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Calculation method of heat and fluid flow in a microreactor for supercritical water and its solution

✍ Scribed by Yoshio Masuda; Akira Suzuki; Yutaka Ikushima

Publisher
Elsevier Science
Year
2006
Tongue
English
Weight
281 KB
Volume
33
Category
Article
ISSN
0735-1933

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✦ Synopsis

A microreactor for supercritical water has been developed for chemical engineering process. Heat and fluid flow in a T-junction in this system are calculated using STREAM. Since the flow in the tube are in the wide range from laminar to turbulent flow, a nonlinear k-Ξ΅ model taking into account the low-Reynolds-number effects (proposed by Abe, Kondoh and Nagano) are used. We assume that a supercritical water velocity is 2.0 m/s. The optimum condition for time fluctuation of temperature is when the substrate velocity is 0.4. In this case, the substrate temperature rises above the critical temperature immediately and the main reaction progresses efficiently. When v is 0.1, the temperature remains subcritical region for a while. On the other hand, when the v is larger than 0.4, the temperature does not reach the critical point.

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A 3D finite volume method for the predic
A 3D finite volume method for the prediction of a supercritical fluid buoyant flow in a differentially heated cavity
✍ Gilbert Accary; Isabelle Raspo πŸ“‚ Article πŸ“… 2006 πŸ› Elsevier Science 🌐 English βš– 918 KB

This paper describes a three-dimensional finite volume method for the prediction of supercritical fluid buoyant flows in heated enclosures. The space and the time accuracies of the method are checked on an exact analytical solution, and the solver is validated for several benchmark tests for natural