Interfacial-Reaction Study of San Carlos Olivine Carbonation

Journal Title, Volume, Page:

Microscopy and Microanalysis / Volume 9 / Supplement S02 / August 2003, pp 682-683

Year of Publication:

2003

Link:

http://journals.cambridge.org/action/displayAbstract?fromPage=online&aid=165919&...

Authors:

Ryan Nunez

Arizona State University

Youngchul Kim

Arizona State University

R. W. Carpenter

Arizona State University

Michael McKelvy

Arizona State University

Andrew Chizmeshya

Arizona State University

Hamdallah Bearat

Arizona State University

Current Affiliation:

Department of Materials Science, Faculty of Engineering and Information Technology, An-Najah National University, Nablus. Palestine

[email protected]

Preferred Abstract (Original):

Since the late 19th century atmospheric CO2 levels have been steadily on the rise. Approximately one third of all human emissions come from fossil fuel power plants. As countries become more dependent on electrical energy and bring on line new power plants these CO2 levels will continue to rise [1]. Several solutions to this problem address converting the CO2 from the gaseous phase and storing it. Oceans, subsurface reservoirs such as depleted oil fields, and terrestrial carbon pools have all been suggested [2]..
see the full abstract in the attached file

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An-Najah Staff

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Interfacial-Reaction Study of San Carlos Olivine Carbonation