Claudio Zaror Zaror

Profesor Colaborador
Ingeniero Civil Químico, Universidad de Concepción, Chile
PhD en Ingeniería Química, University of London, Londres, 1982

Línea de investigación del programa

Centro Científico Excelencia – Unidad De Desarrollo Tecnologico. (BASAL, 2018-2021)
Low temperature photocatalytic oxidation of ethylene emissions from fruit warehouses and cold-storage facilities using hydrophobic zeolites doped with zinc and copper oxide nanoparticles under high relative humidity. (FONDECYT Regular, 2017-2020)
Low temperature removal of chlorinated volatile organic compounds based on the combined use of transition metal-exchanged Chilean natural zeolite and ozone as detoxification process. (FONDECYT Regular, 2013-2016)
Water and Chemicals Recovery from Segregated Kraft Cellulose Bleaching Effluents Using Membrane Separation and Advanced Electrooxidation Processes. (FONDECYT Regular, 2010-2014)

Abreu, N. J., Valdés, H., Zaror, C. A., Azzolina-Jury, F., &Meléndrez, M. F.; 2019; Ethylene adsorption onto natural and transition metal modified chilean zeolite: an operando drifts approach; Microporous And Mesoporous Materials; Publicado; 1387-1811; 3.649
Gonzalez-Cabezas, D., Zaror, C., & Herrera, M. Á.; 2019; Comparative assessment of sustainable development in south american countries on the basis of the sustainable society index; International Journal Of Sustainable Development And World Ecology; Publicado; 1350-4509; 2.373
Vega, M. I., &Zaror, C. A; 2018; The effect of solar energy on the environmental profile of electricity generation in chile: a midterm scenario; International Journal Of Energy Production And Management; Publicado; 2056-3272; 0.68
Vega-Coloma, M., &Zaror, C. A.; 2018; Environmental impact profile of electricity generation in chile: a baseline study over two decades; Renewable&SustainableEnergyReviews; Publicado; 1364-0321; 9.184
Alejandro-Martín, s.,valdés, h., manero, m. H., &zaror, c. A.; 2018; Catalytic ozonation of toluene using chilean natural zeolite: the key role of brønsted and lewis acid sites; Catalysts; Publicado; 2073-4344; 3.465