Saran Salakij scite author profile

The pressure drop of convective boiling flow may be reduced by extracting vapor locally since the entire generated vapor does not have to travel through the entire channel length. In this study, the theoretical model was developed to simulate a convective boiling flow through a fractal-like branching microchannel network with vapor extraction. The fractal-like branching microchannel network has a porous membrane forming one wall of the channels. Vapor extraction occurs by applying a vacuum across the membrane. Sample predictive local conditions and global results are presented and discussed. The predicting results are classified into two groups: low inlet flow rate-low heat flux and high inlet flow rate-high heat flux. The results show that to increase extracted vapor mass flow rate, either decreasing supplying extracting pressure or increasing permeability of the porous membrane must be applied. As the amount of vapor extracting increases, the reduction in pressure drop across the channel and the exit vapor quality is achieved.

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Model-based predictive control for building energy management: Part II – Experimental validations

Salakij

Chávez

et al. 2017

Energy and Buildings

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Modeling in situ vapor extraction during convective boiling in fractal-like branching microchannel networks

Salakij

Liburdy

Pence

et al. 2013

International Journal of Heat and Mass Transfer

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Saran Salakij

Model-Based Predictive Control for building energy management. I: Energy modeling and optimal control

Simplified dengue virus microwell plaque assay using an automated quantification program

Modeling In-Situ Vapor Extraction During Convective Boiling

Model-based predictive control for building energy management: Part II – Experimental validations

Modeling in situ vapor extraction during convective boiling in fractal-like branching microchannel networks

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