This book focuses on the application of virtual reality (VR) technology in mining machinery. It gives a detailed introduction to the application of VR technology in virtual assembly, virtual planning, and virtual monitoring. Based on the theory of digital twin, VR technology and collaborative control technology are applied to coal mining machinery equipment, which lays a foundation for the digitalization and intellectualization of coal machinery equipment and broadens the application scope of virtual reality technology in the mechanical engineering field. Through the application of VR technology in coal machinery equipment, this book provides new methods and ideas for teaching activities, scientific research activities, and actual production with rich illustrations, related table introduction, unique research ideas, and other unique contents. This book could be a useful reference for researchers in mining machinery, simulation and modeling, computer-aided engineering (CAD and CAE) and design, visualization, mechanical engineering, and other disciplines.

This first comprehensive review of airborne measurement principles covers all atmospheric components and surface parameters. It describes the common techniques to characterize aerosol particles and cloud/precipitation elements, while also explaining radiation quantities and pertinent hyperspectral and active remote sensing measurement techniques along the way. As a result, the major principles of operation are introduced and exemplified using specific instruments, treating both classic and emerging measurement techniques.
The two editors head an international community of eminent scientists, all of them accepted and experienced specialists in their field, who help readers to understand specific problems related to airborne research, such as immanent uncertainties and limitations. They also provide guidance on the suitability of instruments to measure certain parameters and to select the correct type of device.
While primarily intended for climate, geophysical and atmospheric researchers, its relevance to solar system objects makes this work equally appealing to astronomers studying atmospheres of solar system bodies with telescopes and space probes.

The Kyoto Protocol to reduce greenhouse gases (GHGs) in the majority of industrialised countries is the first small step on the way to an effective climate policy. In the long-term, climate policy will call for greater GHG reductions and the full participation of the global community. The five integrated chapters of this book review theoretical findings and empirical evidence in the search for the right incentives which could induce firms and governments to undertake GHG abatement measures. This book analyses the policy mixes that provide the best possible incentives for firms and governments to act on climate change and sign up to international climate agreements. In doing so, the authors address a multitude of related issues including the linkages between flexible mechanisms and voluntary agreements; regulation and taxation; the opportunities and barriers of the Kyoto Protocol for industry; and the incentives for firms to undertake climate-related R&D and investments. As well as illustrating the environmental benefits and cost-effectiveness of alternative policy mixes in reducing GHG emissions, the authors also offer sensible policy prescriptions for increasing the numbers of countries that ratify and implement climate agreements. Environmental and resource economists, environmental scientists, climate analysts and policymakers should all read this book which offers an authoritative contribution to what is arguably the most critical contemporary environmental policy issue.

Provides a thought-provoking and original approach to the science of climate. Emphasizes that there are many factors contributing to the causation of climate change. Clarifies that while anthropogenic generation of carbon dioxide is important it is only one of several human activities contributing to climate change. Considers climate change responses needed to be undertaken by politicians and society at national and global levels. Totally revised and updated with state of the art satellite data and climate models currently in operation around the globe.

For more than three decades, the US Standard Atmosphere has been used by researchers and professionals in many areas of aeronautics and atmospheric sciences. It is an idealized, all season average temperature profile of the earth's atmosphere. But today's modern day and sophisticated global applications require more extensive representations of the mean temperature profile. This book is a global augmentation of the climatological tropospheric temperature profiles in the Northern Hemisphere for different latitude belts and seasons. There are 72 mean temperature profile tables from the surface up to 10 kilometers in height that represent the four seasons for different latitudinal belts (5 Degrees N, 10 Degrees N , 15 Degrees N, 20 Degrees N, 25 Degrees N, 30 Degrees N, 35 Degrees N, 40 Degrees N, 45 Degrees N, 50 Degrees N, 55 Degrees N, 60 Degrees N, 65 Degrees N, 70 Degrees N, 75 Degrees N, 80 Degrees N, 85 Degrees N). The model is based on a neural network algorithm that uses archived radiosonde data, retrieved temperature profiles from remote sensors, and the solar insolation at the top of the earth's atmosphere. It is the most comprehensive book of mean seasonal tropospheric temperature profiles to date. It will be an indispensible reference to the aeronautic and meteorological industries worldwide as well as an easy-to-use guide for climatologists, meteorologists, aeronautic engineers, researchers and aviators.

Originally published in 1955 Atmospheric Turbulence examines dynamic meteorology and the fundamental part it plays in the overall science of meteorology. The book examines the theory of atmospheric turbulence as a more mathematically developed area than largescale motions of the atmosphere and examines its significance in economic, military and industrial spheres. The book focuses on the effect and importance of atmospheric turbulence, not only to meteorologists, but the designers of large aircraft. The book addresses the effects of turbulence and the properties of the atmosphere that can be found closer to the ground. This book will be of interest to atmospheric physicists and meteorologists.

This book provides historical perspectives on the climate apprehensions of scientists and the general public from the Englightenment to the late twentieth century. Issues discussed include what people have understood, experienced, and feared about the climate and its changes in the past; how privileged and authoritative positions on climate have been established; the paths by which we have arrived at our current state of knowledge and apprehension; and what a study of the past has to offer to the interdisciplinary investigation of environmental problems.

The Handbook of Meteorology gives specialists and non-specialists alike a clear understanding of the way our weather functions. It provides scientific answers to questions that arise when looking at the world around us. It starts with the basics of weather-temperature, pressure, humidity, and wind-before moving on to cover highs, lows, fronts, and storms, and finally ending with a look at weather forecasts, cloud watching, weather tools, and much more. The Handbook of Meteorology provides a condensed but all-inclusive broad sweep of meteorology, employing several illustrations to translate detailed technical information into terms that everyone can follow and readily refer to. It is a comprehensive reference for any budding meteorologist or environmental professional in the field, laboratory, or classroom.

First published in 1972, this first volume of Professor Lamb's study of our changing climate deals with the fundamentals of climate and climatology, as well as providing global data on the contemporary climates of the twentieth century.

First published in 1977, the second volume of Climate: Present, Past and Future covers parts III and IV of Professor Hubert Lamb's seminal and pioneering study of climatology. Part III provides a survey of evidence of types of climates over the last million years, and of methods of dating that evidence. Through the earlier stages of the Earth's development the book traces what is known of the various geographies presented by the drifting continents and indicates what can be learnt about climatic regimes and the causes of climatic change. From the last ice age to the present our knowledge of the succession of climates is summarized, indicating prevailing temperatures, rainfalls, wind and ocean current patterns where possible. Part IV considers events during the fifteen years prior to the book's initial publication, leading on to the problems of estimating the most probable future course of climatic development, and the influence of Man's activities on climate. Alongside the reissue of volume 1, this Routledge Revival will be essential reading for anyone interested in both the causes and workings of climate and in the history of climatology itself.

This wide-ranging collection of essays is written by one of the world's foremost experts on weather and climate. Six of the chapters have not been published before. The rest, taken from a variety of sources, have been thoroughly revised and brought right up to date - taking account, for example, of the Chernobyl disaster, the risks of nuclear power, and the ozone controversy. Hubert Lamb is able to provide a mature assessment of the effect of weather on people, and vice versa. His is a uniquely authoritative voice in the current debates about today's environment and the prospects for the future. After a general introduction the book is divided into three parts. The first part consists of a chronological series of portraits of climate and its impact on human affairs and the environment. These extend from the warm climates of the geological past to the current drought in Africa. There are several studies of the last few centuries and, in particular, of the various effects of the so-called 'little Ice Age'. The second part is concerned with the causes and mechanisms of climate and weather changes, including chapters discussing Christmas weather, fronts and volcanoes. In the final part Hubert Lamb looks to the future, and attempts to put into perspective some of the pessimistic forecasts currently available. The text, which is consistently authoritative but always readable, is augmented by numerous maps, diagrams and photographs.

First published in 1966 these collected papers, written by the distinguished and visionary climatologist Hubert H. Lamb, describe how climates come about and give a history of climatic changes from the last ice-age to the present time.

GENERAL INTRODUCTION TO THE ETTORE MAJORANA INTERNATIONAL SCHOOL OF CLIMATOLOGY The "Ettore Majorana Centre" for Scientific Culture, founded at Erice in 1963 by prof. Nino Zichichi, pursues the fundamental aim to create in Europe a cultural forum of high scientific standard, which can allow young research workers to appreciate current problems of major interest in the various fields of scientific research. , Since the beginning, its International Schools (over 70, today) have actively worked in disseminating scientific culture produced at the most advanced frontiers of human knowledge, spanning varied domains from biology to nuclear physics, earth sciences, meteorology, architecture, medical sciences and so on, Recently, in 1979, the International School of Climatology has been created with the purpose to organize post-doctorate cour ,;es, in which outstanding and up-to-date outlooks, theories and results in the climatic field must be presented in didactic form. Climatic variability was the subject of the first Course, in that climatic changes represent one of the most exciting phenomenologies to study; in fact, even if the climate has changed many times in the past, so making it reasonable to as sume that it will do so in the future, it is still not easy to understand the above mentioned changes from an hydrodynamical point of view.

This book proposes the tool change methods for the excessive tool wear in the construction rules of shield tunnel construction in China. From the perspective of shield tunneling, atmospheric pressure tool change, pressure opening and tool change, and other special techniques, the tool change technologies are proposed. It highlights a number of tool-changing techniques and research and development work, including pressure-changing tools, tool-changing tools in the tool-cylinder arm, and cutter-tooth cutter inter-change since the beginning of the construction of the Nanjing Yangtze River Tunnel.

Wouldn't it be useful to be able to come up with an accurate weather forecast simply by reading the clouds? Well, with this book, you can! TV forecasts, online predictions and smartphone apps are all based on the same data - a number-crunched overview of how air pressure and temperature affects the weather over a large geographical area. But to get an idea of how the weather will develop for the precise spot where you're standing (or walking, sailing, golfing, fishing, etc) you don't need any equipment or a wifi connection - you just need to look up. This book will give you a great understanding of why clouds are symptoms of weather patterns, not causes. Highly practical, it shows you how by reading these signs in the sky and referring to the explanatory colour photos and diagrams, you will be able to tell exactly what those signs mean. After its very well received first edition, this second edition is revised and expanded, including plenty of new photos to cover every possible view of the sky. With this at-a-glance guide to the clouds anywhere in the world, on land or at sea, you will be able to predict the weather by recognising cloud types, shapes, colours and behaviour. Including a Foreword by Tom Cunliffe, writer, TV presenter and yachting instructor, this will be an invaluable companion for everyone who enjoys time spent outdoors.

The sun radiates a tremendous amount of energy, called solar energy or solar radiation, which is the main natural source of energy on the Earth, by far. Because solar radiation is the almost unique supplier of energy to the Earth, it has a primary influence on life and activities on the Earth. The climate is a first example, but there are many others, such as plant growth or human health, or even the design of buildings, the production of energy, notably electrical and thermal, or even aging materials. This book aims to provide simple answers to anyone who has questions about solar radiation. Its ambition is to help by presenting the fundamental elements of the solar radiation received on the ground. The book includes many examples and numerous illustrations, as well as some simple but fairly precise equations to calculate the various elements covered and to reproduce the figures and graphs. The first of the three parts of this book is devoted to the relative geometry between the direction of the sun and an observer on the ground as well as to the solar radiation emitted by the sun and received at the top of the atmosphere. The orbit of the Earth around the sun and the solar declination are described. The concept of time is introduced which is closely linked to the solar cycle and the rotation of the Earth on itself. Equations are given to calculate the solar radiation received on a horizontal or inclined surface located at the top of the atmosphere. The spectral distribution of the extraterrestrial solar radiation is described. The second part of this book addresses how the solar radiation incident at the top of the atmosphere is attenuated and modified in its downward path to the ground. The reflection of the radiation by the ground is presented. The solar radiation received on the ground by a horizontal or inclined collector plane, such as a natural slope or a rooftop, is discussed, as well as its spectral distribution. The variability of the radiation is addressed in relation to the properties of solar radiation estimated from the measurements. The third part deals with direct or indirect measurements of the solar radiation received on the ground over a given integration time (minute, hour, day, or month), whether for total radiation or radiation in a spectral range such as ultraviolet (UV), or daylight, or photosynthetically active radiation (PAR). It also explains how to check the plausibility of the measurements. Fundamentals of Solar Radiation will be a valuable resource to all professionals, engineers, researchers, students, and other practitioners that seek an understanding of solar radiation.

More than 20 years after the last book on the subject the worldwide precipitation community has produced a comprehensive overview of its activities, achievements, ongoing research and future plans. Measuring Precipitation from Space presents state-of-the-art rainfall estimation algorithms, validation strategies, precipitation modelling, and assimilation in numerical weather prediction models. Clouds and precipitation observations and modelling are addressed for the improvement of the rainfall product quality. Special attention is given to the applications to monitoring and forecasting weather events and to climate monitoring in a frame of growing public interest.

This book, authored by a well-known researcher and expositor in meteorology, focuses on the direct link between molecular dynamics and atmospheric variation. Uniting molecular dynamics, turbulence theory, fluid mechanics and non equilibrium statistical mechanics, it is relevant to the fields of applied mathematics, physics and atmospheric sciences, and focuses on fluid flow and turbulence, as well as on temperature, radiative transfer and chemistry. With extensive references and glossary this is an ideal text for graduates and researchers in meteorology, applied mathematics and physical chemistry.

Tom Tietenberg, one of the leading economists working in the field of environmental economics has edited a collection of the most important articles and papers on global warming, which poses major challenges to our economic and political institutions. In this authoritative volume, leading economists bring unusual clarity and insight to the process of understanding these challenges and meets them with pragmatic solutions. Specific topics include: modelling and responding to the unique types of risks posed by global warming; estimating the cost of control and damages from global warming, as well as deriving optimum solutions; debating the appropriate role for discounting; estimating the value of information to reduce the uncertainty; and examining the issues associated with the use of two prominent policy approaches carbon taxes and transferable carbon permits. Few challenges pose a greater threat to our economic and political institutions than global warming. Uncertainty about the consequences of continued greenhouse gas emissions, the temporal and geographic separation of costs and benefits, the potentially enormous cost of making the wrong choices, and the necessity for (and the difficulties of) international cooperation all contribute to the complexity and the significance of the issue. In this book leading economists bring unusual clarity and insight to the process of understanding these challenges and meeting them with pragmatic solutions. Specific topics covered include: modeling and responding to the unique types of risks posed by global warming; estimating the costs of control and damages from discounting, estimating the value of information to reduce the uncertainty, and examining the issues associated with the use of the two most prominent policy approaches - carbon taxes and transferable carbon permits.

This book describes the methods used to construct general circulation models of the atmosphere, and how such models perform in applications relating to the real climate and environmental systems. The author describes the fundamental dynamics of the atmospheric circulation, modelling of the general circulation, and applications of GCMs. The book consits of three parts: - Part 1 summarizes the physical processes involved, including basic equations, waves and instabilities; - Part 2 covers atmospheric structures, including various types of one- and two-dimensional structures and circulations; - Part 3 describes the basic notions for construction of general circulation models of the atmosphere and their applications. The text includes an appendix incorporating the basic data and mathematical formulae required to enable readers to construct GCMs for themselves.

Climate change is the single most important global environmental and development issue facing the world today and has emerged as a major topic in tourism studies. Climate change is already affecting the tourism industry and is anticipated to have profound implications for tourism in the twenty-first century, including consumer holiday choices, the geographic patterns of tourism demand, the competitiveness and sustainability of destinations and the contribution of tourism to international development.

Tourism and Climate Change: Impacts, Adaptation and Mitigation is the first book to provide a comprehensive overview of the theory and practice of climate change and tourism at the tourist, enterprise, destination and global scales. Major themes include the implications of climate change and climate policy for tourism sectors and destinations around the world, tourist perceptions of climate change impacts, tourism 's global contribution to climate change, adaptation and mitigation responses by all major tourism stakeholders, and the integral links between climate change and sustainable tourism. It combines a thorough scientific assessment of the climate-tourism interrelationships with discussion of emerging mitigation and adaptation practice, showcasing international examples throughout the tourism sector as well as actions by other sectors that will have important implications for tourism.

Written by three leading academics in this field, this critical contribution highlights the challenges of climate change within the tourism community and provides a foundation for decision making for both reducing the risks, and taking advantage of the opportunities, associated with climate change. This comprehensive discussion of the complexities of climate change and tourism is essential reading for students, academics, business leaders and government policy makers.

INTRODUCTION TO AEROSOL MODELLING Introduction to Aerosol Modelling: From Theory to Code An aerosol particle is defined as a solid or liquid particle suspended in a carrier gas. Whilst we often treat scientific challenges in a siloed way, aerosol particles are of interest across many disciplines. For example, atmospheric aerosol particles are key determinants of air quality and climate change. Knowledge of aerosol physics and generation mechanisms is key to efficient fuel delivery and drug delivery to the lungs. Likewise, various manufacturing processes require optimal generation, delivery and removal of aerosol particles in a range of conditions. There is a natural tendency for the aerosol scientist to therefore work at the interface of the traditional academic subjects of physics, chemistry, biology, mathematics and computing. The impacts that aerosol particles have are linked to their evolving chemical and physical characteristics. Likewise, the chemical and physical characteristic of aerosol particles reflect their sources and subsequent processes they have been subject to. Computational models are not only essential for constructing evidence-based understanding of important aerosol processes, but also to predict change and impact. Whilst existing textbooks provide an overview of theoretical frameworks on which aerosol models are based, there is a significant gap in reference material that provide training in translating theory into code. The purpose of this book is to provide readers with exactly that. In following the content provided in this book, you will be able to reproduce models of key processes that can either be used in isolation or brought together to construct a demonstrator 0D box-model of a coupled gaseous-particulate system. You may be reading this book as an undergraduate, postgraduate, seasoned researcher in the private/public sector or as someone who wishes to better understand the pathways to aerosol model development. Wherever you position yourself, it is hoped that the tools you will learn through this book will provide you with the basis to develop your own platforms and to ensure the next generation of aerosol modellers are equipped with foundational skills to address future challenges in aerosol science.

This book provides information on the latest technological developments taking place in Geotechnical engineering, pertaining to Soil Dynamics and Modelling of Geotechnical Problems. The book is useful for the academicians and working professionals with coverage of both theoretical and practical aspects of Dynamics of Soil and Modelling studies on Geotechnical problems based on research findings and site specific inputs. The book serves as a useful reference resource for graduate and postgraduate students of civil engineering and contents of the book are helpful to the postgraduate students and research scholars in carrying out the research.

This book deals with the main principles of large-scale atmospheric dynamics on the basis of adiabatic motion constants. It can be considered as an introduction to the theory of quasi two-dimensional fluid motion concentrating primarily on nearly horizontal fluid parcel displacements in a stably stratified compressible fluid. A thorough mathematical treatment of the governing equations is coupled with a clear interpretation of the phenomena studied and accompanied by examples of real meteorological data analysis. Topics include a complete set of compressible fluid dynamic equations along with a survey on fluid dynamical conservation laws used in meteorology and atmospheric physics; the derivation of two-dimensional atmospheric models; large-scale flows; isentropic analysis of large-scale atmospheric processes; and the principles of kinetic energy sinks and their relation to the energy balance in the atmosphere.

Marine biogeography, the study of the spatial distribution of organisms in the world's oceans, is one of the most fascinating branches of oceanography. This book continues the pioneering research into the distributions of molluscan faunas, first studied by biologists over 160 years ago. It illustrates 1778 species of gastropods in full color, many of which are extremely rare and poorly known endemic species that are illustrated for the first time outside of their original descriptions. The spatial arrangements of malacofaunas shown in this book can be considered proxies for worldwide oceanic conditions and used as tools for determining patterns of global climate change. The book's documentation of evolutionary "hot spots" and geographically restricted endemic faunas can also be used as a base line for future studies on patterns of environmental deterioration and extinction in the marine biosphere. Documenting the evolution of the amazingly rich worldwide gastropod fauna, this book will appeal to physical and chemical oceanographers, systematic and evolutionary biologists, historical geologists, paleontologists, climatologists, geomorphologists, and physical geographers. The authors incorporate aspects of all of these disciplines into a new classification system for the nomenclature of biogeographical spatial units found in tropical, subtropical, and warm temperate seas.