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Oil sands are unconventional hydrocarbon deposits that consist of clay, sand, water, and a highly viscous petroleum product known as bitumen. Extracting bitumen from oil sands has become profitable as oil prices have increased and extraction technologies improved, and the oil sands industry has grown rapidly in Alberta, Canada. In order to transport bitumen, a diluent such as natural gas condensate or synthetic crude oil is usually added to decrease the viscosity and density. There are many concerns about environmental and human health risks of oil sands development and transportation. Contents of this report: Oil sands products and modes of transporting crude oil in North America; spills of oil sands products; projections of future spills; transportation methods; properties, fate, and behavior of oil sands products; environmental and human health effects of oil sands products; risk mitigation; gaps and recommendations; appendices. Figures and tables. This is a print on demand report.
Diluted bitumen has been transported by pipeline in the United States for more than 40 years, with the amount increasing recently as a result of improved extraction technologies and resulting increases in production and exportation of Canadian diluted bitumen. The increased importation of Canadian diluted bitumen to the United States has strained the existing pipeline capacity and contributed to the expansion of pipeline mileage over the past 5 years. Although rising North American crude oil production has resulted in greater transport of crude oil by rail or tanker, oil pipelines continue to deliver the vast majority of crude oil supplies to U.S. refineries. Spills of Diluted Bitumen from Pipelines examines the current state of knowledge and identifies the relevant properties and characteristics of the transport, fate, and effects of diluted bitumen and commonly transported crude oils when spilled in the environment. This report assesses whether the differences between properties of diluted bitumen and those of other commonly transported crude oils warrant modifications to the regulations governing spill response plans and cleanup. Given the nature of pipeline operations, response planning, and the oil industry, the recommendations outlined in this study are broadly applicable to other modes of transportation as well.
Given its geographical expanse, Canada has always faced long-term transport policy issues and challenges. Canadian Multi-Modal Transport Policy and Governance explains how and why Canadian transportation policy and related governance changed from the Pierre Trudeau era through the Chretien, Martin, Mulroney, Harper, and Justin Trudeau eras. With particular attention paid to the diversity and ongoing evolution of transportation policy since the 1960s, the broad distribution of regulatory authority across different levels of government, and the politicization of regulatory regimes and investment decisions since the 1970s, Doern, Coleman, and Prentice attempt to answer three critical questions: How and to what extent have policy and governance changed over the decades? Where has transport policy resided in federal policy agendas? And is Canada developing the policies, institutions, and capacities it needs to have a socio-economically viable and technologically advanced transportation system for the medium and long term? A sweeping history of transportation policy in Canada that fills a gap in the existing literature, Canadian Multi-Modal Transport Policy and Governance concludes that transportation has been subordinate to other federal goals and priorities, delaying and eroding transport systems into the twenty-first century.
"In this report we examine the issues associated with the transport of products derived from Alberta oil sands through the U.S., focusing on how this increased activity might change the calculus of spill risk in various ways. We begin with an introduction to oil sands production and transportation, highlighting the economic drivers of those activities and the environmental impacts in Alberta. The bulk of the report focuses on a number of the key issues, including a summary of past and projected spills of diluted bitumen and other oil sands products; a detailed outline of where oil sands products are being transported; the chemical and physical properties of oil sands products; an introduction to potential environmental and human health impacts of oil sands products; an outline of risk mitigation approaches in oil transport, planning, and spill response; and a summary of the regulations pertinent to oil transport and spills. We conclude with a summary of the gaps in information, research, and policy, and suggest some recommendations for how policymakers, researchers, and stakeholders might proceed in the future"--Background (page 15).
Diluted bitumen has been transported by pipeline in the United States for more than 40 years, with the amount increasing recently as a result of improved extraction technologies and resulting increases in production and exportation of Canadian diluted bitumen. The increased importation of Canadian diluted bitumen to the United States has strained the existing pipeline capacity and contributed to the expansion of pipeline mileage over the past 5 years. Although rising North American crude oil production has resulted in greater transport of crude oil by rail or tanker, oil pipelines continue to deliver the vast majority of crude oil supplies to U.S. refineries. Spills of Diluted Bitumen from Pipelines examines the current state of knowledge and identifies the relevant properties and characteristics of the transport, fate, and effects of diluted bitumen and commonly transported crude oils when spilled in the environment. This report assesses whether the differences between properties of diluted bitumen and those of other commonly transported crude oils warrant modifications to the regulations governing spill response plans and cleanup. Given the nature of pipeline operations, response planning, and the oil industry, the recommendations outlined in this study are broadly applicable to other modes of transportation as well.
State-of-the-art oilsands processing technologies, from laboratory to full commercial scale.
From driverless cars to vehicular networks, recent technological advances are being employed to increase road safety and improve driver satisfaction. As with any newly developed technology, researchers must take care to address all concerns, limitations, and dangers before widespread public adoption. Intelligent Transportation and Planning: Breakthroughs in Research and Practice is an innovative reference source for the latest academic material on the applications, management, and planning of intelligent transportation systems. Highlighting a range of topics, such as automatic control, infrastructure systems, and system architecture, this publication is ideally designed for engineers, academics, professionals, and practitioners actively involved in the transportation planning sector.
This book treats corrosion as it occurs and affects processes in real-world situations, and thus points the way to practical solutions. Topics described include the conditions in which petroleum products are corrosive to metals; corrosion mechanisms of petroleum products; which parts of storage tanks containing crude oils and petroleum products undergo corrosion; dependence of corrosion in tanks on type of petroleum products; aggressiveness of petroleum products to polymeric material; how microorganisms take part in corrosion of tanks and pipes containing petroleum products; which corrosion monitoring methods are used in systems for storage and transportation of petroleum products; what corrosion control measures should be chosen; how to choose coatings for inner and outer surfaces of tanks containing petroleum products; and how different additives (oxygenates, aromatic solvents) to petroleum products and biofuels influence metallic and polymeric materials. The book is of interest to corrosion engineers, materials engineers, oil and gas engineers, petroleum engineers, chemists, chemical engineers, mechanical engineers, failure analysts, scientists, and students, designers of tanks, pipelines and other systems for storage and transportation fuels, technicians. The book is of interest to corrosion engineers, materials engineers, oil and gas engineers, petroleum engineers, chemists, chemical engineers, mechanical engineers, failure analysts, scientists, and students, designers of tanks, pipelines and other systems for storage and transportation fuels, technicians. The book is of interest to corrosion engineers, materials engineers, oil and gas engineers, petroleum engineers, chemists, chemical engineers, mechanical engineers, failure analysts, scientists, and students, designers of tanks, pipelines and other systems for storage and transportation fuels, technicians.
InsideClimate News won the 2013 Pulitzer Prize in national reporting for this four-part narrative and six follow-up reports into an oil spill most Americans have never heard of. More than 1 million gallons of oil spilled into the Kalamazoo River in July 2010, triggering the most expensive cleanup in U.S. history -- more than 3/4 of a billion dollars -- and after almost two years the cleanup still isn't finished. Why not? Because the underground pipeline that ruptured was carrying diluted bitumen, or dilbit, the dirtiest, stickiest oil used today. It's the same kind of oil that the controversial Keystone XL pipeline could someday carry across the nation's largest drinking water aquifer. Written as a narrative, this page-turner takes an inside look at what happened to two families, a community, unprepared agencies and an inept company during an environmental disaster involving a new kind of oil few people know much about.