Certainly, here is the corrected version with spelling and grammar errors addressed:
"A numerica... more Certainly, here is the corrected version with spelling and grammar errors addressed:
"A numerical simulation of heat transfer and pressure loss analysis is presented for variously shaped turbulators inserted into a rectangular channel. A constant heat flux is applied to the external side of the channel. Numerical simulations were conducted using COMSOL Multiphysics. The shapes of the turbulators vary, and the effects of turbulator height are studied.
The obtained numerical results clearly show that the dynamic and thermal performances depend on the dimensions and shape of the turbulators. The development of swirling structures behind the turbulators is observed, which seems to be responsible for the increase in heat transfer. Pressure drops are primarily attributed to the flow blockage caused by these elements."
Certainly, here is the corrected version with spelling and grammar errors addressed:
"A numerica... more Certainly, here is the corrected version with spelling and grammar errors addressed:
"A numerical simulation of heat transfer and pressure loss analysis is presented for variously shaped turbulators inserted into a rectangular channel. A constant heat flux is applied to the external side of the channel. Numerical simulations were conducted using COMSOL Multiphysics. The shapes of the turbulators vary, and the effects of turbulator height are studied.
The obtained numerical results clearly show that the dynamic and thermal performances depend on the dimensions and shape of the turbulators. The development of swirling structures behind the turbulators is observed, which seems to be responsible for the increase in heat transfer. Pressure drops are primarily attributed to the flow blockage caused by these elements."
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"A numerical simulation of heat transfer and pressure loss analysis is presented for variously shaped turbulators inserted into a rectangular channel. A constant heat flux is applied to the external side of the channel. Numerical simulations were conducted using COMSOL Multiphysics. The shapes of the turbulators vary, and the effects of turbulator height are studied.
The obtained numerical results clearly show that the dynamic and thermal performances depend on the dimensions and shape of the turbulators. The development of swirling structures behind the turbulators is observed, which seems to be responsible for the increase in heat transfer. Pressure drops are primarily attributed to the flow blockage caused by these elements."
"A numerical simulation of heat transfer and pressure loss analysis is presented for variously shaped turbulators inserted into a rectangular channel. A constant heat flux is applied to the external side of the channel. Numerical simulations were conducted using COMSOL Multiphysics. The shapes of the turbulators vary, and the effects of turbulator height are studied.
The obtained numerical results clearly show that the dynamic and thermal performances depend on the dimensions and shape of the turbulators. The development of swirling structures behind the turbulators is observed, which seems to be responsible for the increase in heat transfer. Pressure drops are primarily attributed to the flow blockage caused by these elements."