INVESTIGADORES
FLORES Marina Judith
artículos
FLORES MARINA; PASSALIA CLAUDIO; LABAS MARISOL; BRANDI RODOLFO
Study of photocatalytic inactivation of airborne microorganisms on various functionalized filter media: comparative analysis
Air Quality, Atmosphere and Health; Año: 2024
MARIA CECILIA BERON; LUCIANA MONTALTO; DIEGO AQUINO; RUBEN QUINTANA; MARINA FLORES; MARISOL LABAS; CECILIA MESA
Unravelling the influence of cattle stocking rate on the macroinvertebrate community of freshwater wetlands subjected to hydrological modifications in three hydroclimatic periods
Environmental Research; Lugar: Londres; Año: 2024 vol. 251
SANTOS, SARA G.S.; PAULISTA, LARISSA O.; MARINHO, BELISA A.; PASSALÍA, CLAUDIO; FLORES, MARINA; LABAS, MARISOL D.; BRANDI, RODOLFO J.; VILAR, VÍTOR J.P.
A step forward on NETmix reactor for heterogeneous photocatalysis: Kinetic modeling of As(III) oxidation
CHEMICAL ENGINEERING JOURNAL; Año: 2021 vol. 405
PASSALIÁ, CLAUDIO; FLORES, MARINA; SANTOS, SARA G.S.; PAULISTA, LARISSA O.; LABAS, MARISOL D.; VILAR, VÍTOR J.P.; BRANDI, RODOLFO J.
Radiation modelling in the NETmix photocatalytic reactor: The concept of efficiencies in series
Journal of Environmental Chemical Engineering; Año: 2020 vol. 8
CRISTIANI MARIANA; FLORES MARINA; BRANDI RODOLFO; TEDESCHI FABIAN; ZALAZAR FABIAN; LABAS MARISOL
ERIC-PCR technique applied to monitoring and quantification of DNA damage during water disinfection process
JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY B-BIOLOGY; Lugar: Amsterdam; Año: 2019
FLORES MARINA; BRANDI RODOLFO; CASSANO ALBERTO; LABAS MARISOL
KINETIC MODEL OF WATER DISINFECTION USING PERACETIC ACID INCLUDING SYNERGISTIC EFFECTS
WATER SCIENCE AND TECHNOLOGY; Año: 2016 p. 1 - 12
FLORES MARINA; LESCANO MAIA; BRANDI RODOLFO; CASSANO ALBERTO; LABAS MARISOL
A novel approach to explain the inactivation mechanism of Escherichia coli employing a commercially avaiable peracetic acid
WATER SCIENCE AND TECHNOLOGY; Año: 2014 vol. 69 p. 358 - 363
FLORES MARINA; BRANDI RODOLFO; CASSANO ALBERTO; LABAS MARISOL
Chemical disinfection with H2O2. The proposal of a reaction kinetic model
CHEMICAL ENGINEERING JOURNAL; Lugar: Amsterdam; Año: 2012 vol. 198 p. 388 - 396
