Heat transfer characteristics of steam condensation flow in vacuum horizontal tube

Abstract: The heat transfer characteristics of steam condensation flow in a vacuum horizontal long tube were studied experimentally when the saturation temperature varies from 50 to 70°C,mass flow rate is no more than 11 kg/(m 2 •s) and temperature differences between steam and cooling water are 3, 5 and7°C respectively. The results of experiments indicate that the steam temperature decreasesand the condensation temperature difference decreases first and then increases along the flow direction. The effects of mass flow … Show more

“…shows the comparison between the present numerical results and the experimental data of Wang et al[17]. The presented results are for the horizontal tube at the operating condition of G = 6.6 kg/m 2 s, and at the two saturation temperatures of 50°C and 70°C.…”

“…3. Comparison between the numerical results of this study and the experimental data from Wang et al [17] for the condensation heat transfer coefficient along the horizontal tube. Fig.…”

“…Wang et al [17] investigated the steam condensation inside a long, 8 m, horizontal smooth tube. They studied the effects of saturation temperature, steam mass flow rate, and temperature differences, between steam and cooling water on the condensation 7 heat transfer coefficient.…”

“…The computational domain was an 18-mm inner diameter circular smooth tube with a length of 7200 mm. The tube has already been used by Wang et al[17] for the experimental study of steam condensation. The following boundary conditions were assumed for all the simulations:1.…”

“…The presented results are for the horizontal tube at the operating condition of G = 6.6 kg/m 2 s, and at the two saturation temperatures of 50°C and 70°C. In this case, the imposed negative heat flux on the tube wall varied from 400 W/m to 700 W/m along the length of the tube[17]. The tube was divided into four sections, and the reported values for the heat transfer coefficients were the average values of each section.…”

Numerical study of steam condensation inside a long, inclined, smooth tube at different saturation temperatures

“…shows the comparison between the present numerical results and the experimental data of Wang et al[17]. The presented results are for the horizontal tube at the operating condition of G = 6.6 kg/m 2 s, and at the two saturation temperatures of 50°C and 70°C.…”

“…3. Comparison between the numerical results of this study and the experimental data from Wang et al [17] for the condensation heat transfer coefficient along the horizontal tube. Fig.…”

“…Wang et al [17] investigated the steam condensation inside a long, 8 m, horizontal smooth tube. They studied the effects of saturation temperature, steam mass flow rate, and temperature differences, between steam and cooling water on the condensation 7 heat transfer coefficient.…”

“…The computational domain was an 18-mm inner diameter circular smooth tube with a length of 7200 mm. The tube has already been used by Wang et al[17] for the experimental study of steam condensation. The following boundary conditions were assumed for all the simulations:1.…”

“…The presented results are for the horizontal tube at the operating condition of G = 6.6 kg/m 2 s, and at the two saturation temperatures of 50°C and 70°C. In this case, the imposed negative heat flux on the tube wall varied from 400 W/m to 700 W/m along the length of the tube[17]. The tube was divided into four sections, and the reported values for the heat transfer coefficients were the average values of each section.…”

Numerical study of steam condensation inside a long, inclined, smooth tube at different saturation temperatures

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