A. B. Vandyshev
ESTIMATING THE EFFECT OF SOME INDIVIDUAL TECHNOLOGICAL FACTORS ON THE EFFECTIVENESS OF PRODUCING HIGH-PURITY HYDROGEN FROM HYDROCARBONS IN CATALYTIC MEMBRANE DEVICES
DOI: 10.17804/2410-9908.2022.4.006-036 The paper presents results of using a physically grounded mathematical model, verified in numerous practical applications, to estimate the effect of some individual technological factors on the effectiveness and efficiency of producing high-purity hydrogen from products of steam conversion of hydrocarbons in advanced catalytic membrane devices.
Keywords: mathematical simulation, process parameters, catalytic membrane devices, high-purity hydrogen, raw hydrocarbons References:
- Murav'ev L.L., Vandyshev A.B., Makarov V.M. Modeling of membrane extraction of hydrogen from the products of steam conversion of hydrocarbons. Theoretical Foundations of Chemical Engineering, 1999, vol. 33, iss. 3, pp. 258–263.
- Vandyshev A.B. Analyzing the parameters of membrane catalytic systems for extraction of highly pure hydrogen from hydrocarbon feedstock with the application of mathematical modeling. Diagnostics, Resource and Mechanics of materials and structures, 2016, iss. 4, pp. 6–46. DOI: 10.17804/2410-9908.2016.4.006-045. Available at: https://dream-journal.org/DREAM_Issue_4_2016_Vandyshev_A.B._006_045.pdf
- Vandyshev A.B., Kulikov V.A. Analysis of the Calculated Parameters of a Model Membrane-Catalytic Converter for the Production of High-Purity Hydrogen from Methane. Chem Petrol Eng, 2018, vol. 54, pp. 31–37. DOI: 10.1007/s10556-018-0434-y.
- Vandyshev A.B., Kulikov V.A. Evaluation of Design Parameters for a 32-Module Disk-Type Membrane-Catalytic Reactor for Producing High-Purity Hydrogen from Diesel Fuel. Chem Petrol Eng, 2020, vol. 55, pp. 815–820. DOI: 10.1007/s10556-020-00698-8.
- Vandyshev A.B. A Systematic Analysis of the Parameters of Disk-Type Membrane-Catalytic Devices for Producing High-Purity Hydrogen from Methane and Diesel Fuel. Diagnostics, Resource and Mechanics of materials and structures, 2020, iss. 4, pp. 6–27. DOI: 10.17804/2410-9908.2020.4.06-27. Available at: http://dream-journal.org/issues/2020-4/2020-4_284.html
- Vandyshev A.B., Kulikov V.A. Analysis of Parameters for Producing High-Purity Hydrogen from Natural Gas in a Tubular Type Membrane-Catalytic Module. Chem Petrol Eng, 2021, vol. 56, pp. 715–720. DOI: 10.1007/s10556-021-00833-z.
- Vandyshev A.B., Kulikov V.A. Assessment of the Effects of Temperature and Pressure on the Efficiency of High-Purity Hydrogen Production from Hydrocarbon Feedstocks in Membrane-Catalytic Devices. Chem Petrol Eng, 2021, vol. 56, pp. 799–808. DOI: 10.1007/s10556-021-00845-9.
- Shirasaki Y., Tsuneki T., Ota Y., Yasuda I., Tachibana S., Nakajima H., Kobayashi K. Development of membrane reformer system for highly efficient hydrogen production from natural gas. International Journal of Hydrogen Energy, 2009, vol. 34, pp. 4482–4487. DOI: 10.1016/J.IJHYDENE.2008.08.056.
- Shigarov A.B., Кirillov V.A., Аmosov Y.I., Brayko A.S., Avakov V.B., Landgraf I.К., Urusov A.R., Jivulko S.A., Izmaylovich V.V. Membrane reformer module with Ni-foam catalyst for pure hydrogen production from methane: Experimental demonstration and modeling. Int. J. Hydrogen Energy, 2017, vol. 42, No. 10, pр. 6713–6726. DOI: 10.1016/j.ijhydene.2016.12.057.
- Dittmar B., Behrens A., Schödel N., Rüttinger M., Franco Th., Straczewski G., Dittmeyer R. Methane steam reforming operation and thermal stability of new porous metal supported tubular palladium composite membranes. Int. J. Hydrogen Energy, 2013, vol. 38 (21), pp. 8759–8771. DOI: 10.1016/j.ijhydene.2013.05.030.
- Goltsov V.A. Vodorod v metallakh [Hydrogen in metals. In: Atomic Hydrogen Energy and Technology, iss. 1]. Moscow, Atomizdat Publ., 1978, pp. 193–230. (In Russian).
- Shirasaki Y., Sato T., Iton N., Tsuneki T., Nishii T., Kurokawa H., Yasuda I., Shimamori T., Takagi Y., Hikosaka H., Tanaka H. Development of a Membrane-on-Catalyst Hydrogen Production Module for Steam Reforming of City Gas. Chemical Reaction Engineering (Jap.), 2017, vol. 43, iss. 5, pp. 336–341. DOI: 10.1252/KAKORONBUNSHU.43.336.
- Vandyshev A.B., Kulikov V.A. Hydrogen Permeability of Palladium Membranes Made of Alloy V-1 in Laboratory Investigations and Membrane Devices. Chem Petrol Eng, 2015, vol. 51, pp. 396–401. DOI: 10.1007/s10556-015-0058-4.
- Vandyshev A.B., Makarov V.M., Usova T.B. Analyzing the conditions of hydrogen extraction from multicomponent hydrogen-containing gas mixtures by means of triple diagrams С-Н-О. IMACH UrO RAN, 1998, deposited in VINITI 09.12.98. (In Russian).
- Vandyshev A.B., Kulikov V.A. Evaluation of the efficiency of preparing especially pure hydrogen from methanol and ethanol in membrane equipment, combined with a methane or carbon monoxide conversion catalyst. Chem Petrol Eng, 2011, vol. 47, pp. 536–544. DOI: 10.1007/s10556-011-9506-y.
Article reference
Vandyshev A. B. Estimating the Effect of Some Individual Technological Factors on the Effectiveness of Producing High-Purity Hydrogen from Hydrocarbons in Catalytic Membrane Devices // Diagnostics, Resource and Mechanics of materials and structures. -
2022. - Iss. 4. - P. 6-36. - DOI: 10.17804/2410-9908.2022.4.006-036. -
URL: http://eng.dream-journal.org/issues/2022-4/2022-4_359.html (accessed: 11/21/2024).
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