Variable chemical process and radiative nonlinear impact on MHD Cross
nanofluid: An approach towards controlling the global warming
Abstract
Solar energy is basic source of renewable energy, and it is being used
for controlling the global pollutions/warming. As cross nanofluid is
very useful for upgrading the solar energy systems efficiency so it is
engaged for cooling the solar devices. In this paper for analysis of
global warming heat equation is modeled by incorporating the nonlinear
thermal radiation by using the exponentially extendable surface, because
it keeps major role related to solar energy absorption of nanofluid.
Furthermore, the mathematical modeling of cross nanofluid involving
magnetic effect and diffusion is discussed by using the fact of chemical
reaction. Chemical reaction finds astonishing applications regarding
pollution studies, chemical processing equipment, polymer production. As
a result of this study, it is noticed that more magnetized the
conducting fluid controls the motion of fluids for both case of shear
thinning and shear thickening. Brownian motion parameter Nb tells the
rate the random motion of nanoparticle. Increased Nb temperature is also
increases due to these random movement of nanoparticles. That is the
reason when pollutant nanoparticles spreading in air as a result global
warming increase.