the important Ural industrial region of Russia. The authors consider economic problems of energy development, management systems for sustainable energy, and investment mechanisms for energy. Comprised of chapters on energy efficient technologies, environmental aspects of using energy, and personnel for the power industry, the volume is ideal for a range of scientists and engineers interested in innovative approaches to generation and distribution of energy.

This book covers theoretical and experimental findings at the interface between fluid mechanics, heat transfer and energy technologies. It reports on the development and improvement of numerical methods and intelligent technologies for a wide range of applications in mechanical, power and materials engineering. It reports on solutions to modern fluid mechanics and heat transfer problems, on strategies for studying and improving the dynamics and durability of power equipment, discussing important issues relating to energy saving and environmental safety. Gathering selected contributions to the XIV International Conference on Advanced Mechanical and Power Engineering (CAMPE 2021), held online on October 18-21, 2021, from Kharkiv, Ukraine, this book offers a timely update and extensive information for both researchers and professionals in the field of mechanical and power engineering.