My WebLink
|
Help
|
About
|
Sign Out
Home
Browse
Search
GENERAL46561
DRMS
>
Back File Migration
>
General Documents
>
GENERAL46561
Metadata
Thumbnails
Annotations
Entry Properties
Last modified
8/24/2016 8:20:26 PM
Creation date
11/23/2007 2:44:15 PM
Metadata
Fields
Template:
DRMS Permit Index
Permit No
M1978116
IBM Index Class Name
General Documents
Doc Date
11/3/2005
Doc Name
DMO-Evaluation of Potential Contaminant Migration
From
Cotter Corporation
To
DMG
Permit Index Doc Type
DMO
Media Type
D
Archive
No
There are no annotations on this page.
Document management portal powered by Laserfiche WebLink 9 © 1998-2015
Laserfiche.
All rights reserved.
/
17
PDF
Print
Pages to print
Enter page numbers and/or page ranges separated by commas. For example, 1,3,5-12.
After downloading, print the document using a PDF reader (e.g. Adobe Reader).
View images
View plain text
SM-18 Mine Report <br />GeoScience Services <br />domain. It leads to solutions that automatically conserve fluid, heat, and mass locally <br />within every grid element, as well as for the entire flow domain. The storage terms aze <br />approximated by a modified Newton-Raphson method (ACRi, 2000). <br />The PORFLOW code is particularly well suited for simulating the transport of <br />fluid and contaminants through the underlying unsaturated zone, and into the regional <br />aquifer. PORFLOW can be used to simulate the release of constituents of concern from <br />the waste form (waste rock or ore stockpile) and the subsequent transport through the <br />underlying geological media. PORFLOW was designed especially for problems of fluid <br />and mass transport in geologic media. <br />Several features of PORFLOW aze especially important regarding the proposed <br />modeling simulations. First, data exist for the waste inventory and solubility of the <br />constituents of concern. These sources terms are automatically input into the underlying <br />unsaturated zone, transported to the regional aquifer based on hydraulic and retardation <br />characteristics of the unsaturated zone, and then transported by the regional aquifer. <br />PORFLOW can simulate transport under partially or completely saturated conditions. <br />Second, PORFLOW can calculate contaminant flux values at any location in the problem <br />domain. This feature allows the user to assess the flux of constituents of concern from the <br />waste forms, the amount of constituents of concern that are being held in the unsaturated <br />zones, and the flux of constituents of concern entering the regional aquifer. <br />PORFLOW can simulate the decay of a radionuclide and up to three daughters in <br />a conservative manner. Using the law of radioactive disintegration and the half-life input <br />by the user, PORFLOW computes the remaining concentrations of the parent <br />radionuclides and the subsequent increase and/or decrease in the daughters' <br />concentrations. The code maintains a mass balance of the initial radionuclide and the <br />subsequent concentrations of the parent and daughters at selected time intervals. <br />PORFLOW has been extensively peer-reviewed (ACRi, 2000). INEEL, Battelle <br />Pacific Northwest, and Professor R. Allan Freeze of the University of British Columbia <br />have formally reviewed PORFLOW and its derivatives. Additionally, it has been <br />reviewed by ANDRA (France), Bae-SEMA (United Kingdom), British Petroleum <br />
The URL can be used to link to this page
Your browser does not support the video tag.