Direct mass spectrometric studies of the destruction of hazardous wastes. 2. Gas-phase photocatalytic oxidation of trichloroethylene over titanium oxide: products and mechanisms

Nimlos, Mark R.; Jacoby, William A.; Blake, Daniel M.; Milne, Thomas A.

doi:10.1021/es00041a018

Cited by 212 publications

(176 citation statements)

References 13 publications

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“…Due to its chemical inertness, current TCE degradation methods are inefficient and energy intensive. Promising alternative approaches reported so far, include photocatalytic conversion of TCE (gasphase [48] and supported [49]) and the use of small noble metal particles to catalyze the conversion [50,51]. Yet, more efficient catalysts are desirable, however require a more fundamental knowledge of the activation of TCE towards degradation.…”

Section: Co Oxidationmentioning

confidence: 99%

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Catalysis with Supported Size-selected Pt Clusters

Schweinberger¹

2014

Springer Theses

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Under ultra high vacuum conditions the electronic structure, adsorption properties and reactivity of two olefins on surfaces and Pt clusters were probed in the submonolayer range. With adsorbed trichloroethene a possible cluster-adsorbate induced change in the electronic structure and for ethene a low temperature, size dependent self-/hydrogenation was observed.In a collaborative approach, the Pt clusters were investigated under ambient pressure conditions. The clusters were characterized on local and integral level and tested towards temperature stability. Experiments in gas phase μ-reactors and in liquid, as part of a hybrid photo catalytic system, revealed size dependent reactivity.

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Section: Co Oxidationmentioning

confidence: 99%

“…Using size-selected clusters as a part of a photocatalytic system, they might be active towards TCE degradation nonetheless. This might be a more successful approach, since the photocatalytic conversion of TCE has been achieved in both gasphase [48] and on supported clusters [49].…”

Section: 15mentioning

confidence: 99%

Catalysis with Supported Size-selected Pt Clusters

Schweinberger¹

2014

Springer Theses

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“…The square root dependence was observed in a continuous flow reactor when TCE concentrations were less than 60 ppmv. 8 Higher concentrations yielded a linear dependence.…”

Section: Resultsmentioning

confidence: 96%

“…The blowers were located at the end of the air handling system so that the entire system was maintained under slight negative pressure. Because TCE oxidation can produce intermediates such as phosgene, 8,[15][16] keeping the system under vacuum prevented the release of any toxic vapors. The exhaust gases from the blower were returned for final treatment by a caustic contacting tower.…”

Section: System Descriptionmentioning

confidence: 99%

“…This is likely due to chain reactions that are propagated by chlorine radicals. [7][8][9] Because the photocatalytic reaction occurs with greater efficiency and because chlorinated ethylenes are commonly found at contaminated sites, 10 trichloroethylene (TCE) and perchloroethylene (PCE) are often chosen as representative pollutants for PCO tests. Approximately 90% of Superfund sites have TCE or PCE as pollutants.…”

Section: Introductionmentioning

confidence: 99%

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Pilot-Scale Demonstration of an Innovative Treatment for Vapor Emissions

Watt

Magrini

Carlson

et al. 1999

Journal of the Air & Waste Management Association

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Researchers from the National Renewable Energy Laboratory recently conducted a pilot-scale study at McClellan Air Force Base (AFB) in Sacramento, CA. The objective of the test was to determine the effectiveness of an ambient-temperature, solar-powered photocatalytic oxidation treatment unit for destroying emissions of chlorinated organic compounds from an air stripper. This paper reports test results and discusses applications and limitations of the technology.A 10-standard-cubic-foot-per-minute (SCFM) (28.3 L/min) slip stream of air from an air stripper at Operative Unit 29-31 at McClellan AFB was passed through a reactor that contained a lightweight, perforated, inert support coated with photoactive titanium dioxide. The reactor faced south and was tilted at a 45° angle from vertical so that the light-activated catalyst received most of the available sunlight. An online portable gas chromatograph with two identical columns simultaneously analyzed the volatile organic compounds contained in the reactor inlet and outlet air streams. Summa canister grab samples of the inlet and outlet were also collected and sent to a certified laboratory for U.S. Environmental IMPLICATIONS Current destructive technologies, such as biofiltration and incineration, for treating air contaminated with chlorinated ethylenes are less than ideal. Sensitivity to upsets and toxicity to microorganisms make biofiltration difficult to apply. Incineration requires considerable energy input to fully oxidize these recalcitrant compounds. This paper describes an ambient temperature process that can destroy trichloroethylene from the off-gas of an air stripper. The system uses the ultraviolet portion of the solar spectrum to activate a photocatalyst and destroy contaminants. The solar-driven process may provide a costeffective treatment system for remote applications and for applications where public perception takes precedence over the speed of cleanup. Alternatively, a lamp-driven process can be used for continuous operation.Protection Agency Method TO-14 analysis and verification of our field analyses.Three weeks of testing demonstrated that the treatment system's destruction and removal efficiencies (DREs) are greater than 95% at 10 SCFM with UV intensities at or greater than 1.5 milliwatts/square centimeter (mW/cm 2 ). DREs greater than 95% at 20 SCFM were obtained under conditions where UV irradiation measured at or greater than 2 mW/cm 2 . In Sacramento, this provided 6 hours of operation per clear or nearly clear day in April. A solar tracking system could extend operating time. The air stream also contained trace amounts of benzene. We observed no loss of system performance during testing.

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Surface Prechlorination of Anatase TiO2 for Enhanced Photocatalytic Oxidation of Toluene and Hexane

d'Hennezel

Ollis

2001

HCA

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Dedicated to Professor Andre¬ M. Braun on the occasion of his 60th birthday We report the influence of prechlorination of TiO 2 powder on the activity for the photocatalyzed oxidation of hydrocarbons (toluene, hexane) and oxygenates (acetone, butan-1-ol). Water-and HCl-pretreated catalyst are prepared by impregnation of TiO 2 powder in H 2 O and in HCl solutions, respectively, followed by drying at room temperature. X-Ray photoelectron spectroscopy (XPS) analysis demonstrates the surface prechlorination efficiency: 1 g of TiO 2 impregnated with 3 ml of 3n HCl solution results in a chlorine surface concentration of 1.6%. Prechlorination results in a photo-oxidation-rate enhancement for toluene and hexane, no change for butan-1-ol, and inhibition for acetone. This pattern is the same as that demonstrated earlier by us when these reactants are co-fed with the chlorine source trichloroethylene (TCE).

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Direct mass spectrometric studies of the destruction of hazardous wastes. 2. Gas-phase photocatalytic oxidation of trichloroethylene over titanium oxide: products and mechanisms

Cited by 212 publications

References 13 publications

Catalysis with Supported Size-selected Pt Clusters

Catalysis with Supported Size-selected Pt Clusters

Pilot-Scale Demonstration of an Innovative Treatment for Vapor Emissions

Surface Prechlorination of Anatase TiO2 for Enhanced Photocatalytic Oxidation of Toluene and Hexane

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