Experimental study to investigate t

Experimental study to investigate the Nusselt number (Nu) and pressure drop (P) across the forced flow of fluid in the circular pipe with installation of wire-net porousเinsertเwereเtheเobjectiveเofเthisเproject.เAเtestedเcircularเpipeเmadeเof aluminum with 100 mm inner-diameter, 500 mm-long and 3 mm-thick. The outer surface of tested pipe was covered by fiber glass insulation with 80 mm-thick. Six holes of 1.5 mm-diameters were provided for installing the thermocouple on the pipe. Three thermocouplesเmeasuredเtheเouterเsurfaceเtemperatureเandเthreeเotherเof thermocouples monitored the inner surface temperature. In the experiment, the stainless wire-net of grade 304 with different two pores per inch (PPI), i.e., 8 and 10, were conducted. The air flow rate (Vi) was studied in the range of 200 – 700 l/min. Five thickness of the stainless wire-net porous insert (H) operated in the present study were 2, 4, 6, 8 and 10 layer. Three inlet temperature (Ti) consisting of 50, 60 and 70 oC were examined. From the experiment, it was found that the value of Nu trended to increase as increasing Vi, H and Ti. The P was increased with H only but P was not changed with the effect of Vi and Ti. In the comparison, effect of PPI, it was explicit that the Nu of PPI = 10 was greater than the case of PPI = 8. It was clarified by a higher material volume of PPI = 10 leading to gain more energy absorption from a hot air. Then, a higher heat transfer to the pipe surface was achieved. The P of PPI = 10 was higher than the case of PPI = 8. This was based on natural phenomena because the increasing of P was obtained if the fluid flow passed the obstruction.
Keywords: Nusselt number, Pressure drop, Wire-net porous media,
Forced heat convection