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Vol 426 No 6964 (Insight)
pp317-364 |
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hydrocarbon reservoirs
KARL ZIEMELIS
Physical Sciences Editor
The importance of fossil fuels to human society cannot be overstated. Naturally formed reservoirs of hydrocarbons occur in a variety of geological contexts (most notably as oil and gas) and are exploited to satisfy the majority of our energy needs. Such resources are finite, yet the demand for fossil fuels is growing as the industrialization of the world continues apace. The usage of fossil fuels also comes at a cost, for example, they are strongly implicated as the main driver of climate change. Consequently, the societal impact of hydrocarbons is multi-faceted, encompassing economics, politics and the environment � all issues that are the subject of ongoing and often heated public debate.
But until we find economically viable alternative sources of energy to support our energy-hungry way of life, research is needed to further our understanding of hydrocarbon- and reservoir-formation processes, in order to exploit diminishing supplies.
It has long been appreciated that a rethink is required concerning both the location and nature of the reserves that have yet to be exploited: the 'low-hanging apples' have long since been plucked, and greater ingenuity is required to both locate and economically extract the deposits of hydrocarbons that remain. And as the industry extends its reach into increasingly hostile environments (such as deep water) � or turns its attention to unconventional classes of hydrocarbon that have until now been largely ignored (for example, gas hydrates) � it finds itself faced by a host of unfamiliar scientific challenges.
Despite the maturity of the industry as a whole, its academic needs have never been greater. No longer is it simply a case of seek-and-drill and wait for the fuel (and profits!) to flow: the modern hydrocarbon engineer increasingly needs to draw on a wealth of scientific expertise, integrating disciplines as diverse as physics, chemistry and biology to both understand and successfully exploit previously intractable reservoirs. This Insight aims to give a flavour of these diverse scientific challenges and, in so doing, highlights the need for a 'renaissance' approach to industrial hydrocarbon research.
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| Introduction | |
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hydrocarbon reservoirs 317 KARL ZIEMELIS
doi:10.1038/426317a
Full text | PDF (244k) |
| Commentary | |
| Overview | |
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The long-term carbon cycle, fossil fuels and atmospheric composition 323 ROBERT A. BERNER
doi:10.1038/nature02131
Summary |
Full text | PDF (254k) |
| Review article | |
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Organicinorganic interactions in petroleum-producing sedimentary basins 327 JEFFREY S. SEEWALD
doi:10.1038/nature02132
Summary |
Full text | PDF (300k) |
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Understanding the thermal evolution of deep-water continental margins 334 NICKY WHITE, MARK THOMPSON & TONY BARWISE
doi:10.1038/nature02133
Summary |
Full text | PDF (1752k) |
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Biological activity in the deep subsurface and the origin of heavy oil 344 IAN M. HEAD, D. MARTIN JONES & STEVE R. LARTER
doi:10.1038/nature02134
Summary |
Full text | PDF (377k) |
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Fundamental principles and applications of natural gas hydrates 353 E. DENDY SLOAN JR
doi:10.1038/nature02135
Summary |
Full text | PDF (359k) |
| Commentary | |
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Integration of geoscience and engineering in the oil industry just a dream? 360 B. ARTUR STANKIEWICZ
doi:10.1038/nature02136
Summary |
Full text | PDF (512k) |
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