Effects of the incident angle of branch pipe on the thermal mixing of impinging jets in T-junctions

“…Numerous studies have been conducted to investigate hydrodynamics and mixing characteristics of inline mixers, especially T-type inline mixers, using experimental approaches [7][8][9][10][11]. Utilization of CFD analysis has been proven to improve the understanding of hydrodynamics and mixing phenomena happening inside inline mixers as presented by several previous studies [7,8,[12][13][14][15][16][17].…”

“…Numerous studies have been conducted to investigate hydrodynamics and mixing characteristics of inline mixers, especially T-type inline mixers, using experimental approaches [7][8][9][10][11]. Utilization of CFD analysis has been proven to improve the understanding of hydrodynamics and mixing phenomena happening inside inline mixers as presented by several previous studies [7,8,[12][13][14][15][16][17]. Based on those works, it can be concluded that different flow parameters influence the hydrodynamic condition in inline mixers, including the angle between the branch and main pipe, diameter ratio, velocity ratio, and mass flow rate.…”

Numerical Investigation of Hydrodynamics in Inline Mixers

“…Numerous studies have been conducted to investigate hydrodynamics and mixing characteristics of inline mixers, especially T-type inline mixers, using experimental approaches [7][8][9][10][11]. Utilization of CFD analysis has been proven to improve the understanding of hydrodynamics and mixing phenomena happening inside inline mixers as presented by several previous studies [7,8,[12][13][14][15][16][17].…”

“…Numerous studies have been conducted to investigate hydrodynamics and mixing characteristics of inline mixers, especially T-type inline mixers, using experimental approaches [7][8][9][10][11]. Utilization of CFD analysis has been proven to improve the understanding of hydrodynamics and mixing phenomena happening inside inline mixers as presented by several previous studies [7,8,[12][13][14][15][16][17]. Based on those works, it can be concluded that different flow parameters influence the hydrodynamic condition in inline mixers, including the angle between the branch and main pipe, diameter ratio, velocity ratio, and mass flow rate.…”

Numerical Investigation of Hydrodynamics in Inline Mixers

Experimental study on temperature fluctuations on plate surface induced by coaxial-jet flow

Experimental research on the separation performance of a compound T-junction for two-phase zeotropic mixtures