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Mass Transfer Effects on Kinetics of Dibromoethane Reduction by Zero-Valent Iron in Packed-Bed Reactors |
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| Authors: | Gregory A. Loraine David R. Burris Lixiong Li John Schoolfield |
| Affiliation: | 1Research Chemist, Air Force Research Laboratory, Material and Manufacturing Command, Tyndall AFB, FL?32405. 2Research Chemist, Air Force Research Laboratory, Materials and Manufacturing Command, Tyndall AFB, FL?32405. 3Senior Engineer, Applied Research Associates Inc., Gulf Coast Divisions, Panama City, FL?32405. 4Project Manager, AFCEE-UNITEC, Massachusetts Military Reserve, MA?02542. |
| Abstract: | Mass transfer effects on the kinetics of 1,2-dibromoethane (EDB) reduction by zero-valent iron (ZVI) in batch reactors, a laboratory scale packed-bed reactor, and a pilot scale packed-bed reactor are described. EDB was debrominated by ZVI to ethylene and bromide. EDB sorption to the cast iron surface was nonlinear and was described by a Langmuir equation. Laboratory scale column studies showed a nonlinear dependence of EDB removal on flow rate and initial EDB concentration. A nonequilibrium model of EDB sorption and reaction dependent on mass transfer was constructed using the laboratory scale data. The model was verified using data from a larger pilot scale packed-bed reactor that was used to remove EDB from contaminated groundwater. The data showed two distinct removal processes, an initial rapid phase dominated by mass transfer followed by a slower phase where surface reactions dominated. The model successfully predicted the transition from mass transfer controlled to surface reaction controlled conditions in the pilot scale data. |
| Keywords: | Mass transfer Kinetics Cisterns |