Experimental Control of a Methanol Catalytic Membrane Reformer

Reactions Pub Date : 2023-11-06 DOI:10.3390/reactions4040040
Alejandro Cifuentes, Maria Serra, Ricardo Torres, Jordi Llorca
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引用次数: 0

Abstract

A simple proportional integral (PI) controller with scheduled gain has been developed and implemented in a catalytic membrane reactor (CMR) to obtain pure hydrogen from a methanol steam reforming process. The controller is designed to track the setpoint of the pure hydrogen flow rate in the permeate side of the CMR via the manipulation of the fuel inlet flow rate. Therefore, the controller actuator is the liquid pump that provides the mixture of methanol and water to the reactor. Within the CMR, the catalytic pellets of PdZn/ZnAl2O4/Al2O3 have been used to facilitate the methanol steam-reforming reaction under stoichiometric conditions (S/C = 1), and Pd–Ag metallic membranes have been employed to simultaneously separate the generated hydrogen. The PI controller design is based on a mathematical model constructed using transfer functions acquired from dynamic experiments conducted with the CMR. The controller has been successfully implemented, and experimental validation tests have been carried out at 450 °C and relative pressures of 6, 8, 10, and 12 bar.
甲醇催化膜重整器的实验控制
开发了一种具有预定增益的简单比例积分(PI)控制器,并在催化膜反应器(CMR)中实现,用于从甲醇蒸汽重整过程中获得纯氢。该控制器旨在通过操纵燃料进口流量来跟踪CMR渗透侧纯氢流量的设定值。因此,控制器执行器是向反应器提供甲醇和水的混合物的液体泵。在CMR内,采用PdZn/ZnAl2O4/Al2O3的催化球团在化学计量条件下(S/C = 1)促进甲醇蒸汽重整反应,并采用钯银金属膜同时分离生成的氢气。PI控制器的设计是基于用CMR进行的动态实验获得的传递函数构建的数学模型。该控制器已成功实现,并在450°C和6、8、10和12 bar的相对压力下进行了实验验证测试。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.70
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0.00%
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