COX-free LOHC dehydrogenation in a heatpipe reformer highly integrated with a hydrogen burner

Authors
Arash BadakhshSong Dong HyunSeongeun MoonJeong, Hyang sooSohn, Hyun taeSuk Woo NamSoon Kim, PyungHui Seo, JiKim, YongwooLee, JaeyongWoo Choung, JinKim, Yong min
Issue Date
2022-12
Publisher
Elsevier BV
Citation
Chemical Engineering Journal, v.449, no.1
Abstract
We introduce a thermally self-sustained reactor concept highly integrated with a heat source to produce hydrogen (H-2) stored in methylcyclohexane (MCH), the liquid organic hydrogen carrier (LOHC). This work has a great potential to promote the use of LOHC for COx-free H-2 production for on-board or mobile applications. To this end, the heat-pipe dehydrogenator, an H-2 burner, and a thermal management module are developed. We initially perform a numerical simulation to optimize reactor wall materials and configuration and experimentally test them to reveal the feasibility of such a highly integrated system to maintain uniform reaction temperature at 320 - 360 degrees C, optimal for MCH dehydrogenation. In the proposed design, the heat required for the reaction is provided by the combustion of a part of released H-2, and transferred via a gas-liquid organic phase-change material (PCM). In the as-developed H-2 generator with 50.4 NLH2/h (equivalent to 138.5 WLHV-basis), we achieve a high reforming efficiency of 80% with an MCH conversion of > 99.7%. We expect the as-developed system to be a stepping stone to expanding the use of LOHC in versatile applications requiring carbon-free H-2 storage and production after further engineering efforts to enhance heat recovery and thermal circulation.
Keywords
MICROCHANNEL REACTOR; AMMONIA; DESIGN; ENERGY; LOHC dehydrogenation; Hydrogen combustion; Autothermal reactor design; Phase-change material; Heatpipe reformer; Heat transfer; Thermochemistry
ISSN
1385-8947
URI
https://pubs.kist.re.kr/handle/201004/75917
DOI
10.1016/j.cej.2022.137679
Appears in Collections:
KIST Article > 2022
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