Journal
CHEMICAL ENGINEERING RESEARCH & DESIGN
Volume 184, Issue -, Pages 349-365Publisher
ELSEVIER
DOI: 10.1016/j.cherd.2022.05.035
Keywords
Steam methane reforming; Design of experiments; Optimization; Response surface analysis; Box-Behnken design
Categories
Funding
- Coordination for the Improvement of Higher Education Personnel - Brazil (CAPES) [001]
- COPENOR
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This study investigates the optimal operating conditions of a steam methane reformer using the design of experiments and response surface methodology. The research proposes an optimization problem to maximize methane conversion and syngas quality.
Natural gas is an important precursor to produce synthesis gas through the steam reforming process. This work aims to map the optimal operating conditions of a steam methane reformer based on the design of experiments (DOE) approach and response surface methodology (RSM) relying on a phenomenological model validated with industrial data. A screening factorial design 2(IV)(8-4) is initially conducted to identify the most significant process variables, followed by a 2(5) full factorial design for a more accurate analysis of the main and interaction effects of the input variables on the methane conversion and syngas quality. The most significant variables are the steam to carbon ratio, the flow rate of the stream fed to the reforming tubes, and feed gas and combustion air temperatures. A Box-Behnken design (BBD) with 25 experiments is carried out and polynomial models are proposed and validated through the analysis of variance with great confidence. An optimization problem is formulated to maximize the methane conversion, ensure the quality, and tube wall temperature constraints. This problem is solved in Excel, using the generalized reduced gradients method and the calculated optimal point is analyzed through contour plots. (C) 2022 Institution of Chemical Engineers. Published by Elsevier Ltd. All rights reserved.
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