Bibliographic Citation
See/Add Document Discussions Return to Search Results Return to Original Search Page Download as EndNote
Full Text	2 Mb   View Full Text or Access Individual Pages  -   search, view and/or download individual pages
DOI	10.2172/754045
Title	Evaluation of ultramafic deposits in the Eastern United States and Puerto Rico as sources of magnesium for carbon dioxide sequestration
Creator/Author	Fraser Goff ; George Guthrie ; Bruce Lipin ; Melissa Fite ; Steve Chipera ; Dale Counce ; Emily Kluk ; Hans Ziock
Publication Date	2000 Apr 01
OSTI Identifier	OSTI ID: 754045
Report Number(s)	LA-13694-MS
DOE Contract Number	W-7405-ENG-36
DOI	10.2172/754045
Other Number(s)	TRN: AH200016%%84
Resource Type	Technical Report
Resource Relation	Other Information: PBD: 1 Apr 2000
Coverage	Topical
Research Org	Los Alamos National Lab., NM (US)
Sponsoring Org	US Department of Energy (US)
Subject	58 GEOSCIENCES; 54 ENVIRONMENTAL SCIENCES; 01 COAL, LIGNITE, AND PEAT; SERPENTINITES; GEOLOGIC DEPOSITS; RESOURCE POTENTIAL; CARBON DIOXIDE; UNDERGROUND DISPOSAL; MAGNESIUM CARBONATES; AIR POLLUTION CONTROL
Description/Abstract	In this report, the authors evaluate the resource potential of extractable magnesium from ultramafic bodies located in Vermont, the Pennsylvania-Maryland-District-of-Columbia (PA-MD-DC) region, western North Carolina, and southwestern Puerto Rico. The first three regions occur in the Appalachian Mountains and contain the most attractive deposits in the eastern United States. They were formed during prograde metamorphism of serpentinized peridotite fragments originating from an ophiolite protolith. The ultramafic rocks consist of variably serpentinized dunite, harzburgite, and minor iherzolite generally containing antigorite and/or lizardite as the major serpentine minor phases. Chrysotile contents vary from minor to major, depending on occurrence. Most bodies contain an outer sheath of chlorite-talc-tremolite rock. Larger deposits in Vermont and most deposits in North Carolina contain a core of dunite. Magnesite and other carbonates are common accessories. In these deposits, MgO ranges from 36 to 48 wt % with relatively pure dunite having the highest MgO and lowest H{sub 2}O contents. Ultramafic deposits in southwestern Puerto Rico consist of serpentinized dunite and harzburgite thought to be emplaced as large diapirs or as fragments in tectonic melanges. They consist of nearly pure, low-grade serpentinite in which lizardite and chrysotile are the primary serpentine minerals. Chlorite is ubiquitous in trace amounts. Magnesite is a common accessory. Contents of MgO and H{sub 2}O are rather uniform at roughly 36 and 13 wt %. Dissolution experiments show that all serpentinites and dunite-rich rocks are soluble in 1:1 mixtures of 35% HCl and water by volume. The experiments suggest that low-grade serpentinites from Puerto Rico are slightly more reactive than the higher grade, antigorite-bearing serpentinites of the Appalachian Mountains. The experiments also show that the low-grade serpentinites and relatively pure dunites contain the least amounts of undesirable insoluble silicates. Individual ultramafic bodies in the Appalachian Mountains are as great as 7 km{sup 3} although typically they are {le}1 km{sup 3}. In contrast, ultramafic deposits in southwestern Puerto Rico have an estimated volume of roughly 150 km{sup 3}. Based on the few detailed geophysical studies in North Carolina and Puerto Rico, it is evident that volume estimates of any ultramafic deposit would benefit greatly from gravity and magnetic investigations, and from corehole drilling. Nevertheless, the data show that the ultramafic deposits of the eastern United States and southwestern Puerto Rico could potentially sequester many years of annual CO{sub 2} emissions if favorable geotechnical, engineering, and environmental conditions prevail.
Country of Publication	United States
Language	English
Format	Size: 46 pages
Availability	OSTI as DE00754045 To purchase this media from NTIS, click here
System Entry Date	2007 Apr 16
Document Discussions Discuss	User Name:  (for display) Email Address:  (Email address will NOT be displayed.) Discussion Subject:    (All fields required. Document Discussions not displayed until approved.)
See/Add Document Discussions Return to Search Results Return to Original Search Page Download as EndNote
Top