Author: F.G. Hammitt
Publisher:
ISBN:
Category :
Languages : en
Pages : 61
Book Description
Natural Convection With Internal Heat Generation In Aqueous Fluids and Liquid Report
Natural Convection
Author: Yogesh Jaluria
Publisher: Pergamon
ISBN:
Category : Science
Languages : en
Pages : 344
Book Description
Publisher: Pergamon
ISBN:
Category : Science
Languages : en
Pages : 344
Book Description
natural convection and heat engine work
Free Convection Heat Transfer Measurements in Horizontal Liquid Layers with Internal Heat Generation
Numerical Investigation of Natural Convection and Entropy Generation of Water Near Density Inversion in a Cavity Having Circular and Elliptical Body
Author: Nguyen Minh Phu
Publisher:
ISBN:
Category : Electronic books
Languages : en
Pages : 0
Book Description
In this chapter, a water-filled square cavity with left hot wall and right cold wall was numerically investigated. The hot and cold wall temperatures are 10¬∞C and 0¬∞C respectively to examine the density inversion of natural convection water, i.e. water at 4¬∞C. In the middle of the square, there are circular and elliptical bodies to study fluid,Äìstructure interaction in terms of the thermohydraulic behavior and entropy generation. 2D numerical simulation was performed using finite volume method in Ansys fluent software with the assumption of laminar flow. The simulation results are compared with benchmark data to determine reliability. The results indicate that the body insertions increase the convection heat transfer coefficients at the best heat transfer positions due to impingement heat transfer. An increase in heat transfer rate of 1.06 times is observed in the case of circular body compared to none. There are three primary eddies in the cavity with bodies, whereas the cavity without body has two primary eddies. Maximum entropy generation was found in the upper right corner of cavity mainly due to high horizontal temperature gradient. Bodies of circle and vertical ellipse have almost the same thermohydraulic and entropy generation characteristics due to the same horizontal dimension which mainly effects on the downward natural convection current. The entropy generation of cavity with circular body is 1.23 times higher than that of the cavity without body. At positions y/L¬†=¬†1 on the hot wall and y/L¬†=¬†0.74 on the cold wall, the convection heat transfer coefficient is close to zero due to stagnant fluid.
Publisher:
ISBN:
Category : Electronic books
Languages : en
Pages : 0
Book Description
In this chapter, a water-filled square cavity with left hot wall and right cold wall was numerically investigated. The hot and cold wall temperatures are 10¬∞C and 0¬∞C respectively to examine the density inversion of natural convection water, i.e. water at 4¬∞C. In the middle of the square, there are circular and elliptical bodies to study fluid,Äìstructure interaction in terms of the thermohydraulic behavior and entropy generation. 2D numerical simulation was performed using finite volume method in Ansys fluent software with the assumption of laminar flow. The simulation results are compared with benchmark data to determine reliability. The results indicate that the body insertions increase the convection heat transfer coefficients at the best heat transfer positions due to impingement heat transfer. An increase in heat transfer rate of 1.06 times is observed in the case of circular body compared to none. There are three primary eddies in the cavity with bodies, whereas the cavity without body has two primary eddies. Maximum entropy generation was found in the upper right corner of cavity mainly due to high horizontal temperature gradient. Bodies of circle and vertical ellipse have almost the same thermohydraulic and entropy generation characteristics due to the same horizontal dimension which mainly effects on the downward natural convection current. The entropy generation of cavity with circular body is 1.23 times higher than that of the cavity without body. At positions y/L¬†=¬†1 on the hot wall and y/L¬†=¬†0.74 on the cold wall, the convection heat transfer coefficient is close to zero due to stagnant fluid.
Natural Convection of a Heat Generating Fluid in a Closed Cavity
Natural Convection of a Heat Generating Fluid in Spherical Annuli
Natural convection heat transfer in two-fluid stratified pools with internal heat sources : thesis
Author: Askar Amirovich Gubaidullin
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
Book Description
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
Book Description