Design of A Microchannel Based Solar Receiver/Reactor for Methane-Steam Reforming

International journal of micro-nano scale transport Pub Date : 2012-06-01 DOI:10.1260/1759-3093.3.1-2.53

K. Drost, B. Eilers, S. Apte, V. Narayanan, J. Schmitt

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引用次数: 2

Abstract

This study investigates use of solar thermochemical processing of clean fuels using biomass products (in particular CH4, H2O). To address technological feasibility of a microchannel-based solar receiver/reactor, a combined numerical and experimental study of methane-steam reforming is carried out on a single microchannel with Palladium-deposited channel walls and heat input to facilitate endothermic heterogeneous reactions producing syngas. A simple one-dimensional model solving steady state species mass fraction, energy, and overall conservation of mass equations is developed, calibrated and validated against concurrent experimental data [1, 2]. Methane-steam reforming is modeled by three reduced-order reactions occurring on the reactor walls. The effects of the total heat input, heat flux profile, and inlet flow rate on production of hydrogen are investigated to assess the effectiveness of the microchannel configuration for production of hydrogen. A coupled shape-constrained optimization and Monte-Carlo...

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基于微通道的甲烷-蒸汽重整太阳能接收/反应器设计

本研究探讨了利用生物质产品(特别是CH4, H2O)对清洁燃料进行太阳能热化学处理的方法。为了研究基于微通道的太阳能接收器/反应器的技术可行性，在单个微通道上进行了甲烷-蒸汽重整的数值和实验相结合的研究，该微通道内壁沉积钯，并输入热量以促进吸热非均相反应产生合成气。建立了一个简单的一维模型，求解稳态物种质量分数、能量和整体质量守恒方程，并根据并发实验数据进行了校准和验证[1,2]。甲烷-蒸汽重整是用发生在反应器壁上的三个降阶反应来模拟的。研究了总热输入、热通量分布和入口流速对氢气生产的影响，以评估微通道配置对氢气生产的有效性。一个耦合的形状约束优化和蒙特卡罗…

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International journal of micro-nano scale transport

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