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The combination of global warming and peak oil has made finding alternative sources of energy more important than ever. Written in an easy-to-read format, Oil Sands Production Processes provide the reader with an understandable overview of the chemistry, engineering, and technology of oil sands. The various chapters have been written to include the latest developments in the oil sands industry, including evolving and new processes as well as the various environmental regulations. - Overview of the chemistry, engineering, and technology of oil sands - Updates on the evolving processes and new processes - Evolving and new environmental regulations regarding oil sands production processes
Produced sand causes a lot of problems. From that reasons sand production must be monitored and kept within acceptable limits. Sand control problems in wells result from improper completion techniques or changes in reservoir properties. The idea is to provide support to the formation to prevent movement under stresses resulting from fluid flow from reservoir to well bore. That means that sand control often result with reduced well production. Control of sand production is achieved by: reducing drag forces (the cheapest and most effective method), mechanical sand bridging (screens, gravel packs) and increasing of formation strength (chemical consolidation). For open hole completions or with un-cemented slotted liners/screens sand failure will occur and must be predicted. Main problem is plugging. To combat well failures due to plugging and sand breakthrough Water-Packing or Shunt-Packing are used.
As conventional-oil resources are depleted worldwide, vast heavy oil reserves available in various parts of the world become increasingly important as a secure future energy source. Brief but readable, Heavy Oil Production Processes discusses the latest improvements in production processes including; thermal methods (steam floods, cyclic steam stimulation, SAGD) as well as non-thermal methods (cold flow with sand production, cyclic solvent process, VAPEX). The book begins with an overview of the chemistry, engineering, and technology of heavy oil as they evolve into the twenty-first century. The preceding chapters are written to provide a basic understanding of each technology, evolving processes and new processes as well as the various environmental regulations. Clear and rigorous, Heavy Oil Production Processes will prove useful for those scientists and engineers already engaged in fossil fuel science and technology as well as scientists, non-scientists, engineers, and non-engineers who wish to gain a general overview or update of the science and technology of fossil fuels. The not only does the book discuss the production processes but also provides methods which should reduce environmental footprint and improve profitability. - Overview of the chemistry, engineering, and technology of oil sands - Updates on the evolving processes and new processes - Evolving and new environmental regulations regarding oil sands production
Tar Sands critically examines the frenzied development in the Canadian tar sands and the far-reaching implications for all of North America. Bitumen, the sticky stuff that ancients used to glue the Tower of Babel together, is the world’s most expensive hydrocarbon. This difficult-to-find resource has made Canada the number-one supplier of oil to the United States, and every major oil company now owns a lease in the Alberta tar sands. The region has become a global Deadwood, complete with rapturous engineers, cut-throat cocaine dealers, Muslim extremists, and a huge population of homeless individuals. In this award-winning book, a Canadian bestseller, journalist Andrew Nikiforuk exposes the disastrous environmental, social, and political costs of the tar sands, arguing forcefully for change. This updated edition includes new chapters on the most energy-inefficient tar sands projects (the steam plants), as well as new material on the controversial carbon cemeteries and nuclear proposals to accelerate bitumen production.
In this in-depth analysis of First Nations opposition to the oil sands industry, James Heydon offers detailed empirical insight into Canadian oil sands regulation. The environmental consequences of the oil sands industry have been thoroughly explored by scholars from a variety of disciplines. However, less well understood is how and why the provincial energy regulator has repeatedly sanctioned such a harmful pattern of production for almost two decades. This research monograph addresses that shortcoming. Drawing from interviews with government, industry, and First Nation personnel, along with an analysis of almost 20 years of policy, strategy, and regulatory approval documents, Sustainable Development as Environmental Harm offers detailed empirical insight into Canadian oil sands regulation. Providing a thorough account of the ways in which the regulatory process has prioritised economic interests over the land-based cultural interests of First Nations, it addresses a gap in the literature by explaining how environmental harm has been systematically produced over time by a regulatory process tasked with the pursuit of ‘sustainable development’. With an approach emphasizing the importance of understanding how and why the regulatory process has been able to circumvent various protections for the entire duration in which the contemporary oil sands industry has existed, this work complements existing literature and provides a platform from which future investigations into environmental harm may be conducted. It is essential reading for those with an interest in green criminology, environmental harm, indigenous rights, and regulatory controls relating to fossil fuel production.
This book details the various approaches to the production of hydrogen in petroleum refining. The need for hydrogen is addressed, and then the differences between the processes are detailed. This practical and accessible guide is written for managers, professionals, and technicians as well as graduate students transitioning into the refining industry. Key Features: Describes hydrogen purification methods and processes, providing relevant process data and fully describing process operations Describes hydrogen purification methods and processes, detailing the types of feedstock that can be used and exploring the options and parameters of each process Details commercial processes, including gasification pretreatment and reactions and considers next-generation processes and developments