Chien-Li Lee scite author profile

Chien-Li Lee

2Publications

13Citation Statements Received

52Citation Statements Given

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Taiwan Shoufu University

Publications

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Integrating Fluidized Copper/Iron Bimetal Nanoparticles and Microwave Irradiation for Treating Chlorobenzene in Aqueous Solution

Lee¹,

Jou²

2012

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Microwave irradiation is combined with copper/iron bimetal (Cu/Fe) nano-particles suspended in aqueous chlorobenzene solution for reducing chlorobezene activation energy to enhance its decomposition. When the metal particles are suspended in solution, the total surface area to absorb the MW energy will increase so that the heat converted from the absorbed MW energy will be distributed evenly in the solution to enhance CB decomposition. Laboratory results show that when 250 W of microwave energy is applied for 300 sec to irradiate 100 mg L -1 of CB solution containing 1 g of suspended Cu/Fe bimetallic particles, the CB removal rate is improved by 1.3 times (95.0% vs. 76.2%), and the activation energy is lowered by 3 to 6%. The integrated suspended copper/iron bimetal nano-particle and Microwave Irradiation system is confirmed to be an effective method to treat chlorobenzene.

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Reduced Degradation of Chlorobenzene in Cosolvent Solution Using Nanoscale Zerovalent Iron with Microwave Irradiation

Lee

Jou

2011

Environmental Engineering Science

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Chlorobenzene (CB) in aqueous solution is effectively degraded using nanoscale zerovalent iron (ZVI) particles suspended in the solution as the dielectric media with microwave irradiation. When nonaqueous CB is flushed out of groundwater from the contaminated soil, a cosolvent (e.g., methanol or ethanol) is usually added to aid the process. However, the cosolvent in the aqueous solution may interfere with the decomposition of dechlorination using ZVI. Results of this study confirm that if the CB aqueous solution is treated with nanoscale ZVI particles irradiated with microwave, the cosolvent will lower the contact between ZVI particles and water molecules, thus reducing the CB degradation rate. When 250-W microwave (MW) energy was applied to the CB aqueous solution containing methanol (a cosolvent) for 150 s, increasing methanol fraction in the CB solutions impaired the CB degradation rate. CB removal efficiencies are 65.4% for 0% MeOH, 53.7% for 40% MeOH, 32.2% for 60% MeOH, and 2.7% for 100% MeOH. Although the microwave radiation improved active sites on the iron particle surface, the presence of methanol suppressed adsorption of CB on iron particle surfaces thus lowering CB removal efficiency. Overall, reductive dechlorination of chlorinated organic solvents by nanoscale ZVI particles is a surface-mediated reaction; presence of a cosolvent reduces the effectiveness of dechlorination even in the presence of microwave radiation.

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Chien-Li Lee

Integrating Fluidized Copper/Iron Bimetal Nanoparticles and Microwave Irradiation for Treating Chlorobenzene in Aqueous Solution

Reduced Degradation of Chlorobenzene in Cosolvent Solution Using Nanoscale Zerovalent Iron with Microwave Irradiation

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