Record Details

Methane Hydrates in Nature - Current Knowledge and Challenges

ScholarsArchive at Oregon State University

Field Value
Title Methane Hydrates in Nature - Current Knowledge and Challenges
Names Collett, Tim (creator)
Bahk, Jang-Jun (creator)
Baker, Rick (creator)
Torres, Marta (creator)
et al. (creator)
Date Issued 2015-02-12 (iso8601)
Note To the best of our knowledge, one or more authors of this paper were federal employees when contributing to this work. This is the publisher’s final pdf. The published article is copyrighted by the American Chemical Society and can be found at: http://pubs.acs.org/journal/jceaax.
Abstract Recognizing the importance of methane hydrate
research and the need for a coordinated effort, the United States
Congress enacted the Methane Hydrate Research and Development
Act of 2000. At the same time, the Ministry of International
Trade and Industry in Japan launched a research program to
develop plans for a methane hydrate exploratory drilling project in
the Nankai Trough. India, China, the Republic of Korea, and other
nations also have established large methane hydrate research and
development programs. Government-funded scientific research
drilling expeditions and production test studies have provided a
wealth of information on the occurrence of methane hydrates in
nature. Numerous studies have shown that the amount of gas
stored as methane hydrates in the world may exceed the volume of
known organic carbon sources. However, methane hydrates represent both a scientific and technical challenge, and much remains to be
learned about their characteristics and occurrence in nature. Methane hydrate research in recent years has mostly focused on: (1)
documenting the geologic parameters that control the occurrence and stability of methane hydrates in nature, (2) assessing the volume of
natural gas stored within various methane hydrate accumulations, (3) analyzing the production response and characteristics of methane
hydrates, (4) identifying and predicting natural and induced environmental and climate impacts of natural methane hydrates, (5) analyzing
the methane hydrate role as a geohazard, (6) establishing the means to detect and characterize methane hydrate accumulations using
geologic and geophysical data, and (7) establishing the thermodynamic phase equilibrium properties of methane hydrates as a function of
temperature, pressure, and gas composition. The U.S. Department of Energy (DOE) and the Consortium for Ocean Leadership (COL)
combined their efforts in 2012 to assess the contributions that scientific drilling has made and could continue to make to advance our
understanding of methane hydrates in nature. COL assembled a Methane Hydrate Project Science Team with members from academia,
industry, and government. This Science Team worked with COL and DOE to develop and host the Methane Hydrate Community
Workshop, which surveyed a substantial cross section of the methane hydrate research community for input on the most important
research developments in our understanding of methane hydrates in nature and their potential role as an energy resource, a geohazard,
and/or as an agent of global climate change. Our understanding of how methane hydrates occur in nature is still growing and evolving,
and it is known with certainty that field, laboratory, and modeling studies have contributed greatly to our understanding of hydrates in
nature and will continue to be a critical source of the information needed to advance our understanding of methane hydrates.
Genre Article
Identifier Collett, T., Bahk, J. J., Baker, R., Boswell, R., Divins, D., Frye, M., ... & Torres, M. (2015). Methane Hydrates in Nature - Current Knowledge and Challenges. Journal of Chemical & Engineering Data, 60(2), 319-329. doi:10.1021/je500604h

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