The analysis is made of the results of performed investigations: elaboration and study of physical-chemical properties of the catalysts on the basis of manganese oxides and on their use in various fields of chemical industry. Physical-chemical and technological foundations of the formation of oxide-manganese catalyst-absorbent of new-type are validated. It has been shown that for processes of purification of combustible gases from H2S and organic sulphur compounds he most favorable thermodynamic and kinetical conditions are created at manganese catalyst the composition of which near to Mn3O4. This type of the catalyst, together with MnO2 and, partially with Mn2O3, hold a firm own place in the catalytic processes. The direction, associated with the use of modified alumooxide carrier for elaboration of oxide-manganese and metallic catalysts (Pt, Pd) became as the new and prospective in the technology of carriers and catalysts, used in the processes of oxidation and hydrogenation. Technological modes, realized in given method, provide to activate solid-phase reaction of the formation of calcium aluminates at lower temperatures, as well as to stabilize surface-structural characteristics and to enhance thermal stability and mechanical strength of modified carrier. In the technology of the catalysts of aluminium oxide, by the use, of the carrier, preliminary modified by calcium oxide, the Mn-Pd catalyst was elaborated available for oxidation of CO and hydrocarbons of spent gases of the motor transport. The addition of palladium to the oxide-manganese catalyst leads to the formation of new centers on the surface which are active in the reaction of CO oxidation. The processes of the formation of manganese catalysts in reaction medium were studied. The method for preparing of the Mn-Pd catalyst includes processing the samples with an ammonia water solution. Treatment of the catalyst with ammonia water causes the formation of a palladium ammonia complex, which decomposes witha formation of palladium black. It can be concluded that the treatment with ammonia water leads to the completion of the formation of the active surface of the catalyst and to the temperature decrease of complete oxidation of CO. The experience of industrial operation of catalysts on the basis of modified alumocalcium carriers has shown that by duration of efficient operation of reburning of discharged gases of the engines of internal combustion they may compete with well-known industrial marks of the catalysts.
| Published in | Modern Chemistry (Volume 9, Issue 3) |
| DOI | 10.11648/j.mc.20210903.12 |
| Page(s) | 52-60 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2021. Published by Science Publishing Group |
Purification of Gases, Modified Alumocalcium Carriers, Oxide-manganese Catalyst-adsorbent, Thermocatalitic Decomposition of H2S, Alumosilicate-cordierite Blocks, Formation Mn.Pd-catalist for CO Oxidation
| [1] | Chagunava V. Researches on the use of manganese catalysts in chemical industry. Tbilisi, Metsniereba, 1965, p. 139. |
| [2] | Chagunava V. Manganese catalysts for certain reactions. Tbilisi, Metsniereba, 1969, p. 186. |
| [3] | Ioseliani D., Bakhtadze, V., Investigation in the field of heterogenic catalysis, Proc. Georg. Acad. Sci., Chem. Chem. Technol., Metsniereba, Tbilisi, 2001, 120-133. |
| [4] | Bakhtadze, V., Mosidze, V., Janjgava, R., Chochishvili, N., Dzanashvili, D., Kharabadze, N., Pajishvili, M. Preparation of efficient catalysts – adsorbents for cleaning gases from sulfur conpounds, Eur. Chem. Bull,. 2014, 3 (1), 46-49. DOI: http://dx.doi.org/10.17628/ecb.2014.3.46-49. |
| [5] | BakhtadzeV., MdivaniV., ChagunavaV. Activity and physical-chemical characteristics of manganese and manganese-copper catalysts in the course of purification of waste gases. Proceedings of Kazakh Academy of Sciences, Chem. series, 1975, 6, pp. 27-31. |
| [6] | Chagunava V., Mdivani V. Variation of surface potential of manganese catalyst relative to the volume depending on the temperature of reagent medium. Bulletin of the Georgian academy of sciences, Tbilisi, 1969, v. 55, No 2, p. 305-308. |
| [7] | Altshuler V., Gavrilova A.. High– temperature purification of gases from sulphur compounds. M., Nauka, 1969, p. 42. |
| [8] | Bakhtadze V., Mosidze V., Janjgava R., Kartvelishvili D., Oxide-manganese catalysts for the gas purification, 7th International ISTC SAC Seminar. Proceeding of the Conference, Russia, Ekaterinburg, 2005, p. 177-179. |
| [9] | Janjgava R., Bakhtadze V., Mosidze V. Porous structure and phase Composition of Alumocalcium Carriers of catalyst of Methane conversion. Bulletin of the Georgian academy of sciences, Tbilisi, 1999, v. 159, #1, p. 93-95. |
| [10] | Fionov A., Zaitseva I., Kharlamov A., Lunina E. // Donor-acceptor properties of the surface of aluminum oxide modified by cathionites of sodium and calcium. Kinetika i cataliz, 1997, v. 38, issue 1, p. 155-160. |
| [11] | Rebinder R. Physical-chemical mechanics-new field of Science. Moscow, Znanie, 1958, p. 64. |
| [12] | Bakhtadze V., Kharabadze N., Kartvelishvili D., Mosidze V., Janjgava R. Some regularity of preparing alumocalcium-oxide carriers for gas-washer catalysts. Proceedings of the Georgian Academy of sciences Chemical series, 2004, # 1-2, T 30, c. 101-105. |
| [13] | Bakhtadze, V., Mosidze, V., Kartvelishvili, D., Janjgava, R., Kharabadze, N., Modification of γ-,χ-Al2O3 alumina support by calcium oxide for the preparation of oxidation of CO and hydrcarbons commercial catalysts, Katal. Promysl., 2012, 2, 56 – 63. |
| [14] | Bakhtadze V., Sinthesis of catalysts on modified carrier for gas purification, Soviet-french seminar on catalysis, Novosibirsk – 90, Iune 18-21. p. 18-20. |
| [15] | Bakhtadze V., Mosidze V., Kartvelishvili D., Kharabadze, N., Janjgava R., Fajishvili M., Chochishvili N. Coated Modified Low-percentage Pd- catalysts of NPK series for CO oxidation. Georgian Chemical Journal, 9 (1) 2009, p. 525 – 528. |
| [16] | Bakhtadze, V., Mosidze, V., Kartvelishvili D., Kharabadze, N., Kikacheishvili M., Janjgava, R., Fajishvili M., Chochishvili N. Deposited Modified Pt – Catalysts of PLK – tipe for CO oxidation. GeorgianChemicalJournal, 10 (3) 2010, p. 316 – 321. |
| [17] | Bakhtadze, V., Kharabadze, N., Moroz, E., Supported Modifed Mn-Pd Catalysts of the MPK-1 Series for CO Oxidation Katal. Promysl., 2007, 3, 115-120. |
| [18] | Ivanova, A., Slavinskaya, E., Stonkus, O., Zaikovskii, V., Danilova, I., Gulyaev, R, Bulavchenko, O, Tsibulya, S., Boronin, A., Low_Temperature Oxidation of Carb Monoxide over (Mn1-XMX)O2(M=Co,Pd) Catalysts, Kinetics and Catal., 2013, 54 (1), 81-94. DOI: https://doi.org/10.1134/S0023158413010084 |
| [19] | Bakhtadze, V., Mosidze, V., Kharabadze, N., Dzanashvili, D., Janjgava, R., Fajishvili, M., Chochishvili, N., Dyspersity and activity of palladium in CO oxidation catalists, Khim. Zh, Gruzii, 2014, 14 (1), 100-103. |
| [20] | Savonkina, M., Kupcha, L., Yegizarov, Yu., Potapovich, A., Zhizhenko, G., Zaretsky, M., Physico-chemical study of palladium-manganese catalysts based on aluminium oxide, Vestnik Akad. Navuk BSSR, ser., Chem., 1986, 3, 58-62. |
| [21] | Bakhtadze, V., Mosidze, V., Kharabadze, N., Chochishvili, N., Fajishvili, M., Janjgava, R., Effect of SO2 on the activity and physical-cemical properties of Mn-Pd catalyst for CO oxidation, Slovak Int. Sci. J, 2017, 1 (7), 14-17. DOI: https://doi.org/10.5089/9781475587937.002 |
| [22] | Farrauto, R., Heck, R., Honeycomb catalysts: Present and future Kinet. Katal., 1998, 39 (5), 646- 652. |
| [23] | Bakhtadze V., Mosidze V., Machaladze T., Kharabadze, N., Lochoshvili D., Fajishvili M., Janjgava R., and Mdivani N. Activity of Pd – MnOx / cordierite (Mg, Fe)2Al4Si5O18) Catalyst for carbon monoxide oxidation. European Chemical Bulletin, 2020, 9 (2), 75 – 77. DOI: http//dx.doi.org/10.17628/ecb. 2020. 9. 75 – 77. |
| [24] | Platinum metals., A Guide to Preparative Inorganic Chemistry, Edited by G. Brauer., Izdatinlit, 1956, 723-726. |
| [25] | Chernyaev, I., About diamminitrochloropalladium [Pd(NH3)2NO2Cl]2, Complex compounds of transition metals, Selected Works, Moscow, Science 1973, 177-184. |
| [26] | Bakhtadze, V., Mosidze, V., Kharabadze, N., Dzanashvili, D., Janjgava, R., Fajishvili, M., Chochishvili, N. Effect of Pd concentraion and reductants on the activity of C0 oxidation catalysts, khim. Zh. Gruzii, 2015, 15 (1), 66-68. |
APA Style
Vitali Shalva Bakhtadze. (2021). Synthesis and Application of Manganese Oxide Catalysts in Oxidation and Hydrogenation Processes. Modern Chemistry, 9(3), 52-60. https://doi.org/10.11648/j.mc.20210903.12
ACS Style
Vitali Shalva Bakhtadze. Synthesis and Application of Manganese Oxide Catalysts in Oxidation and Hydrogenation Processes. Mod. Chem. 2021, 9(3), 52-60. doi: 10.11648/j.mc.20210903.12
AMA Style
Vitali Shalva Bakhtadze. Synthesis and Application of Manganese Oxide Catalysts in Oxidation and Hydrogenation Processes. Mod Chem. 2021;9(3):52-60. doi: 10.11648/j.mc.20210903.12
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.mc.20210903.12,
author = {Vitali Shalva Bakhtadze},
title = {Synthesis and Application of Manganese Oxide Catalysts in Oxidation and Hydrogenation Processes},
journal = {Modern Chemistry},
volume = {9},
number = {3},
pages = {52-60},
doi = {10.11648/j.mc.20210903.12},
url = {https://doi.org/10.11648/j.mc.20210903.12},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.mc.20210903.12},
abstract = {The analysis is made of the results of performed investigations: elaboration and study of physical-chemical properties of the catalysts on the basis of manganese oxides and on their use in various fields of chemical industry. Physical-chemical and technological foundations of the formation of oxide-manganese catalyst-absorbent of new-type are validated. It has been shown that for processes of purification of combustible gases from H2S and organic sulphur compounds he most favorable thermodynamic and kinetical conditions are created at manganese catalyst the composition of which near to Mn3O4. This type of the catalyst, together with MnO2 and, partially with Mn2O3, hold a firm own place in the catalytic processes. The direction, associated with the use of modified alumooxide carrier for elaboration of oxide-manganese and metallic catalysts (Pt, Pd) became as the new and prospective in the technology of carriers and catalysts, used in the processes of oxidation and hydrogenation. Technological modes, realized in given method, provide to activate solid-phase reaction of the formation of calcium aluminates at lower temperatures, as well as to stabilize surface-structural characteristics and to enhance thermal stability and mechanical strength of modified carrier. In the technology of the catalysts of aluminium oxide, by the use, of the carrier, preliminary modified by calcium oxide, the Mn-Pd catalyst was elaborated available for oxidation of CO and hydrocarbons of spent gases of the motor transport. The addition of palladium to the oxide-manganese catalyst leads to the formation of new centers on the surface which are active in the reaction of CO oxidation. The processes of the formation of manganese catalysts in reaction medium were studied. The method for preparing of the Mn-Pd catalyst includes processing the samples with an ammonia water solution. Treatment of the catalyst with ammonia water causes the formation of a palladium ammonia complex, which decomposes witha formation of palladium black. It can be concluded that the treatment with ammonia water leads to the completion of the formation of the active surface of the catalyst and to the temperature decrease of complete oxidation of CO. The experience of industrial operation of catalysts on the basis of modified alumocalcium carriers has shown that by duration of efficient operation of reburning of discharged gases of the engines of internal combustion they may compete with well-known industrial marks of the catalysts.},
year = {2021}
}
TY - JOUR T1 - Synthesis and Application of Manganese Oxide Catalysts in Oxidation and Hydrogenation Processes AU - Vitali Shalva Bakhtadze Y1 - 2021/09/26 PY - 2021 N1 - https://doi.org/10.11648/j.mc.20210903.12 DO - 10.11648/j.mc.20210903.12 T2 - Modern Chemistry JF - Modern Chemistry JO - Modern Chemistry SP - 52 EP - 60 PB - Science Publishing Group SN - 2329-180X UR - https://doi.org/10.11648/j.mc.20210903.12 AB - The analysis is made of the results of performed investigations: elaboration and study of physical-chemical properties of the catalysts on the basis of manganese oxides and on their use in various fields of chemical industry. Physical-chemical and technological foundations of the formation of oxide-manganese catalyst-absorbent of new-type are validated. It has been shown that for processes of purification of combustible gases from H2S and organic sulphur compounds he most favorable thermodynamic and kinetical conditions are created at manganese catalyst the composition of which near to Mn3O4. This type of the catalyst, together with MnO2 and, partially with Mn2O3, hold a firm own place in the catalytic processes. The direction, associated with the use of modified alumooxide carrier for elaboration of oxide-manganese and metallic catalysts (Pt, Pd) became as the new and prospective in the technology of carriers and catalysts, used in the processes of oxidation and hydrogenation. Technological modes, realized in given method, provide to activate solid-phase reaction of the formation of calcium aluminates at lower temperatures, as well as to stabilize surface-structural characteristics and to enhance thermal stability and mechanical strength of modified carrier. In the technology of the catalysts of aluminium oxide, by the use, of the carrier, preliminary modified by calcium oxide, the Mn-Pd catalyst was elaborated available for oxidation of CO and hydrocarbons of spent gases of the motor transport. The addition of palladium to the oxide-manganese catalyst leads to the formation of new centers on the surface which are active in the reaction of CO oxidation. The processes of the formation of manganese catalysts in reaction medium were studied. The method for preparing of the Mn-Pd catalyst includes processing the samples with an ammonia water solution. Treatment of the catalyst with ammonia water causes the formation of a palladium ammonia complex, which decomposes witha formation of palladium black. It can be concluded that the treatment with ammonia water leads to the completion of the formation of the active surface of the catalyst and to the temperature decrease of complete oxidation of CO. The experience of industrial operation of catalysts on the basis of modified alumocalcium carriers has shown that by duration of efficient operation of reburning of discharged gases of the engines of internal combustion they may compete with well-known industrial marks of the catalysts. VL - 9 IS - 3 ER -
Email: