CFD Applied to Fluid Flow Due to Motion of Lid Inside a Cavity

Authors

  • Venkatshivasaivivek Attaluri Department of Mechanical Engineering School of Engineering and Technology Navrachana University, Vasna - Bhayli Main Rd, Bhayli, Vadodara, Gujarat
  • Parth N. Solanki Department of Mechanical Engineering School of Engineering and Technology Navrachana University, Vasna - Bhayli Main Rd, Bhayli, Vadodara, Gujarat
  • Parth G. Patel Department of Mechanical Engineering School of Engineering and Technology Navrachana University, Vasna - Bhayli Main Rd, Bhayli, Vadodara, Gujarat
  • Jatin D. Gami Department of Mechanical Engineering School of Engineering and Technology Navrachana University, Vasna - Bhayli Main Rd, Bhayli, Vadodara, Gujarat
  • Nirvish P. Patel Department of Mechanical Engineering School of Engineering and Technology Navrachana University, Vasna - Bhayli Main Rd, Bhayli, Vadodara, Gujarat

DOI:

https://doi.org/10.37628/jtea.v1i1.798

Keywords:

Computational Fluid Dynamics, Navier Stokes equations, Reynolds number

Abstract

A complete analysis of a lid-driven cavity is done using finite difference method of computational fluid dynamics. This analysis is applied to the transient Navier–Stokes equations in two dimensions as well as continuity equations in two dimensions. The results obtained from the present analysis give information on behavior of fluid at different values of the Reynolds number.

References

Venkatshivasaivivek Attaluri, Parth N. Solanki, Parth G. Patel, Jatin D. Gami, Nirvish P. Patel. CFD Applied to Fluid Flow Due to Motion of Lid Inside a Cavity. International Journal of Thermal Energy and Application. 2019; 1(1): 30-43p.

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Published

2019-05-22

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Section

Articles