CFD Modeling of NH3 Synthesis on Ru-Based Catalyst for Hydrogen Storage and Transport

Tianbao Gu; Samuel Simon Araya; Vincenzo Liso

doi:10.54337/aau772652211

CFD Modeling of NH3 Synthesis on Ru-Based Catalyst for Hydrogen Storage and Transport

Tianbao Gu^*, Samuel Simon Araya, Vincenzo Liso

^*Kontaktforfatter

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

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Abstract

Hydrogen is often considered as a promising alternative to fossil fuels, however its low boiling point and diffusivity cause a huge challenge for storage and transport. Therefore an alternative fuel like ammonia, containing 17 wt.% hydrogen with a higher boiling point, seems a very promising solution for hydrogen storage and transport. In this paper, ammonia synthesis via the most widely used Haber-Bosch process has been investigated. A computational fluid dynamics (CFD) model is developed for a lab-scale reactor, incorporating the modified Temkin kinetic model describing the complex catalytic reaction on the novel Ruthenium (Ru) catalyst. The isothermal simulation is first carried out for validation, i.e., comparing with the experimental data performed under the same conditions. Then the non-isothermal simulation is conducted to investigate the synthesis process in detail for the case study. The temperature gradient and species distributions inside the catalyst bed are captured and analyzed, which shows meaningful references for the design and operation of ammonia synthesis demonstrators.

Originalsprog	Engelsk
Titel	Proceedings of the 10th Hydrogen Technology Convention, Volume 2 : WHTC 2023, 22–26 May, Foshan, China
Redaktører	Hexu Sun, Wei Pei, Yan Dong, Hongmei Yu, Shi You
Antal sider	6
Vol/bind	2
Forlag	Springer
Publikationsdato	5 jan. 2024
Sider	39-44
ISBN (Trykt)	978-981-99-8584-5, 978-981-99-8587-6
ISBN (Elektronisk)	978-981-99-8585-2
DOI	https://doi.org/10.54337/aau772652211 https://doi.org/10.1007/978-981-99-8585-2_5
Status	Udgivet - 5 jan. 2024
Begivenhed	10th World Hydrogen Technology Convention, WHTC 2023 - Foshan, Kina Varighed: 22 maj 2023 → 26 maj 2023

Konference

Konference	10th World Hydrogen Technology Convention, WHTC 2023
Land/Område	Kina
By	Foshan
Periode	22/05/2023 → 26/05/2023

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HySTrAm: HySTrAm- Hydrogen Storage and Transport using Ammonia
Liso, V. (Projektkoordinator), Simon Araya, S. (CoPI), Asgharian, H. (Projektdeltager), Gu, T. (Projektdeltager) & Champetier, F. (Projektleder)
01/06/2022 → 30/11/2025
Projekter: Projekt › Forskning

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Gu, T., Simon Araya, S., & Liso, V. (2024). CFD Modeling of NH3 Synthesis on Ru-Based Catalyst for Hydrogen Storage and Transport. I H. Sun, W. Pei, Y. Dong, H. Yu, & S. You (red.), Proceedings of the 10th Hydrogen Technology Convention, Volume 2: WHTC 2023, 22–26 May, Foshan, China (Bind 2, s. 39-44). Springer. https://doi.org/10.54337/aau772652211, https://doi.org/10.1007/978-981-99-8585-2_5

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title = "CFD Modeling of NH3 Synthesis on Ru-Based Catalyst for Hydrogen Storage and Transport",

abstract = "Hydrogen is often considered as a promising alternative to fossil fuels, however its low boiling point and diffusivity cause a huge challenge for storage and transport. Therefore an alternative fuel like ammonia, containing 17 wt.% hydrogen with a higher boiling point, seems a very promising solution for hydrogen storage and transport. In this paper, ammonia synthesis via the most widely used Haber-Bosch process has been investigated. A computational fluid dynamics (CFD) model is developed for a lab-scale reactor, incorporating the modified Temkin kinetic model describing the complex catalytic reaction on the novel Ruthenium (Ru) catalyst. The isothermal simulation is first carried out for validation, i.e., comparing with the experimental data performed under the same conditions. Then the non-isothermal simulation is conducted to investigate the synthesis process in detail for the case study. The temperature gradient and species distributions inside the catalyst bed are captured and analyzed, which shows meaningful references for the design and operation of ammonia synthesis demonstrators.",

keywords = "Ammonia synthesis, CFD, Hydrogen storage and transport",

author = "Tianbao Gu and {Simon Araya}, Samuel and Vincenzo Liso",

year = "2024",

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day = "5",

doi = "10.54337/aau772652211",

language = "English",

isbn = "978-981-99-8584-5",

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editor = "Hexu Sun and Wei Pei and Yan Dong and Hongmei Yu and Shi You",

booktitle = "Proceedings of the 10th Hydrogen Technology Convention, Volume 2",

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Gu, T , Simon Araya, S & Liso, V 2024, CFD Modeling of NH3 Synthesis on Ru-Based Catalyst for Hydrogen Storage and Transport. i H Sun, W Pei, Y Dong, H Yu & S You (red), Proceedings of the 10th Hydrogen Technology Convention, Volume 2: WHTC 2023, 22–26 May, Foshan, China. bind 2, Springer, s. 39-44, 10th World Hydrogen Technology Convention, WHTC 2023, Foshan, Kina, 22/05/2023. https://doi.org/10.54337/aau772652211, https://doi.org/10.1007/978-981-99-8585-2_5

CFD Modeling of NH3 Synthesis on Ru-Based Catalyst for Hydrogen Storage and Transport. / Gu, Tianbao ; Simon Araya, Samuel ; Liso, Vincenzo.
Proceedings of the 10th Hydrogen Technology Convention, Volume 2: WHTC 2023, 22–26 May, Foshan, China. red. / Hexu Sun; Wei Pei; Yan Dong; Hongmei Yu; Shi You. Bind 2 Springer, 2024. s. 39-44.

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - CFD Modeling of NH3 Synthesis on Ru-Based Catalyst for Hydrogen Storage and Transport

AU - Gu, Tianbao

AU - Simon Araya, Samuel

AU - Liso, Vincenzo

PY - 2024/1/5

Y1 - 2024/1/5

N2 - Hydrogen is often considered as a promising alternative to fossil fuels, however its low boiling point and diffusivity cause a huge challenge for storage and transport. Therefore an alternative fuel like ammonia, containing 17 wt.% hydrogen with a higher boiling point, seems a very promising solution for hydrogen storage and transport. In this paper, ammonia synthesis via the most widely used Haber-Bosch process has been investigated. A computational fluid dynamics (CFD) model is developed for a lab-scale reactor, incorporating the modified Temkin kinetic model describing the complex catalytic reaction on the novel Ruthenium (Ru) catalyst. The isothermal simulation is first carried out for validation, i.e., comparing with the experimental data performed under the same conditions. Then the non-isothermal simulation is conducted to investigate the synthesis process in detail for the case study. The temperature gradient and species distributions inside the catalyst bed are captured and analyzed, which shows meaningful references for the design and operation of ammonia synthesis demonstrators.

AB - Hydrogen is often considered as a promising alternative to fossil fuels, however its low boiling point and diffusivity cause a huge challenge for storage and transport. Therefore an alternative fuel like ammonia, containing 17 wt.% hydrogen with a higher boiling point, seems a very promising solution for hydrogen storage and transport. In this paper, ammonia synthesis via the most widely used Haber-Bosch process has been investigated. A computational fluid dynamics (CFD) model is developed for a lab-scale reactor, incorporating the modified Temkin kinetic model describing the complex catalytic reaction on the novel Ruthenium (Ru) catalyst. The isothermal simulation is first carried out for validation, i.e., comparing with the experimental data performed under the same conditions. Then the non-isothermal simulation is conducted to investigate the synthesis process in detail for the case study. The temperature gradient and species distributions inside the catalyst bed are captured and analyzed, which shows meaningful references for the design and operation of ammonia synthesis demonstrators.

KW - Ammonia synthesis

KW - CFD

KW - Hydrogen storage and transport

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DO - 10.54337/aau772652211

M3 - Article in proceeding

SN - 978-981-99-8584-5

SN - 978-981-99-8587-6

VL - 2

SP - 39

EP - 44

BT - Proceedings of the 10th Hydrogen Technology Convention, Volume 2

A2 - Sun, Hexu

A2 - Pei, Wei

A2 - Dong, Yan

A2 - Yu, Hongmei

A2 - You, Shi

PB - Springer

T2 - 10th World Hydrogen Technology Convention, WHTC 2023

Y2 - 22 May 2023 through 26 May 2023

ER -

CFD Modeling of NH3 Synthesis on Ru-Based Catalyst for Hydrogen Storage and Transport

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