Sixty years ago the Louisiana Geological Survey published "Rock Salt. Its Origin. Geological Occurrences and Economic Importance in the' State of Louisiana, Together with Brief Notes and References to All Known Salt Deposits and Industries of the World" (Bull., 7, 1908, 259 pp.) by G. D. Harris, assisted by G. D. Maury and L. Reineke. The volume which follows is an equally ambitious project, carved out as a labor of love by Stanley J. Lefond, who began the work when he was a geologist with Diamond Alkali Company, Cleve land, Ohio, and finished it when he was a member of the geology staff of United States Borax & Chemical Corp., Los Angeles. Mr. Lefond has done a thorough job, taking full advantage of the discoveries (due in large part to exploration of the subsurface in the search for oil), expanded governmental coverage of mineral deposits, and improved communications, since 1908. The motivation for "The Handbook of World Salt Resources" was the First Symposium on Salt, held in Cleveland in May, 1962, which was sponsored and organized by the relatively young and dynamic Northern Ohio Geological Society. The user of this valuable compilation owes a debt of gratitude to that Society, to the Diamond Alkali Company which donated countless hours of Mr. Lefond's time, and above all, to author Stanley Lefond.
This reviews sources of radioactive waste and introduces radioactive decay and radiation shielding calculations. It covers technical and regulatory aspects of waste management with discussion questions at the end of each chapter to provide an opportunity to explore the many facets of waste management issues. An extensive reference list at the end of each chapter retains the references from the first edition of the book and incorporates references used in preparing this revised text, giving readers an opportunity to look at historical records as well as current information.
This volume, covering metals and minerals, contains chapters on approximately 90 commodities. In addition, this volume has chapters on mining and quarrying trends and on statistical surveying methods used by Minerals Information, plus a statistical summary.
The most comprehensive and in-depth study of the formation, practical applications, history, and natural recycling of salt, including the global and geological implications of its formative process, natural movement, and development in the Earth's subsurface. Like water, salt is one of the most commonplace items in our everyday lives. From the omnipresent shaker that you see on every table in every restaurant, to the ocean water we swim in, salt is something that we rarely think about. But there is much more to the story of salt than most people think. Not only is salt a natural resource that must be captured and refined for public consumption, but "salt domes," large deposits of salt that form under the ground, are important for finding and drilling for petroleum and natural gas. Salt is so important that, in ancient times, it was sometimes used as a currency in various cultures around the world, and it has been used as a food preservative, long before refrigeration was invented. Salt is something we rarely think about, but it is one of the most important natural resources that exists. This is the first integrated study of salt's global development in the Earth's subsurface, its tectonic history and kinematic evolution, "live" salt-naphtide interconnections, and their geological recycling. The Earth's salt is shown as a peculiar umbilical thread in the analysis of numerous geological processes of salt formation, transformation, migration, discharge and regeneration, and their association with hydrocarbons. Presented here is the science of salt, including the active salt bodies' "live" in Earth's subsurface, their fate and influence over the other geological processes, including grandiose systems of kinetically interrelated allochthonous nappe-like and sub-vertical bodies formed by the migrating salt. Also included are a description of sub-conformable sheet-like salt bodies formed not by the evaporation but by emigration of buried brine-salt masses and their discharge at new, younger stratigraphic levels, a description of a phenomenon of the "halo-volcanism" due to depth breakthroughs and explosive discharges of the hydrocarbon-brine-salt masses, an examination of the over-diapir surface and brine lakes with fluctuating levels, and many other things. The book provides new interpretations of numerous issues reflecting the salt "life" manifestations and gives a key to a broad circle of the geological enigmas, from global events like the Messinian crisis in the Mediterranean to Biblical legends and enigmas of the Dead Sea-lake. Whether you are a scientist or student working in the natural or Earth sciences, a geologist, an anthropologist, a petroleum engineer, a petrophysicist, or any other engineer or student working in petroleum engineering, this groundbreaking work is a must-have. Perfect for any scientist or engineer's library, this volume can be a must-read page-turner or a valuable reference work.
This volume, covering metals and minerals, contains chapters on approximately 90 commodities. In addition, this volume has chapters on mining and quarrying trends and on statistical surveying methods used by Minerals Information, plus a statistical summary.
This book provides an overview of facts, theories and methods from hydrology, geology, geophysics, law, ethics, economics, ecology, engineering, sociology, diplomacy and many other disciplines with relevance for concepts and practice of water resources management. It provides comprehensive, but also critical reading material for all communities involved in the ongoing water discourses and debates. The book refers to case studies in the form of boxes, sections, or as entire chapters. They illustrate success stories, but also lessons to be remembered, to avoid repeating the same mistakes. Based on consolidated state-of-the-art knowledge, it has been conceived and written to attract a multidisciplinary audience. The aim of this handbook is to facilitate understanding between the participants of the international water discourse and multi-level decision making processes. Knowing more about water, but also about concepts, methods and aspirations of different professional, disciplinary communities and stakeholders professionalizes the debate and enhances the decision making.