![[logo] US EPA](https://webarchive.library.unt.edu/eot2008/20081106080437im_/http://www.epa.gov/epafiles/images/logo_epaseal.gif){kind=logo}
Journal Publications Details for:
Kinetic and Mechanistic Framework for Remediation Using Zerovalent Iron (SEERII)
Grant Number R829422E03
RFA: EPSCoR (Experimental Program to Stimulate Competitive Research) (2001)
| Reference Type | Citation | Progress Report Year | Document Sources |
|---|---|---|---|
| Journal Article | Gibb C, Satapanajaru T, Comfort SD, Shea PJ. Remediating dicamba-contaminated water with zerovalent iron. Chemosphere 2004;54(7):841-848. |
R829422E03 (2004) |
not available |
| Journal Article | Huang YH, Zhang TC, Shea PJ, Comfort SD. Effects of oxide coating and selected cations on nitrate reduction by iron metal. Journal of Environmental Quality 2003;32(4):1306-1315. |
R829422E03 (2003) |
not available |
| Journal Article | Huang YH, Zhang TC. Effects of low pH on nitrate reduction by iron powder. Water Research. 2004;38(11):2631-2642. |
R829422E03 (2004) |
not available |
| Journal Article | Huang YH, Zhang TC. Effects of dissolved oxygen on formation of corrosion products and concomitant oxygen and nitrate reduction in zero-valent iron systems with or without aqueous Fe2+. Water Research 2005;39(9):1751-1760. |
R829422E03 (Final) |
not available |
| Journal Article | Huang YH, Zhang TC. Enhancement of nitrate reduction in Fe-0-packed columns by selected cations. Journal Of Environmental Engineering-Asce. 2005;131(4):603-611. |
R829422E03 (Final) |
not available |
| Journal Article | Huang YH, Zhang TC. Modeling of nitrate adsorption and reduction in Fe-0-packed columns through impulse loading tests. Journal Of Environmental Engineering-Asce. 2005;131(8):1194-1202. |
R829422E03 (Final) |
not available |
| Journal Article | Papastavros E, Shea PJ, Langell MA. Oxygen, carbon, and sulfur segregation in annealed and unannealed zerovalent iron substrates. Langmuir 2004;20(26):11509-11516. |
R829422E03 (Final) |
not available |
| Journal Article | Park J, Comfort SD, Shea PJ, Machacek TA. Role(s) of didecyl surfactant in reduction of HMX-contaminated soil by Fe0. Agronomy Abstracts. American Society of Agronomy 2002;94:S11-Park 142935. |
R829422E03 (2003) |
not available |
| Journal Article | Park J, Comfort SD, Shea PJ, Machacek TA. Remediating munitions-contaminated soil with zerovalent iron and cationic surfactants. Journal of Environmental Quality 2004;33(4):1305-1313. |
R829422E03 (2004) |
not available |
| Journal Article | Satapanajaru T, Comfort SD, Shea PJ. Aluminum and iron salt-catalyzed destruction of metolachlor by zerovalent iron. Journal of Environmental Quality, 2003; 32(5): 1726-1734. |
R829422E03 (2003) |
not available |
| Journal Article | Satapanajaru T, Shea PJ, Comfort SD, Roh Y. Green rust and iron oxide formation influences metolachlor dechlorination during zerovalent iron treatment. Environmental Science and Technology 2003;37(22):5219-5227. |
R829422E03 (2003) R829422E03 (2004) |
not available |
| Journal Article | Satapanajaru T, Comfort SD, Shea PJ. Enhancing metolachlor destruction rates with aluminum and iron salts during zerovalent iron treatment. Journal Of Environmental Quality. 2003;32(5):1726-1734. |
R829422E03 (Final) |
not available |
| Journal Article | Shea PJ, Machacek TA, Comfort SD. Accelerated remediation of pesticide-contaminated soil with zerovalent iron. Environmental Pollution 2004;132(2):183-188. |
R829422E03 (Final) |
not available |
| Journal Article | Zhang TC, Huang YH. Effects of selected good's pH buffers on nitrate reduction by iron powder. Journal Of Environmental Engineering-Asce. 2005;131(3):461-470. |
R829422E03 (Final) |
not available |