Computational Fluid Dynamics of Co-Production of Zinc and Syngas in a Solar Reactor


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In this paper, the production of Zn and H2 in a 4 kW solar reactor has been investigated. Utilization of a renewable energy source increases the importance of this work. The effect of changes in reactor geometry was analyzed, and, with changing different parameters, their effects were investigated. At constant thermal energy rate, with increasing CH4 inlet gas flow rate there is a decrease in reaction chamber temperature and therefore in reactor efficiency. Increasing rotation of reaction chamber causes its temperature to increase, where an increase of 150% in rotation caused a 1% increase in efficiency. With the increase in thermal energy rate, thermal efficiency was increased. Also, with increasing rate of thermal energy, the rate of chemical reaction that produces Zn and H2 increased. The geometry used in the light beams concentrator section causes the occurrence of maximum temperature in the desired point (cylindrical chamber) which increases system efficiency significantly.

Sobre autores

M. Neshat

Department of Mechanical Engineering

Autor responsável pela correspondência
Email: m_a_neshat@yahoo.com
Irã, Tehran, Narmak, 16887

M. Kiani

Department of Mechanical Engineering

Email: m_a_neshat@yahoo.com
Irã, Kashan

S. Hassanzadeh

Department of automotive Engineering

Email: m_a_neshat@yahoo.com
Irã, Tehran, Narmak, 16887

S. Jeidi

Department of Mechanical Engineering

Email: m_a_neshat@yahoo.com
Irã, Tehran

A. Fathi

Department of Mechanical Engineering

Email: m_a_neshat@yahoo.com
Irã, 470 Mirdamad, Tehran, 19697

H. Yaghoubi

Department of Mechanical Engineering

Email: m_a_neshat@yahoo.com
Irã, Tehran, Narmak, 16887

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