Add to ORKGThe heat transfer performance and friction loss of two-pass ribbed channels are highly influenced by the combined effect of rib orientation and bend shape. This paper, for the first time, numerically investigates this effect for four rib orientations, two rib angles and eight different bend shapes at Reynolds number of 30,000. The results show that the rib orientation determines the rotation direction and the transverse position of secondary flow in straight passages, while the bend shape determines the delivery of upstream secondary flow and the generation of local secondary flow. The key to heat transfer enhancement in the second passage is to promote local secondary flow using the energy from upstream secondary flow with the same rotatio...
Ribbing the internal passages of turbine blades with 45 deg inclined ribs is a common practice ...
AbstractIn this paper, flow and heat transfer characteristics are presented for U-shaped channel wit...
This work is an investigation of the heat transfer and pressure-loss characteristics in a rectangula...
Strong secondary flow generated by ribbed channel and U-shaped bend is the key for forced convection...
Strong secondary flow generated by ribbed channel and U-shaped bend is the key for forced convection...
A numerical method is utilized in this paper to study the effects of varying divider inclination ang...
The objective of this study was to investigate, through experiments, the combined effects of a sharp...
Heat transfer and flow characteristics of six ribbed channels of square cross section having differe...
Heat transfer and flow characteristics of six ribbed channels of square cross section having differe...
The detailed heat transfer distributions and pressure drop in the turn region of a U-bend channel wi...
The present study employs square cross-section ribbed channels with different arrangements of downst...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Purpose: The study aims to focus on rotation effects on a ribbed channel of gas turbine blades for i...
Numerical studies of the flow field and heat transfer in a fully developed ribbed channel have been ...
Purpose - The purpose of this paper is to augment heat transfer rates of traditional rib-elements wi...
Ribbing the internal passages of turbine blades with 45 deg inclined ribs is a common practice ...
AbstractIn this paper, flow and heat transfer characteristics are presented for U-shaped channel wit...
This work is an investigation of the heat transfer and pressure-loss characteristics in a rectangula...
Strong secondary flow generated by ribbed channel and U-shaped bend is the key for forced convection...
Strong secondary flow generated by ribbed channel and U-shaped bend is the key for forced convection...
A numerical method is utilized in this paper to study the effects of varying divider inclination ang...
The objective of this study was to investigate, through experiments, the combined effects of a sharp...
Heat transfer and flow characteristics of six ribbed channels of square cross section having differe...
Heat transfer and flow characteristics of six ribbed channels of square cross section having differe...
The detailed heat transfer distributions and pressure drop in the turn region of a U-bend channel wi...
The present study employs square cross-section ribbed channels with different arrangements of downst...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Purpose: The study aims to focus on rotation effects on a ribbed channel of gas turbine blades for i...
Numerical studies of the flow field and heat transfer in a fully developed ribbed channel have been ...
Purpose - The purpose of this paper is to augment heat transfer rates of traditional rib-elements wi...
Ribbing the internal passages of turbine blades with 45 deg inclined ribs is a common practice ...
AbstractIn this paper, flow and heat transfer characteristics are presented for U-shaped channel wit...
This work is an investigation of the heat transfer and pressure-loss characteristics in a rectangula...