Szczegóły publikacji

Autorzy (5)

• AGHPająk Marcin
• AGHBuchaniec Szymon
• Kimijima Shinji
• AGHSzmyd Janusz
• AGHBrus Grzegorz

Słowa kluczowe

Dane bibliometryczne

ID BaDAP	131177
Data dodania do BaDAP	2021-06-10
Tekst źródłowy	URL
DOI	10.1016/j.ijhydene.2020.02.228
Rok publikacji	2021
Typ publikacji	referat w czasopiśmie
Otwarty dostęp
Creative Commons
Czasopismo/seria	International Journal of Hydrogen Energy

Abstract

The presented research focuses on an optimization design of a catalyst distribution inside a small-scale methane/steam reforming reactor. A genetic algorithm was used for the multiobjective optimization, which included the search for an optimum of methane conversion rate and a minimum of the difference between highest and lowest temperatures in the reactor. For the sake of computational time, the maximal number of the segment with different catalyst densities was set to be thirty in this study. During the entire optimization process, every part of the reactor could be filled, either with a catalyst material or non-catalytic metallic foam. In both cases, the porosity and pore size was also specified. The impact of the porosity and pore size on the active reaction surface and permeability was incorporated using graph theory and three-dimensional digital material representation. Calculations start with the generation of a random set of possible reactors, each with a different catalyst distribution. The algorithm calls reforming simulation over each of the reactors, and after obtaining concentration and temperature fields, the algorithms calculated fitness function. The properties of the best reactors are combined to generate a new population of solutions. The procedure is repeated, and after meeting the coverage criteria, the optimal catalyst distribution was proposed. The paper is summarized with the optimal catalyst distribution for the given size and working conditions of the system.

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fragment książki

#130616Data dodania: 13.10.2020

Zaznacz do drukuNumerical analysis of the catalyst distribution optimization in a steam reforming reactor using genetic algorithm / Marcin PAJĄK, Grzegorz BRUS, Janusz SZMYD // W: CPOTE 2020 [Dokument elektroniczny] : 6th international conference Contemporary Problems of Thermal Engineering : Online, 21-24 September 2020 : book of abstracts / ed. Lucyna Czarnowska. — Wersja do Windows. — Dane tekstowe. — [Gliwice : Silesian University of Technology, Department of Thermal Engineering], [2020]. — e-ISBN: 978-83-61506-54-6. — Ekran [1] CPOTE2020-1055-A. — Tryb dostępu: https://www.s-conferences.eu/cpote2020/BookOfAbstracts/Abstra... [2020-10-12]. — Pełny tekst w: CPOTE 2020 [Dokument elektroniczny] : proceedings of the 6th international conference on Contemporary Problems of Thermal Engineering : Poland, 21–24.09.2020 / ed. by Wojciech Stanek, [et al.]. — [S. l.] : Department of Thermal Technology. Silesian University of Technology, cop. 2020. — e-ISBN: 978-83-61506-54-6. — S. 363--374. — Wymagania systemowe: Adobe Reader. — Tryb dostępu: https://cpote.blob.core.windows.net/cpote-container/CPOTE2020_proceedings.pdf[2020-12-11]. — Bibliogr. s. 373--374, Abstr.

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artykuł

#145982Data dodania: 1.4.2023

Zaznacz do drukuGenetic algorithm-based strategy for the steam reformer optimization / Marcin PAJĄK, Grzegorz BRUS, Janusz S. SZMYD // International Journal of Hydrogen Energy ; ISSN 0360-3199. — 2023 — vol. 48 iss. 31, s. 11652–11665. — Bibliogr. s. 11664–11665, Abstr. — Publikacja dostępna online od: 2021-11-10

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