NUMERICAL INVESTIGATION OF THE EFFECT OF TWO-BLADEDROTARY TUBE-INSERT ON PERFORMANCE INSTANT GASLIGHT WATER HEATERA

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eghlimi moghadam F.; GOUDARZI K.; Zendehbudi Gh.; MOOSAIE A.

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Journal: MECHANICAL ENGINEERING SHARIF (SHARIF: MECHANICAL ENGINEERING) Year:2018 | Volume:34-3 | Issue:2 Page(s): 63-69

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Title

NUMERICAL INVESTIGATION OF THE EFFECT OF TWO-BLADEDROTARY TUBE-INSERT ON PERFORMANCE INSTANT GASLIGHT WATER HEATERA

Author(s)

eghlimi moghadam F. | GOUDARZI K. | Zendehbudi Gh. | MOOSAIE A. | Issue Writer Certificate

Keywords

Rotary tube-insertQ1

gaslight water heaterQ2

heat transferQ1

friction factorQ1

nusslet numberQ2

thermal performance factorQ1

Abstract

In this study, the e ect of tube-insert as a passive method to increase heat transfer, instant gaslight water heater performance was evaluated. The simulation results revealed that for Rotary tube-insert with di erent cross section shapes. The article present a numerical study of turbulent heat transfer and ow characteristics inelliptical tube equipped with two-bladed rotary tubeinsert. Seven di erent tube-insert are tested in the current work; they included the two-bladed tube-insert with four di erent length of pitch 75, 100, 150 and 200 mm and three blade angle 40, 55 and 70 degree. In this study, the e ect of tube-insert as a passive method to increase heat transfer, instant gaslight water heater performance was evaluated. To analyze the eciency and e ectiveness tube-insert geometric parameters and physical parameters of the ow, steady and incompressible ow gaslight water heater, using the commercial software ANSYS CFX 14 was modeled. Turbulent ow regime of the uid is used. The numerical simulation is performed using SST turbulence model and wall function near the walls in ANSYS CFX to study the phenomena of ow eld in a elliptical tube with helical blade rotors. The SIMPLE algorithm pressure-velocity coupling method, the standard pressure, the high resolution scheme discretization scheme for momentum, energy are selected in the simulation. The results of the simple tube compared with the theoretical Gnielinski and Petukhov relationship for validate of results. Using modeling results, performance parameters such as the coecient of friction, heat transfer coecient, and thermal performance has been calculated and analyzed. E ect of Tube-insert geometric parameters such as the length and angle of blades were evaluated on performance gaslight boilers. Reynolds numbers range from 3580 to 14320 is investigated. The average coecient of thermal performance for gaslight water heater equipped with two-bladed tubeinsert with length of pitch 75, 100, 150 and 200 mm, respectively, 1/017, 1/027, 1/033 and 1/042have been. By observing the results and compare them two-blade tubeinsert with blade angle 55 and 70 degrees with an average coecient of thermal performance 1/215 and 1/193 best performance in gaslight water heater have been studied. Therefore, the use of Rotary tube-insert as a passive method can signicantly increase heat transfer in the heat exchangers. The increase in ow velocity of the heat exchanger tube equipped with a Rotary tube-insert reduce friction and prevent the accumulation of fouling. This method can also be used in heat exchangers.

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APA: Copy

eghlimi moghadam, F., GOUDARZI, K., Zendehbudi, Gh., & MOOSAIE, A.. (2018). NUMERICAL INVESTIGATION OF THE EFFECT OF TWO-BLADEDROTARY TUBE-INSERT ON PERFORMANCE INSTANT GASLIGHT WATER HEATERA. MECHANICAL ENGINEERING SHARIF (SHARIF: MECHANICAL ENGINEERING), 34-3(2 ), 63-69. SID. https://sid.ir/paper/370360/en

Vancouver: Copy

eghlimi moghadam F., GOUDARZI K., Zendehbudi Gh., MOOSAIE A.. NUMERICAL INVESTIGATION OF THE EFFECT OF TWO-BLADEDROTARY TUBE-INSERT ON PERFORMANCE INSTANT GASLIGHT WATER HEATERA. MECHANICAL ENGINEERING SHARIF (SHARIF: MECHANICAL ENGINEERING)[Internet]. 2018;34-3(2 ):63-69. Available from: https://sid.ir/paper/370360/en

IEEE: Copy

F. eghlimi moghadam, K. GOUDARZI, Gh. Zendehbudi, and A. MOOSAIE, “NUMERICAL INVESTIGATION OF THE EFFECT OF TWO-BLADEDROTARY TUBE-INSERT ON PERFORMANCE INSTANT GASLIGHT WATER HEATERA,” MECHANICAL ENGINEERING SHARIF (SHARIF: MECHANICAL ENGINEERING), vol. 34-3, no. 2 , pp. 63–69, 2018, [Online]. Available: https://sid.ir/paper/370360/en

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