Fire and Ice: Regulating Methane Hydrate as a Potential New Energy Source
24 pages On March 12, 2013, Japan announced it had successfully extracted methane gas from solid methane hydrate—an icy compound formed when methane gas mixes with water under specific temperature and pressure conditions. This achievement is thought to be the first instance of researchers extracting...
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ftunivoregonsb:oai:scholarsbank.uoregon.edu:1794/18646 2023-05-15T16:37:40+02:00 Fire and Ice: Regulating Methane Hydrate as a Potential New Energy Source Jackson, Erin 2014-12-19 application/pdf http://hdl.handle.net/1794/18646 en_US eng University of Oregon School of Law 29 J. ENVTL. L. & LITIG. 611 1049-0280 http://hdl.handle.net/1794/18646 All Rights Reserved. Mining Coastal zone management Water law Article 2014 ftunivoregonsb 2022-12-19T13:50:39Z 24 pages On March 12, 2013, Japan announced it had successfully extracted methane gas from solid methane hydrate—an icy compound formed when methane gas mixes with water under specific temperature and pressure conditions. This achievement is thought to be the first instance of researchers extracting large quantities of methane gas from methane hydrate located directly below the seabed. Current estimates place the amount of natural gas trapped in methane hydrate as many times that of “conventional” natural gas. Given the abundance of methane hydrate in both permafrost and sediments beneath the seabed, scientists have begun looking to the compound as a prospective new source of natural gas for energy production. However, the regulatory scheme that would eventually govern extraction of natural gas from methane hydrate within the United States’ 200-mile Exclusive Economic Zone (EEZ) remains ambiguous, and such extraction raises serious questions about safety and environmental damage. Article in Journal/Newspaper Ice Methane hydrate permafrost University of Oregon Scholars' Bank |
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University of Oregon Scholars' Bank |
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ftunivoregonsb |
language |
English |
topic |
Mining Coastal zone management Water law |
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Mining Coastal zone management Water law Jackson, Erin Fire and Ice: Regulating Methane Hydrate as a Potential New Energy Source |
topic_facet |
Mining Coastal zone management Water law |
description |
24 pages On March 12, 2013, Japan announced it had successfully extracted methane gas from solid methane hydrate—an icy compound formed when methane gas mixes with water under specific temperature and pressure conditions. This achievement is thought to be the first instance of researchers extracting large quantities of methane gas from methane hydrate located directly below the seabed. Current estimates place the amount of natural gas trapped in methane hydrate as many times that of “conventional” natural gas. Given the abundance of methane hydrate in both permafrost and sediments beneath the seabed, scientists have begun looking to the compound as a prospective new source of natural gas for energy production. However, the regulatory scheme that would eventually govern extraction of natural gas from methane hydrate within the United States’ 200-mile Exclusive Economic Zone (EEZ) remains ambiguous, and such extraction raises serious questions about safety and environmental damage. |
format |
Article in Journal/Newspaper |
author |
Jackson, Erin |
author_facet |
Jackson, Erin |
author_sort |
Jackson, Erin |
title |
Fire and Ice: Regulating Methane Hydrate as a Potential New Energy Source |
title_short |
Fire and Ice: Regulating Methane Hydrate as a Potential New Energy Source |
title_full |
Fire and Ice: Regulating Methane Hydrate as a Potential New Energy Source |
title_fullStr |
Fire and Ice: Regulating Methane Hydrate as a Potential New Energy Source |
title_full_unstemmed |
Fire and Ice: Regulating Methane Hydrate as a Potential New Energy Source |
title_sort |
fire and ice: regulating methane hydrate as a potential new energy source |
publisher |
University of Oregon School of Law |
publishDate |
2014 |
url |
http://hdl.handle.net/1794/18646 |
genre |
Ice Methane hydrate permafrost |
genre_facet |
Ice Methane hydrate permafrost |
op_relation |
29 J. ENVTL. L. & LITIG. 611 1049-0280 http://hdl.handle.net/1794/18646 |
op_rights |
All Rights Reserved. |
_version_ |
1766027962695548928 |