<div dir="ltr"><div class="gmail_quote"><br><br><div dir="ltr"><font face="arial, helvetica, sans-serif"><b>DATE: </b> <span style="color:rgb(0,0,0)">Friday, June 30th, 2017</span><br></font><div class="gmail_quote"><div dir="ltr"><div class="gmail_quote"><div dir="ltr"><div class="gmail_quote"><div dir="ltr"><div class="gmail_quote"><div dir="ltr"><div class="gmail_quote"><div dir="ltr"><div class="gmail_quote"><div dir="ltr"><div class="gmail_quote"><div><div><div><div class="gmail_quote"><font face="arial, helvetica, sans-serif"><b><br></b></font></div><div class="gmail_quote"><font face="arial, helvetica, sans-serif"><b>TITLE: </b>A thermal-hydrologic-mechanical-<wbr>chemical model
(THMC) for CO<sub>2</sub>
sequestration and storage</font></div>
<div class="gmail_quote"><font face="arial, helvetica, sans-serif"><b><br></b></font></div><div class="gmail_quote"><font face="arial, helvetica, sans-serif"><b>TIME: </b> 3:30 PM</font></div><div class="gmail_quote"><font face="arial, helvetica, sans-serif"><br><b>LOCATION: </b> <span style="color:rgb(0,0,0)">GMCS 314</span></font></div></div><div><b><font face="arial, helvetica, sans-serif"><br></font></b></div><div><font face="arial, helvetica, sans-serif"><b>SPEAKER: </b><span style="color:rgb(0,0,0);white-space:pre-wrap">Jonathan Matthews, CSRC</span></font></div></div><div><font face="arial, helvetica, sans-serif"><br></font></div><div><font face="arial, helvetica, sans-serif"><b>ABSTRACT:</b> <span style="text-align:justify">A promising method for
counteracting anthropogenic production of </span><span style="text-align:justify">CO<sub>2</sub></span><span style="text-align:justify"> is to store the </span><span style="text-align:justify">CO<sub>2</sub></span><span style="text-align:justify"> in deep underground saline
aquifers, thereby preventing its release into the atmosphere. </span><span style="text-align:justify">CO<sub>2</sub></span><span style="text-align:justify"> stored
in such a manner is trapped by structural, solubility, residual and mineral
trapping methods. A model is presented which couples Darcy flux, poroelastic, reactive
transport, water-rock interaction and thermodynamic models to determine the
effectiveness of storage in a proposed reservoir. Results are shown for a model
reservoir based on the Frio formation pilot test </span><span style="text-align:justify">CO<sub>2</sub></span><span style="text-align:justify"> sequestration site.</span></font></div><div><font face="arial, helvetica, sans-serif"><br></font></div><div><font face="arial, helvetica, sans-serif">Sponsored by the SDSU-SIAM Student Chapter</font></div><span class="HOEnZb"><font color="#888888">
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<br>______________________________<wbr>_________________<br>
SDSU Computational Science Research Center<br>
Mailing List<br></div><br><br clear="all"><div><br></div>-- <br><div class="gmail_signature" data-smartmail="gmail_signature">
<p>Jose E. Castillo Ph.D.</p><p>Director / Professor </p>
<p>Computational Science Research Center</p>
<p>5500 Campanile Dr</p>
<p>San Diego State University</p>
<p>San Diego CA 92182-1245</p>
<p>619 5947205/3430, Fax 619-594-2459</p><p> <a href="http://www.csrc.sdsu.edu/mimetic-book/" target="_blank">http://www.csrc.sdsu.edu/mimetic-book/</a></p></div>
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