Rita R. Zapico, Pablo Marín, Fernando V. Díez, Salvador Ordóñez.

Albin Pintar, Gorazd Bercˇicˇ, Janez Levec. Preparation, Analysis and Behaviors of Ti-Based SnO2 Electrode and the Function of Rare-Earth Doping in Aqueous Wastes Treatment. Route of the catalytic oxidation of phenol in aqueous phase. Javier Rivas, Stan T. Kolaczkowski, Fernando J. Beltran, David B. McLurgh.

E-mail:  [email protected]. Phenolic compounds removal by wet air oxidation based processes. Elmer B. Ledesma, Cristian Campos, Daniel J. Cranmer, Brandy L. Foytik, Maria N. Ton, Elizabeth A. Dixon, Charlie Chirino, Shuhsien Batamo, and Paul Roy . Application to the understanding of the blowing-out effect in epoxy/polyhedral silsesquioxane formulations. H.S. A Eftaxias, J Font, A Fortuny, A Fabregat, F Stüber. Marko Djokic, Hans-Heinrich Carstensen, Kevin M. Van Geem, Guy B. Marin.

Detailed analysis of species production from the pyrolysis of the Phenolic Impregnated Carbon Ablator. L ALEMANY, M BANARES, E PARDO, F MARTIN, M GALANFERERES, J BLASCO. Graham. Catalytic wet air oxidation of carboxylic acids at atmospheric pressure. Linbi Zhou, Hongbin Cao, Claude Descorme, Yongbing Xie. Jun Maekawa, Kazuhiro Mae, Hiroyuki Nakagawa. Biodegradation of phenol by mixed microbial culture: an eco-friendly approach for the pollution reduction. Yoke Wang Cheng, Kim Hoong Ng, Su Shiung Lam, Jun Wei Lim, Suwimol Wongsakulphasatch, Thongthai Witoon, Chin Kui Cheng.

Oxidation of maleic acid under control of the catalyst potential in a pressurized electrochemical reactor.

Comptes Rendus de l'Académie des Sciences - Series IIC - Chemistry. Partial wet oxidation of p-coumaric acid: Oxidation intermediates, reaction pathways and implications for wastewater treatment. Improvement of oxidative decomposition of aqueous phenol by microwave irradiation in UV/H2O2 process and kinetic study. Catalytic wet air oxidation of phenol using active carbon: performance of discontinuous and continuous reactors. Infrared Reflection-Absorption Method for the Detection of Aromatic Compounds in Aqueous Solutions with Limited Sample Volumes.. Mary J Wornat, Elmer B Ledesma, Nathan D Marsh.

Find more information on the Altmetric Attention Score and how the score is calculated. Indirect Electrochemical Oxidation of Chlorophenols in Dilute Aqueous Solutions. Degradation of Characterization of degradation products from alkaline wet oxidation of wheat straw. Helene B Klinke, Birgitte K Ahring, Anette S Schmidt, Anne Belinda Thomsen. L. Khachatryan, R. Asatryan, Barry Dellinger. Catalytic Tar Removal from Bio-Syngas via Oxidation on Metal Oxide Catalysts.

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In general, phenols are more easily oxidised than simple alcohols. Mesoporous pyrophyllite–titania nanocomposites: synthesis and activity in phenol photocatalytic degradation. Aditya Ramgobin, Gaëlle Fontaine, Serge Bourbigot.

NO reduction by different tar agents and model compounds in a drop-tube reactor. Luna Pratali Maffei, Tiziano Faravelli, Carlo Cavallotti, Matteo Pelucchi.

Catalytic wet air oxidation of phenol over platinum and ruthenium catalysts.
Multi-scale simulations of in-depth pyrolysis of charring ablative thermal protection material. Diana Posada, Paulino Betancourt, Fernando Liendo, Joaquín L. Brito.
Folates in Fruits and Vegetables: Contents, Processing, and Stability. Marwan Batiha, Ala'a H. Al-Muhtaseb, Mohammednoor Altarawneh. Changes of turbidity during the phenol oxidation by photo-Fenton treatment.

Giorgio Bertanza, Matteo Canato, Sara Heimersson, Giuseppe Laera, Roberta Salvetti, Edoardo Slavik, Magdalena Svanström. Insight into spent caustic treatment: on wet oxidation of thiosulfate to sulfate. Oxidation can achieved by reaction with silver oxide (Ag. Optimisation of parameters in a solar light-induced photoelectrocatalytic process with a TiO2/Ti composite electrode prepared by paint-thermal decomposition. Laetitia Oliviero, Jacques Barbier, Daniel Duprez, A. Guerrero-Ruiz, B. Bachiller-Baeza, I. Rodrı́guez-Ramos. Catalytic wet oxidation of phenol under mild operating conditions: development of reaction pathway and sludge characterization.

3 Thermocatalytic Treatment of Sulphur Organic Compounds.

14 S. Tajammul Hussain, Sadaf Jamil, Muhammad Mazhar. Current address: c/o Oliver, Wyman and Co., LLC, 666 Fifth Ave, New York, NY 10103.

Reduction of NO by Biomass Pyrolysis Products in an Experimental Drop-Tube. S. Keav, A. Martin, J. Barbier, D. Duprez.

Mingming Luan, Guolin Jing, Yongjian Piao, Debin Liu, Lifeng Jin.

Albin Pintar, Gorazd Berčič, Jurka Batista, Janez Levec. M.J. Chollier-Brym, F. Epron, E. Lamy-Pitara, J. Barbier.

Adam Wu, Jean Michel Lauzon, Indah Andriani, Brian R. James.

Nature du dépôt formé au cours de l’oxydation en voie humide catalysée du phénol. Degradation of maleic acid in a wet air oxidation environment in the presence and absence of a platinum catalyst. Formation and stabilization of persistent free radicals. Lomas, L.M.

Vapor-Phase Cracking of Eugenol: Distribution of Tar Products as Functions of Temperature and Residence Time.

Reduction of NO over biomass tar in micro-fluidized bed. Study on Mechanism of Wet Air Oxidation of Emulsification Wastewater. Quantum Chemistry Study on the Pyrolysis Mechanisms of Coal-Related Model Compounds. Smith, A. Fabregat, C. Bengoa, J. Font, A. Fortuny, S. Pullket, G.D. Fowler, N.J.D.

Elmer B. Ledesma, Nathan D. Marsh, Alyssa K. Sandrowitz, Mary J. Wornat. Phenols are rather easily oxidized despite the absence of a hydrogen atom on the hydroxyl bearing carbon.

Gary C. Cheng, Balaji Shankar Venkatachari, Ioana Cozmuta. Efficient elimination of tyrosol in a zero valent iron-EDTA system at mild conditions.

Natalia Villota, Luis M. Camarero, Jose M. Lomas, Jonatan Perez. Catalytic wet air oxidation of substituted phenols using activated carbon as catalyst.

Ozonolysis of organic compounds in a two-phase fluorocarbon-water system. Yasmina Bennani, Peter Appel, Luuk C. Rietveld.

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Wet air oxidation (WAO) as a precursor to biological treatment of substituted phenols: Refractory nature of the WAO intermediates. Pyrolysis Gas Composition for a Phenolic Impregnated Carbon Ablator Heatshield. Hydrolysis kinetics of benzyl phenyl ether in high temperature liquid water.

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