Decomposition of hydrogen peroxide - kinetics and review of chosen catalysts

• Autorzy: Paulina Pędziwiatr , Filip Mikołajczyk , Dawid Zawadzki , Kinga Mikołajczyk , Agnieszka Bedka
• Języki publikacji: EN

Abstrakty

EN

Hydrogen peroxide is a chemical used in oxidation reactions, treatment of various inorganic and organic pollutants, bleaching processes in pulp, paper and textile industries and for various disinfection applications. It is a monopropellant, which, when purified, is self-decomposing at high temperatures or when a catalyst is present. Decomposing to yield only oxygen and water(disproportionation), hydrogen peroxide is one of the cleanest, most versatile chemicals available. The catalytic decomposition of hydrogen peroxide allows the use of various catalysts that will increase the rate of decomposition. Comparison and description of the most commonly used catalysts were presented in this review.(original abstract)

Słowa kluczowe

EN

Papermaking industry; Chemical compounds; Chemistry; Hydrogen

PL

Przemysł papierniczy; Związki chemiczne; Chemia; Wodór

• Czasopismo: Acta Innovations
• Rocznik: 2018
• Numer: nr 26
• Strony: 45--52

Twórcy

autor

Paulina Pędziwiatr

• Lodz University of Technology, Poland

autor

Filip Mikołajczyk

• Lodz University of Technology, Poland

autor

Dawid Zawadzki

• Lodz University of Technology, Poland

autor

Kinga Mikołajczyk

• Lodz University of Technology, Poland

autor

Agnieszka Bedka

• Lodz University of Technology, Poland

Bibliografia

• https://pubchem.ncbi.nlm.nih.gov/compound/hydrogen peroxide,Access data: 19.03.2017
• https://www.ncbi.nlm.nih.gov/mesh/68006861 , Access data: 19.03.2017
• Kirk-Othmer Encyclopedia of Chemical Technology. 4th ed. Volumes 1: New York, NY. John Wiley and Sons, 1991-Present., p. V13 (95) 962
• Abdollahi M., Hosseini A., "Hydrogen Peroxide", Encyclopedia of Toxicology (Third Edition)2014, Pages 967970
• Mistik, S. I., Muge Yukseloglu, S. "Hydrogen peroxide bleaching of cotton in ultrasonic energy." Ultrasonics 43.10 (2005): 811-814.
• Hitt, D.L., Zakrzewski, Ch.M. Thomas, M.A. "MEMS-based satellite micropropulsion via catalysed hydrogen peroxide decomposition." Smart Materials and Structures 10.6 (2001): 1163.
• Wang, Y. et al. "Bipolar electrochemical mechanism for the propulsion of catalytic nanomotors in hydrogen peroxide solutions." Langmuir 22.25 (2006): 10451-10456.
• Chuang, K.T., Bing, Z. "Production of hydrogen peroxide." U.S. Patent No. 5,338,531. 16 Aug. 1994.
• Rarata G., Surmacz P. "Nadtlenek wodoru klasy HTP jako uniwersalne medium napędowe oraz utleniacz", Prace Instytutu Lotnictwa 2009, 202, p. 125-158
• Nicoll W.D. Smith A.F. Stability of Dilute Alkaline Solutions of Hydrogen Peroxide, Industrial and Engineering Chemistry 1955, 47, 12, p. 2548-2554
• Marzzacco C. The effect of a change in the catalyst on the enthalpy of decomposition of hydrogen peroxide, Chem 12 News 2008, p. 12-13
• Mok J.S., Welms W.J., Sisco J.C., Anderson W.E. Thermal Decomposition of Hydrogen Peroxide, Part 1: Experimental Results, Journal of Propulsion and Power 2005, 21, 5, p. 942-953
• Salem I.A., El-Maazawi M., Zaki A.B., Kinetics and mechanisms of decomposition reaction of hydrogen peroxide in presence of metal complexes, International Journal of Chemical Kinetics 2000, 32, 11, p. 643-666
• Schroeder J.E., Pouli D., Seim H.J., High surface area silver powder as an oxygen, Advances in Chemistry 2009, 90, p. 93-101
• Su-Lim L., Choong-Won L., Performance characteristics of silver catalyst bed for hydrogen peroxide, Aerospace Science and Technology 2009, 13, p.12-17
• Baumgartner H.J., Hood G.C., Monger J.M., Roberts R.M., Sanborn C.E., Decomposition of concentrated hydrogen peroxide on silver I. Low temperature reaction and kinetics, Journal of Catalysis 1963, 2, 5, p. 405-414
• Baumgartner H.J., Hood D. Hood G.C., Waver D.D., Catalyst for Hydrogen Peroxide Decomposition, United States Patent Office 1968, Patent number 3363982
• Garwing P.L., Heterogeneous decomposition of hydrogen peroxide by inorganic catalysts. A literature survey, Chemical Research and Development Center Princeton, New Jersey 1966
• Zhang, L., Lay, P. A., EPR spectroscopic studies on the formation of chromium (V) peroxo complexes in the reaction of chromium (VI) with hydrogen peroxide. Inorganic Chemistry, 37(8), 1729-1733. (1998).
• Dickman, M.H., Pope, M.T., "Peroxo and superoxo complexes of chromium, molybdenum, and tungsten." Chemical reviews 94.3 (1994): 569-584.
• Rarata, G., and P. Surmacz. "Nadtlenek wodoru klasy HTP jako uniwersalne medium napędowe oraz utleniacz." Prace Instytutu Lotnictwa (2009): 125-158.
• Wang, Z.J., et al. "Impacts of potassium permanganate (KMnO 4) catalyst on properties of hydrogen peroxide (H 2 O 2) foamed porous cement slurry." Construction and Building Materials 111 (2016): 72-76.
• Frikha, N., =Schaer E., Houzelot, J.L., "Experimental study and modelling of thermal runaway: Application to dichromate catalysed hydrogen peroxide decomposition." Thermochimica Acta 449.1 (2006): 47-54.
• Do, S.-H. et al. "Hydrogen peroxide decomposition on manganese oxide (pyrolusite): kinetics, intermediates, and mechanism." Chemosphere 75.1 (2009): 8-12.
• Simoyi, R.H. et al. "Reaction between Permanganate Ion and Hydrogen Peroxide: Kinetics and Mechanism of the Initial Phase of the Reaction'." Inorganic Chemistry 25.4 (1986): 538-542.
• Lin, S.S., Gurol, M.D. (1998). Catalytic decomposition of hydrogen peroxide on iron oxide: kinetics, mechanism, and implications. Environmental Science & Technology, 32(10), 1417-1423.
• http://rspa.rovalsocietvpublishing.org/content/royprsa/147/861/332.full.pdf, 15.03.2017
• Huang, H. H., Lu, M. C., Chen, J. N. (2001). Catalytic decomposition of hydrogen peroxide and 2-chlorophenol with iron oxides. Water Research, 35(9), 2291-2299.
• Barbusiński, K. (2009). Fenton reaction-controversy concerning the chemistry. Ecological Chemistry and Engineering. S, 16(3), 347-358.
• Markowski, J. (2011). Dyspersja tlenków żelaza - aktualny stan wiedzy. Nafta-Gaz, 67(4), 282-287.
• Machulek Jr., A., Quina, F.H. Gozzi, F., Silva, V.O., Riedrich, L.C., Moraes, J.E.F., (2013), Fundamental Mechanistic Studies of the Photo-Fenton Reaction for the Degradation of Organic Pollutants, Environmental and Analytical Update 25, 271-294
• Quiroz, M.A., Bandala, E.R., Martmez-Huitle, C.A. (2011). Advanced Oxidation Processes (AOPs) for Removal of Pesticides from Aqueous Media. Pesticides - Formulations, Effects, Fate, 687-730 (2011)
• Tseng, D. H., Juang, L. C., Huang, H. H. (2012). Effect of oxygen and hydrogen peroxide on the photocatalytic degradation of monochlorobenzene in aqueous suspension. International Journal of Photoenergy, 2012.
• Riga, A., Soutsas, K., Ntampegliotis, K., Karayannis, V., Papapolymerou, G. (2007). Effect of system parameters and of inorganic salts on the decolorization and degradation of Procion H-exldyes.Comparison of H2O2/UV, Fenton, UV/Fenton, TiO2/UV and TiO2/UV/H2O2 processes. Desalination, 211(1-3), 72-86.
• Malato, S., Blanco, J., Caceres, J., Fernandez-Alba, A. R., Aguera, A., Rodriguez, A. (2002). Photocatalytic treatment of water-soluble pesticides by photo-Fenton and TiO 2 using solar energy. Catalysis Today, 76(2), 209220.
• Halliwell, B., Clement, M. V., Long, L. H. (2000). Hydrogen peroxide in the human body. FEBS letters, 486(1), 10-13.
• Forman, H. J., Bernardo, A., Davies, K. J. (2016). What is the concentration of hydrogen peroxide in blood and plasma? Archives of biochemistry and biophysics, 603, 48-53.
• Popularna Encyklopedia Powszechna, wyd. Fogra (1994-1998)
• [391http://www.houstonisd.org/cms/lib2/TX01001591/Centricitv/Domain/5363/07%20The%20Hydrogen%20P eroxide%20Breakdown.pdf , 10.03.2017
• ---