Your search keyword '"coated disk"' showing total 4 results

1. Analysis of inclined magnetized unsteady cross nanofluid with buoyancy effects and energy loss past over a coated disk

Author

Shahzeb Khan, Assad Ayub, Syed Zahir Hussain Shah, Zulqurnain Sabir, Amjid Rashid, Muhammad Shoaib, R. Sadat, and Mohamed R. Ali

Subjects

Inclined magnetized environment, Unsteady Cross fluid, Buoyancy effects, Coated disk, Numerical solutions, Chemistry, QD1-999

Abstract

The current study presents an analysis of an inclined magnetized unsteady Cross fluid flowing over a coated disk with buoyancy effects and energy loss. The flow is modeled using the Navier-Stokes equations, including buoyancy, magnetic field, and energy loss effects based on the coated disk. The governing equations are solved numerically by applying the process of bvp4c to analyze the effects of inclination angle, magnetic field strength, and coating thickness using the flow characteristics. The results indicate that the buoyancy effects have a significant impact on the flow along with the results of flow velocity increment along with static pressure decrement. The magnetic field also has significant effects on the flow, which shows the decreasing velocity by increasing the magnetic field. Additionally, the coating thickness has significant effects on energy loss that decrease by increasing the coating thickness. The purpose of this work is to provide the valuable insight using the buoyancy, magnetic field, and coating thickness effects on the flow characteristics and energy loss based on the inclined magnetic unsteady cross flow passing over a coated disk.

Published

2023

2. Buoyancy Effect on the Unsteady Diffusive Convective Flow of a Carreau Fluid Passed over a Coated Disk with Energy Loss.

Author

Awan, Farah Jabeen, Maqbool, Khadija, Sait, Sadiq M., and Ellahi, Rahmat

Subjects

CONVECTIVE flow, FLUID flow, ENERGY dissipation, BUOYANCY, NUSSELT number, UNSTEADY flow

Abstract

The unsteady flow of a Carreau fluid over a coated disk under the simultaneous effects of a thermal and concentration field with buoyancy forces is reported. The time-dependent diffusive stream of a Carreau fluid over a conducting coated disk is carried out with energy loss. The time-dependent partial differential equations are first converted into a scheme of ordinary differential equations by the appropriate transformations and are then solved by shooting method. Significant results for speed, hotness and concentration profiles are revealed and deliberated by the graphical outcomes. The numerical values of skin friction suggest that the viscoelastic parameter of the Carreau fluid causes a reduction in the skin friction coefficient due to the coated surface, but the Nusselt and Sherwood numbers increase with the rise of the viscoelastic parameter of the Carreau fluid because of the coated surface. The present model is useful in the field of mechanical engineering to design a tesla turbine for the flow of viscous fluid. [ABSTRACT FROM AUTHOR]

Published

2022

3. Analysis of inclined magnetized unsteady cross nanofluid with buoyancy effects and energy loss past over a coated disk.

Author

Khan, Shahzeb, Ayub, Assad, Zahir Hussain Shah, Syed, Sabir, Zulqurnain, Rashid, Amjid, Shoaib, Muhammad, Sadat, R., and Ali, Mohamed R.

Abstract

The current study presents an analysis of an inclined magnetized unsteady Cross fluid flowing over a coated disk with buoyancy effects and energy loss. The flow is modeled using the Navier-Stokes equations, including buoyancy, magnetic field, and energy loss effects based on the coated disk. The governing equations are solved numerically by applying the process of bvp4c to analyze the effects of inclination angle, magnetic field strength, and coating thickness using the flow characteristics. The results indicate that the buoyancy effects have a significant impact on the flow along with the results of flow velocity increment along with static pressure decrement. The magnetic field also has significant effects on the flow, which shows the decreasing velocity by increasing the magnetic field. Additionally, the coating thickness has significant effects on energy loss that decrease by increasing the coating thickness. The purpose of this work is to provide the valuable insight using the buoyancy, magnetic field, and coating thickness effects on the flow characteristics and energy loss based on the inclined magnetic unsteady cross flow passing over a coated disk. [ABSTRACT FROM AUTHOR]

Published

2023

4. Researches on Wear Evolution of Xylan 1052 Two-Layer Coating under Hard Working Loads or Different Rotational Speeds.

Author

Mituleţu, Ion-Cornel, Vela, Ion, Gillich, Gilbert-Rainer, and Tufoi, Marius

Subjects

*XYLANS, *INFORMATION processing, *VIBRATION (Mechanics), *MECHANICAL stress analysis, *WEAR resistance

Abstract

Assuming that vibration and noise amplitude depend on coating thickness, here were performed important tests about wear of the Xylan 1052 coating. Applying variable contact stress by different load pressures on a disk coated, and keeping the rotational speed constant, a wear evolutions diagram has resulted. Also, a diagram with the wear evolutions of Xylan 1052 coating has been achieved by using the same load pressure and varying the rotational speed. This information offers significant knowledge about Xylan 1052-film wearing, reflecting an appreciation of the running-in period and the coating thickness. Further on, the proper working time is accomplished, as well as the minimum coating thickness whereas the covering becomes irrelevant to use. [ABSTRACT FROM AUTHOR]

Published

2013