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Methods for more planet-friendly process engineering Our earth is just one big, complex Process Facility with limited air, water, and mineral resources. It responds to a number of process variables—among them, humanity and the environmental effects of our carbon consumption. What can professionals in the Hydrocarbon Process Industry do to retard environmental degradation? Rather than looking to exotic technology for solutions, Process Engineering for a Small Planet details ready-at-hand methods that the process engineer can employ to help combat the environmental crisis. Drawing from the author's professional experience working with petroleum refineries petroleum refineries, petrochemical plants, and natural gas wells, this handbook explains how to operate and retrofit process facilities to: Reuse existing process equipment Save energy Reduce greenhouse gas emissions Expand plant capacity without installing new equipment Reduce corrosion and equipment failures Covering topics from expanding fractionator and compressor capacity and vacuum tower heater expansion to minimizing process water consumption and increasing centrifugal pump capacity, Process Engineering for a Small Planet offers big ideas for saving our small planet.
This book is about planetary engineering, i.e., the conscious role in planetary habitability. It includes geo-engineering - options for the artificial maintenance of our own world as a habitable and civilized planet, but more prominently terraforming - the creation of global biospheres on such planets as Mars and Venus. .
This text features a study of the history of globality, the emergence of a complex organization of politics, economics, and culture at a planetary level. Using historical research and science studies, it tells the story of the role of technoscientific discourses in the emergence of globality.
Questions about the Earth continue to haunt engineers. For instance: What do we know about our ancient planet? How should we be using it? And what are the best technologies and strategies to sustain us? Earth Engineering provides the background necessary to analyze these questions as well as perspectives, principles, and practices to guide your understanding of geoengineering problems. Scientists, engineers, regulators, designers, constructors, educators and students will find this book especially useful when considering challenges tied to civil engineering, construction, and mining. Written in simple language, this reference guide covers many areas, including how the Earth began and developed over 4.6 billion years ago; how the Earth began and developed over 4.6 billion years ago; how to use site investigations to mitigate planning omissions and design errors; how to cope with variable subsurface strata and building challenges; how to approach geologic uncertainty and analyze problems on varying terraine; how to handle environmental regulations and legal considerations. You will treasure this broad collection and overview of geoengineering perspectives, principles, and practices. Enhance your knowledge and troubleshoot common problems with the knowledge, tools, and strategies you will fi nd in the extensive repertoire of topics and concise illustrations in Earth Engineering.
Undernourishment in some areas and abundance in others, accelerated climate changes, food distribution and security challenges, fluctuating economic and political stability and oversaturation in information - this is the world we are living in today. It seems that there is no time for the basic science plant research; instead of years of dedicated investigation, scientists are forced to wrap up their know-how in a project-oriented deliverables as fast as possible. The main strength of this book is the new knowledge about plant engineering that could be transferred into the applied science and, later on, to the industry. However, we should not forget that all great discoveries begin with the fundamental research, the wealth of good ideas and the dedicated scientific work.
We now live in the time of the Gaian hierophant. This is the one who reveals and shows us how to relate to the sacred aspects of Gaia, our planet. Who is this hierophant? Each of us, when we join the campaign with Gaia against the desecration of our natural environment. But first we have to discover what the Earth really is. The Earth's thousands of sacred sites hold a secret: they are functional parts of the planet's geomantic body, consciousness nodes in the Earth's subtle body. Each veils a Light temple, each once known widely and remembered in myth, and Welcome to Your Designer Planet! documents 165 different kinds. The Earth is not an accident of the cosmos, but was designed specifically for humans as an extended Mystery temple primed to support and enhance our greater awareness. And the designers intended that humans help maintain it. Want to help the ecosystem and modulate global warming and climate change? Plug yourself into the Earth's Light grid through your nearest sacred site and start helping. Earth Mysteries researcher Richard Leviton presents a working model of the Earth's geomantic reality based on 24 years of research. The world's myths are the doorway into this fantastic domain of the Earth's visionary geography, showing us where to go and what to do and even what kinds of spiritual beings to expect to see. The future of the Earth is in our hands. Here are some pages from its design manual showing us how to fine-tune our wonderful host planet.
This is the first book to examine the actual impact of physical and social engineering projects in more than fifty countries from a multidisciplinary perspective. The book brings together an international team of nearly two hundred authors from over two dozen different countries and more than a dozen different social, environmental, and engineering sciences. Together they document and illustrate with case studies, maps and photographs the scale and impacts of many megaprojects and the importance of studying these projects in historical, contemporary and postmodern perspectives. This pioneering book will stimulate interest in examining a variety of both social and physical engineering projects at local, regional, and global scales and from disciplinary and trans-disciplinary perspectives.
A leading scientist argues that we must consider deploying climate engineering technology to slow the pace of global warming. Climate engineering—which could slow the pace of global warming by injecting reflective particles into the upper atmosphere—has emerged in recent years as an extremely controversial technology. And for good reason: it carries unknown risks and it may undermine commitments to conserving energy. Some critics also view it as an immoral human breach of the natural world. The latter objection, David Keith argues in A Scientist's Case for Climate Engineering, is groundless; we have been using technology to alter our environment for years. But he agrees that there are large issues at stake. A leading scientist long concerned about climate change, Keith offers no naïve proposal for an easy fix to what is perhaps the most challenging question of our time; climate engineering is no silver bullet. But he argues that after decades during which very little progress has been made in reducing carbon emissions we must put this technology on the table and consider it responsibly. That doesn't mean we will deploy it, and it doesn't mean that we can abandon efforts to reduce greenhouse gas emissions. But we must understand fully what research needs to be done and how the technology might be designed and used. This book provides a clear and accessible overview of what the costs and risks might be, and how climate engineering might fit into a larger program for managing climate change.