Finite element study of nanoparticles spacing and radius on dynamics of water fluid subject to microgravity environment

• Published in: Results in physics Vol. 47; p. 106355
• Main Authors: Zhang, Bing, Tang, Liqin, Zhang, Hongwei, Ali, Bagh, Shah, Nehad Ali, Jeon, Yongseok
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.04.2023; Elsevier
• Subjects: Finite element simulation; Micro-gravity; Nanoparticle’s radius; Particles spacing; Water fluid; Micro-gravity; Particles spacing; Water fluid; Nanoparticle’s radius; Finite element simulation
• ISSN: 2211-3797; 2211-3797
• DOI: 10.1016/j.rinp.2023.106355

This communication studies the vital role of particles spacing and radius of nanoparticles subject to microgravity environment, an inclined surface, and magnetic field. The varying particles size and spacing in the microgravity environment is taken into consideration. A mathematical formulation that is based on conservation principles is non-dimensionalized by enforcement of similarity transformation yielding a related set of ordinary differential equations (ODEs). The convective non-linearity and coupling, a finite element (FE) discretization, is implemented and run on the Matlab platform. Then computational endeavor is continued to elucidate the impacts of various inputs of radius, the amplitude of modulation, mixed convection, inclination angle, particles spacing, and magnetic parameter. The increasing inter-particles spacing and radius are directly influence to the fluid velocity and inversely influence to the fluid temperature. The growing strength of frequency of oscillation and incline angle leads to a decline in skin friction and heat transfer coefficients, but an opposite trend is reported when the thermal buoyancy parameter is enhanced. These outcomes would be very useful for researchers to control upper space transportation and devices performance. •Dynamics of water nanofluid subject to microgravity environment Body is modeled.•Tiwari and Das nanofluid model for nanoparticles is taken into account for modeling.•The increasing inter-particles spacing is directly influence to the fluid velocity.•The nanoparticles radius declined the thermal performance.