Your search keyword '"force analysis"' showing total 4 results

1. The Modeling of Bubble Lift-Off Diameter in Vertical Subcooled Boiling Flow.

Author

Du, Jingyu, Zhao, Chenru, Bo, Hanliang, and Ren, Xin

Subjects

*EBULLITION, *LIFT (Aerodynamics), *PROPERTIES of fluids, *PRANDTL number, *TRANSPORT equation, *BUBBLES, *INTERFACIAL friction

Abstract

Bubble lift-off diameter is characterized as the size of a bubble rising from a wall, which is vital in the boundary condition of heat transfer model and interfacial area transport equation. In this paper, mechanistic force analysis was conducted to explore a predictive model for bubble lift-off diameter in a vertical channel of subcooled boiling flow. Specifically, the component of growth force normal to the wall and the shear lift force lead to the lift-off of a bubble on the vertical surface. Through force analysis, we found that bubble lift-off diameter is arranged to be related to wall superheat, latent heat, liquid velocity, fluid properties, bulk liquid subcooling, etc. To account for the contribution of the influencing factors, the dimensionless bubble lift-off diameter was correlated with dimensionless parameters, including the Prandtl number, the Reynolds number, the Jacob number, and dimensionless subcooling. The proposed correlation was assessed according to experimental data and the predictions showed good agreement with the data. [ABSTRACT FROM AUTHOR]

Published

2022

2. In-Depth Assessment and Optimized Actuation Method of a Novel Solar-Driven Thermomechanical Actuator via Shape Memory Alloy.

Author

Almadani, Ibrahim Khalil, Osman, Ibrahim Sufian, and Hariri, Nasir Ghazi

Subjects

*SHAPE memory alloys, *SOLAR thermal energy, *RENEWABLE energy sources, *ACTUATORS, *SOLAR collectors, *ENERGY consumption

Abstract

Currently, energy demand is more significant than ever due to population growth and advances in recent technologies. In order to supply more energy while maintaining a healthy environment, renewable energy resources are employed. This paper proposes a novel solar-driven shape memory alloy thermomechanical actuator as an eco-friendly solution for solar thermal applications. The proposed actuator was assessed numerically and experimentally. The numerical tests showed that the designed actuation mechanism's inner temperature has a minimum variation per day of about 14 °C and a temperature variation of 19 °C for most days of the year, which allows for proper activation and deactivation of the actuator. As for the experimental tests, the presented actuation mechanism achieved a bi-directional force of over 150 N, where the inner temperatures of the actuator were recorded at about 70.5 °C while pushing forces and 28.9 °C while pulling forces. Additionally, a displacement of about 127 mm was achieved as the internal temperature of the actuator reached 70.4 °C. The work presented adds to the body of knowledge of a novel solar-based self-driven actuation mechanism that facilitates various applications for solar thermal systems. [ABSTRACT FROM AUTHOR]

Published

2022

3. Calculation of the Arc Velocity Along the Polluted Surface of Short Glass Plates Considering the Air Effect.

Author

Wenxia Sima, Fusheng Guo, Qing Yang, and Tao Yuan

Subjects

*MICROPHYSICS, *IONIZATION (Atomic physics), *ELECTRIC fields, *ELECTRODES, *ELECTRIC arc

Abstract

To investigate the microphysics mechanism and the factors that influence arc development along a polluted surface, the arc was considered as a plasma fluid. Based on the image method and the collision ionization theory, the electric field of the arc needed to maintain movement with different degrees of pollution was calculated. According to the force of the charged particle in an arc plasma stressed under an electric field, a calculation model of arc velocity, which is dependent on the electric field of the arc head that incorporated the effects of airflow around the electrode and air resistance is presented. An experiment was carried out to measure the arc velocity, which was then compared with the calculated value. The results of the experiment indicated that the lighter the pollution is, the larger the electric field of the arc head and arc velocity is; when the pollution is heavy, the effect of thermal buoyancy that hinders arc movement increases, which greatly reduces the arc velocity. [ABSTRACT FROM AUTHOR]

Published

2012

4. Force Analysis of a Circular Cylinder at Ununiformed Flow in a T Pipe Junction.

Author

Yin, Yantao, Li, Shicong, Wang, Liangbi, Lin, Mei, and Wang, Qiuwang

Subjects

*CYLINDER (Shapes), *FORCE & energy, *GEOMETRIC shapes, *PIPE, *MATERIALS

Abstract

Experimental and numerical investigations of force analysis acted on single circular cylinder in the T pipe junction with the effect of vanes are reported in this paper. Experiments are carried on in a small wind tunnel at five different velocity ratios (R) from 0.117 to 0.614. The mean pressure data acted on the cylinder are obtained and in turn the drag and lift. Vanes are installed at the junction to change the secondary flow in the suction duct and the angle is in the range of 90° ≤ φ ≤ 130°. Numerical studies which are validated by the experimental data help understand the flow structure for the analysis. It is found that in the T shape junction without vanes, the cylinder presents different surface mean pressure distributions at the different positions in the suction duct. As the increase of the distance from the junction to the cylinder center, the surface mean pressure distributions recover to the benchmark gradually which performs in the straight duct beforehand. Four feature points including the front/rear stagnation points and the separation points and the corresponding three divisions of flow region are analyzed in detail with the auxiliary numerical simulation of flow structure. Effect of the vanes with different angle is also discussed. Finally, the drag and lift coefficients acted on the cylinder with or without vanes are performed. [ABSTRACT FROM AUTHOR]

Published

2018