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- Title
Numerical simulation of heat‐pipe and folded reformers for efficient hydrogen production through methane autothermal reforming.
- Authors
Chen, Bohong; Wang, Feng
- Abstract
Summary: In order to intensify the methane autothermal reforming (ATR) process for efficient hydrogen production, novel heat‐pipe and the folded reactors were designed and studied by numerical simulations. The reactor performance, such as methane conversion rate, hydrogen yield, and temperature difference between the reactor inlet and outlet, was computed and compared for both traditional tubular reactors and the novel reactors. Under the optimum operating parameters, compared with the tubular reactor, the heat pipe reactor and the folded reactor can help to increase methane conversion rate from 34% to 45% and 50%, while hydrogen productivity from 22.2% to 28.6% and 31.4%, respectively. The performance of the heat pipe reactor depends on the length and position of the heat pipe, while for the folded reactor, thicker intermediate plate with higher thermal conductivity material is more beneficial. Results were compared with previous experiments and could be used as a reference to guide new experimental and theoretical works toward the ultimate goal of designing and optimizing the ATR reactors for hydrogen production in the future.
- Subjects
TUBULAR reactors; COMPUTER simulation; METHANE; HEAT pipes; STEAM reforming; HYDROGEN production; THERMAL conductivity; REFORMERS
- Publication
International Journal of Energy Research, 2020, Vol 44, Issue 13, p10430
- ISSN
0363-907X
- Publication type
Article
- DOI
10.1002/er.5668