来源
Agarwal, S. (2009). A feasibility study on Pd/Mg application in historically contaminated sediments and PCB spiked substrates. Journal of Hazardous materials, 1156-1162., Ahmad, M. (2011). Treatment of polychlorinated biphenyls in two surface soils using catalyzed H2O2 propagations. Chemosphere, 855-862., Anitescu, G. (2001). Supercritical water oxidation reaction pathway and kinetics of polychlorinated biphenyls. Chemical engineering materials Science., Arbeli, Z. (2009). Biodegradación de Compuestos Orgánicos Persistentes (COP): I El caso de los Bifenilos Policlorados. Acta Biología, 57-88., Benitez, R. (2012). Plaguicidas y Efectos sobre la salud humana: un estado del arte., Chuang, F. (1995). Zeron-valent iron-promoted dechlorination of polychlorinated bifenyls. Environmental Science Technology, 2460-2463., Clemente, J. P. (2008). Aplicación de procesos de oxidación avanzada (fotocatalisis solar) para tratamiento y reutilización de efluentes textiles. Valencia., Coutts. (2011). The use of mechanical alloying for the preparation of palladized magnesium bimetallic particles for the remediation of PCBs. . Journal of Hazardous Materials, 1380-1387., DeVor. (2009). Mechanism of the degradation of individual PCB congeners using mechanically alloyed Mg/Pd in methanol. Chemosphere, 761-766., Doménech, X. (2004). Eliminación de contaminantes por catálisis homogénea: Procesos avanzados de oxidación para la eliminación de contaminantes., Garces, L. F. (n.d.). La fotocatálisis como alternativa para el tratamiento de aguas resiudales. La sallista., Gonzalez, O. (2013). Destoxificación fotocatalitica de pesticidas usuales en la agricultura ecuatoriana. Las plamas gran canarias, Ecuador., Hatakeda, K. (1999). Supercritical water oxidation of polychlorinated biphenyls using hydrogen peroxide. Chemical Engineering Science, 3079-3084., Huang, Q. (2000). TiO2 photocatalytic degradation of PCB in soil-water systems containing fluoro surfactant. Chemosphere, 871-879., Korte, N. (2002). The effect solvent concentration on use of palladized-iron for the step wise dechlorination of polychlorinated biphenyls in soils extracts. Pergamon, 343-349., Kuo, C.-Y. (1997). Adsorption of Aqueous 4-chlorobiphenyl and treatment with UV-Illuminated Titanium Dioxide. Journal of Colloid and Interface Science., 199-206., Laine, D. (2007). The destruction of organic pollutans under mild reaction conditions: a review. Microchemical Journal, 183-193., Lin, Z.-R. (2014). Kinetics and products of PCB28 degradation through a goethite-catalyzed Fenton-like reaction. Chemosphere, 15-20., Lopez, R. (2011). Fotodegradación de contaminantes orgánicos en fase acuosa empleando fotocatalizadores de TiO2 modificados con metales de transición. Mexico., Marulanda, V. (2009). Destrucción de aceites dieléctricos mediante oxidación en agua supercrítica: hacia una alternativa de proceso para tratamiento de bifenilos policlorados (PCBs). Ingeniería y Competitividad, 107-115., Marulanda, V. (2010). Supercritical water oxidation of a heavily PCB- contaminated mineral transformeroil: Laboratory-scale data and economic assessment. Journal of supercritical Fluids, 258-265., Ministerio de Ambiente, v. y. (2007). Inventario preliminar de Compuestos Bifenilos Policlorados (PCB) existentes en Colombia. Colombia., Ministerio de Ambiente, v. y. (n.d.). Plan Nacional de Aplicación para PCB en el Marco del Convenio de Estocolmo. Colombia., Ministerio de Medio ambiente y Douglas White and Associates, P. C.-A. (1999). Informe Final: Manual de Manejo de PCBs para Colombia. Colombia., Mino, Y. (2004). Degradation of 2,7-dichlorodibenzo-p-dioxin by Fe 3+-H2O2 mixed reagent. Chemosphere(57), 365-372., Mitoma, Y. (2009). Highly effective degradation of polychlorinated biphenyl in soil mediated by a Ca/Rh bicatalytic system. Chemosphere, 968-973., Nomiyama, K. (2005). Production mechanism of hydroxylated PCBs by Oxidative Degradation of selected PCBs using TiO2 in water and Estrogenic activity of their intermediates. . Environmental Sciences, 8762-8769., O'brien, C. (2005). Supercritical water oxidation of the PCB Congener 2-chlorobiphenyl in methanol solutions: A kinetic analysis. Environmental Science Technology, 6839-6844., PNUMA, O. O. (2006). Programa de las Naciones unidas para el Medio Ambiente.Transformadores y condensadores con PCB: desde la gestión hasta la reclasificación y eliminación., Posada, E. L. (2006). Purificación de Aceites Aislantes Contaminantes con Bifenilos Policlorados(PCBs). Dyna., Varanasi, P. (2007). Remediaton of PCB contaminated soils using iron nano-particles. Chemosphere, 1031-1038., Veriansyah. (2007). Supercritical oxidation for th destruction of toxic organic wastewater: A review. Journal environmental Sciences, 513-522., Wang, Y. (2000). TiO2-Mediated photomineralization of 2-chlorobiphenyl: The role of O2. Pegamon, 2791-2797., Wong, K. (2004). Optimization of photocatalytic oxidation of 2,2',3,3'-tetrachlorobiphenyl. Journal of Hazardous Materials, 149-155., Wu. (2012). Reductive dechlorination for remediation of polychlorinated biphenyls. Chemosphere, 757-768., Y.Fang. (2008). Correlation of 2-chlorobiphenyl dechlorination by Fe/Pd with iron corrosion at different pH. Environmental Science Technology, 6942-6928., Zahran. (2014). Light-Activated Tandem Catalysis driven by multiccomponent nanomaterials. Journal American Chemicals Society , 32-35., Zhu, N. (2011). Catalytic dechlorination of polychlorinated biphenyl in subcritical water by Ni/Fe nanoparticles. Journal Chemicals Engineering, 919-925.
