Experimental investigation of the effect of axial wall slits on Taylor–Couette flow

Lee, Sanghyuk; Chung, Hee-Taeg; Park, Cheolwoo; Kim, Hyoung-Bum

doi:10.1088/0169-5983/41/4/045502

Cited by 18 publications

(17 citation statements)

References 22 publications

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“…As found in the previous study, the slit wall has obvious effect on the flow instability, but there is little study about the slit wall effect on the wavy vortex flow regime; only Lee et al [8] measured the wavy vortex flow field in different slit models, but they only obtained the effect of slit number on critical Reynolds number from Taylor vortex flow to wavy vortex flow. Furthermore, the flow field measured by DPIV in their study was limited; because of the limitation of measuring field, the slit number effect on the vortex size cannot be obtained precisely.…”

Section: Introductionmentioning

confidence: 87%

“…From the experimental results of Lee et al [8], as the Reynolds number is within the range of 124 to 1145, wavy vortex flow will appear in plain model. In this paper, the rotation angular velocity of inner cylinder is fixed to 1.316 rad/s, and the Reynolds number is 200.…”

Section: Experimental Apparatusmentioning

confidence: 97%

“…Therefore, studies of a Taylor-Couette flow considering the effect of the cylinder wall shape were necessary. Lee et al [8] studied Taylor-Couette system with different numbers of slits in the outer cylinder by using DPIV method and found that a larger number of axial slits accelerated the transition process flow wavy vortex flow to turbulent Taylor vortex flow 2 Advances in Mechanical Engineering but have no effect on the transition before wavy vortex flow. Liu et al [9] studied the slit wall effect on flow stability in Taylor vortex flow regime and found that the vortex flow expanded into the slit wall; the intensity of the vorticity and the radial velocity increased in slit model.…”

Section: Introductionmentioning

confidence: 99%

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Slit Wall Effect on the Stability of Wavy Vortex Flow

Dong

Wang

Kim

et al. 2014

Advances in Mechanical Engineering

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The wavy vortex flow in the plain model was studied by experimental measurement; the preliminary feature of wavy vortex flow was obtained. This flow field in the plain model was also studied by numerical simulation. The reliability of numerical simulation was verified by comparing with the experimental and numerical simulation results. To study the slit wall effect on the wavy vortex flow regime, another two models with different slit number were considered; the slit number was 6 and 12. By comparing the wavy vortex flow field in different models, the axial fluctuation of Taylor vortices was found to be different, which was increased with the increasing of slit number. The maximum radial velocity from the inner cylinder to the outer one in the 6-slit number was increased by 12.7% compared to that of plain model. From the results of different circumferential position in the same slit model, it can be found that the maximum radial velocity in slit plane is significantly greater than that in other planes. The size of Taylor vortices in different models was also calculated, which was found to be increased in the 6-slit model but was not changed as the slit number increased further.

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Section: Introductionmentioning

confidence: 87%

Section: Experimental Apparatusmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

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Slit Wall Effect on the Stability of Wavy Vortex Flow

Dong

Wang

Kim

et al. 2014

Advances in Mechanical Engineering

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“…From the experimental results of Lee [14], when the Reynolds number is within the range of 103 to 124, Taylor vortex flow will appears in plain model. In this paper, the rotation angular velocity of inner cylinder is fixed to 0.7238 rad/s, and the Reynolds number is 110.…”

Section: Experimental Apparatusmentioning

confidence: 99%

“…The working fluid sodium iodide solution filled the annular gaps and the space between the outer cylinder and the enclosure box in order to avoid the light refraction effect. More details of this method can be found in the previous study by Lee [14]. During the experiment, the temperature of the inner and outer cylinders was carefully controlled to keep the imposed temperature gradients constant.…”

Section: Introductionmentioning

confidence: 99%

Slit Wall and Heat Transfer Effect on the Taylor Vortex Flow

Wang

Shi

et al. 2015

Energies

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Abstract:The Taylor vortex flow in the plain model with a constant temperature gradient effect was studied by experimental measurement, and the preliminary features of Taylor vortex flow affected by heat transfer process were obtained. This flow field in the plain model was also studied by numerical simulation. The reliability of numerical simulation was verified by comparing the numerical results with the experimental ones. To study the slit wall effect on this flow regime under the same temperature gradient conditions, another three models with different slit numbers (6, 9 and 12) were considered. The vortex pairs were found to have a motion along the axial direction. Because of the existence of the temperature gradient, the axial flow in the annulus gap was enhanced, but the radial velocity near the inner cylinder was found to be weakened. The heat flux generated by the inner cylinder was also compared among different models, and it was found that the heat flux generated by the 6-slit model was increased by 4.5% compared to that of the plain model, and the 12-slit model generated the maximum heat flux, which has the best heat transfer ability.

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