Recessed Casing Treatment Effects on Fan Performance and Flow Field

Kang, Chang Soo; McKenzie, A. B.; Elder, R. L.

doi:10.1115/95-gt-197

Cited by 23 publications

(17 citation statements)

References 6 publications

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“…In an untreated compressor, fluid associated with the stalling flow is first centrifuged towards the blade tip then recirculated axially and circumferentially [27]. When the treatment is applied, on the other hand, this tip flow first passes radially into the treatment recess and is then discharged into the primary flow.…”

Section: Discussionmentioning

confidence: 98%

A statistical model for the effect of casing treatment recesses on compressor rotor performance

Nezym

2007

Experimental Thermal and Fluid Science

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Section: Discussionmentioning

confidence: 98%

A statistical model for the effect of casing treatment recesses on compressor rotor performance

Nezym

2007

Experimental Thermal and Fluid Science

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“…The measurements indicate a strong radial flow from the rotor tip into the treatment recess. When the treatment is applied, this tip flow passes radially into the treatment recess, and then discharges out into the main flow (16) . And the more the recess volume, with stall margin improvement, the more efficiency penalty because of additional losses.…”

Section: Discussionmentioning

confidence: 99%

Development of New Casing Treatment Configuration

Nezym

2004

JSME international journal. Ser. B, Fluids and thermal engineer

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Circumferential grooves over a rotor blade tips are used for improving axial flow compressor performances. Such casing treatment facility extends a stable operation range in most cases, but decreases compressor efficiency as a rule. There are presented results of parametric investigation of grooves of traditional and new configurations. Development of new groove constructions must permit combining of stable operation range extension with efficiency increase. Model on basis of Group Method of Data Handling may help designing groove configurations with improved performances.

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“…4 6.2 kW motor located directly downstream of the impeller. Two rotors were used, both equipped with six blades whose setting angle could be adjusted.…”

Section: Experimental Apparatusmentioning

confidence: 99%

“…Kang et al [4] obtained improvements in stall margin, of up to 67 per cent, for a rotor-only compressor.…”

Section: Introductionmentioning

confidence: 97%

Application of casing treatment to an industrial axial-flow fan

Hill

Elder

McKenzie

1998

Proceedings of the Institution of Mechanical Engineers, Part A:

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This paper deals with an experimental investigation into the influence of a vaned recess casing treatment on the performance of an industrial-type axial-flow fan with a hub-tip ratio of 0.4. The treatment has been tested in a variety of configurations relative to the fan, with an emphasis on the amount of fan blade tip exposure to the treatment. Two sets of blading, one of which is of the fully reversible type, have been investigated.Detailed flow measurements have been carried out with a slanted hot wire probe to provide an insight into the operation of the device and into the nature of the rotating stall in the solid casing configuration. Strain gauges have been employed to enable blade stresses to be recorded and an in-duct microphone to enable comparative tests on fan noise has also been used. NOTATION P R fan input power (kW) v r radial velocity (m/s) v t tangential velocity (m/s) (positive in the direction of rotor rotation) DH stage enthalpy rise ¼ P R =ṁ, where m is the mass flowwhere q v is the volume flowrate (m 3 /s) and DP the pressure rise across the fan (Pa)where v a is the axial velocity (m/s) and u m the mid-span blade speed (m/s) Φ solid flow coefficient at the stall point for solid casing Φ treated flow coefficient at the stall point for treated casing Ψ total-to-static pressure rise coefficient ¼ DP=ð0:5ru 2 m ) Ψ solid peak pressure rise coefficient for solid casing Ψ treated peak pressure rise coefficient for treated casing INTRODUCTION

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Recessed Casing Treatment Effects on Fan Performance and Flow Field

Cited by 23 publications

References 6 publications

A statistical model for the effect of casing treatment recesses on compressor rotor performance

A statistical model for the effect of casing treatment recesses on compressor rotor performance

Development of New Casing Treatment Configuration

Application of casing treatment to an industrial axial-flow fan

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