An experimental study on heat transfer and pressure drop of water/graphene oxide nanofluid in a copper tube under air cross-flow: Applicable as a heat exchanger

In the present work, laminar cross flow forced convective heat transfer of nanofluid over tube banks with various geometry under constant wall temperature condition is investigated numerically. We used nanofluid instead of pure fluid ,as external cross flow, because of its potential to increase heat transfer of system. The effect of the nanofluid on the compact heat exchanger performance was studied and compared to that of a conventional fluid.The two-dimensional steady state Navier-Stokes equations and the energy equation governing laminar incompressible flow are solved using a Finite volume method for the case of flow across an in-line bundle of tube banks as commercial compact heat exchanger. The nanofluid used was alumina-water 4% and the performance was compared with water. In this paper, the effect of parameters such as various tube shapes ( flat, circle, elliptic), and heat transfer comparison between nanofluid and pure fluid is studied. Temperature profile, heat transfer coefficient and pressure profile were obtained from the simulations and the performance was discussed in terms of heat transfer rate and performance index. Results indicated enhanced performance in the use of a nanofluid, and slight penalty in pressure drop. The increase in Reynolds number caused an increase in the heat transfer rate and a decrease in the overall bulk temperature of the cold fluid. The results show that, for a given heat duty, a mas flow rate required of the nanofluid is lower than that of water causing lower pressure drop. Consequently, smaller equipment and less pumping power are required.

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Comparative Experimental Study on Performance of Corrugated Tube and Straight Tube Heat Exchanger

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.560-561.156 ◽

2012 ◽

Vol 560-561 ◽

pp. 156-160

Author(s):

Lin Ping Lu ◽

Liang Ying

Keyword(s):

Heat Transfer ◽

Experimental Study ◽

Heat Exchanger ◽

Pressure Drop ◽

Heat Exchangers ◽

Straight Tube ◽

Lower Stress ◽

Shell Side ◽

Tube Heat Exchanger ◽

Corrugated Tube

The experiments on heat transfer coefficient, pressure drop and thermal stress were done to heat exchangers with corrugated tubes and staight tubes. By analyising and comparing the heat transfer coeffient, pressure drop in tube side and shell side and axial force and stress, some conclusions can be conducted that the corrugated tube heat exchanger has better heat transfer coeffient, higher pressure drop and much lower stress caused by temperatur difference, also, it has obvious advantages under the circumstance of low Reynolds number and high temperature difference.

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Experimental study on single-phase heat transfer and pressure drop of refrigerants in a plate heat exchanger with metal-foam-filled channels

Applied Thermal Engineering ◽

10.1016/j.applthermaleng.2016.03.099 ◽

2016 ◽

Vol 102 ◽

pp. 423-431 ◽

Cited By ~ 18

Author(s):

Gholamreza Bamorovat Abadi ◽

Chanhee Moon ◽

Kyung Chun Kim

Keyword(s):

Heat Transfer ◽

Experimental Study ◽

Heat Exchanger ◽

Pressure Drop ◽

Single Phase ◽

Metal Foam ◽

Plate Heat Exchanger ◽

Plate Heat ◽

Foam Filled

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Pressure drop and local heat transfer in an in-line, paralleltube heat exchanger with enter-tube fins: An experimental study

International Journal of Heat and Mass Transfer ◽

10.1016/0017-9310(69)90186-0 ◽

1969 ◽

Vol 12 (7) ◽

pp. 821-825 ◽

Cited By ~ 1

Author(s):

F.C. Lockwood ◽

D. Malila

Keyword(s):

Heat Transfer ◽

Experimental Study ◽

Heat Exchanger ◽

Pressure Drop ◽

Local Heat Transfer ◽

Local Heat

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Experimental Study for Counter to Cross Flow Air Cooled Heat Exchanger in Concentric Tube using Rectangular Copper Fins Spacing with Internal Spiral Grooving

International Journal of Scientific Research in Science Engineering and Technology ◽

10.32628/ijsrset207545 ◽

2021 ◽

pp. 203-208

Author(s):

Rakesh Kumar Tiwari ◽

Ajay Singh ◽

Parag Mishra

Keyword(s):

Heat Transfer ◽

Experimental Study ◽

Natural Convection ◽

Heat Exchanger ◽

Forced Convection ◽

Heat Transfer Rate ◽

Transfer Rate ◽

Cross Flow ◽

Variable Number ◽

Air Cooled Heat Exchanger

In this manuscript we have presented eight variation of Air-Cooled Heat Exchanger (ACHE) design with internal spiral grooving, all of them are having variable number of rectangular copper fins with different distances between the fins. In the proposed design we get the value of heat transfer rate of a counter to cross flow ACHE is 7833.77 watt, 4068.13 watt, 2736.95 watt, 2161.49 watt, 1802.89 watt, 1546.44 watt, 1336.51 watt and 1165.74 watt in natural convection (without fan) for 0.5 cm, 1.0 cm, 1.5 cm, 2.0 cm, 2.5 cm, 3.0 cm, 3.5 cm and 4.0 cm respectively. Then again, value of rate of heat transfer in forced convection (with fan) are 8007.46 watt, 4084.81 watt, 2754.69 watt, 2205.98 watt, 1809.24 watt, 1555.39 watt, 1352.88 watt and 1172.78 watt for 0.5 cm, 1.0 cm, 1.5cm, 2.0 cm, 2.5 cm, 3.0 cm, 3.5 cm and 4.0 cm respectively.

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