재입원발생원인의분류에 관한연구 · 한시범운영하던것이 년 월부터는의료기관평가제도에대한의료2002 3 법이개정되어의료기관은강제적으로의료의질을평가받게되었다.
팽창과정에서의 터보엑스펜더 영향에 관한연구 Effect of a Turbo Expander for...
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Transcript of 팽창과정에서의 터보엑스펜더 영향에 관한연구 Effect of a Turbo Expander for...
Turbo Machinery & Energy Conversion LAB
팽창과정에서의 터보엑스펜더 영향에 관한연구팽창과정에서의 터보엑스펜더 영향에 관한연구Effect of a Turbo Expander for Regeneration in thEffect of a Turbo Expander for Regeneration in th
e Expansion Processe Expansion Process
Chong-Hyun Cho(Gyeongsang National University, Korea)
2006. 12. 062006. 12. 06
Turbo Machinery & Energy Conversion LAB
Introduction of Introduction of LaboratoryLaboratory
Directe ProfessorDirecte ProfessorSOO YOUNG CHOSOO YOUNG CHO
A Field of StudyA Field of StudyTurbomachinery and Energy ConversionTurbomachinery and Energy ConversionOptimization using CFDOptimization using CFDMicro Rotating MachinesMicro Rotating Machines Wind Tunnel testWind Tunnel testNoise and Vibration MeasurementNoise and Vibration Measurement
LocationLocation403-410, 403-408, 404-203, 403-410, 403-408, 404-203, Wind Tunnel buildingWind Tunnel building
Turbo Machinery & Energy Conversion LAB
MotiveMotive
Using a turbo expanderUsing a turbo expander
Turbo Machinery & Energy Conversion LAB
Expansion (R134a)Expansion (R134a)
Before expansionBefore expansion
After expansionAfter expansionTwo-phase state
Turbo Machinery & Energy Conversion LAB
Expander analysisExpander analysis
Basic configurations- Matching with nozzle exit velocity- Tip diameter by the rotational speed- Number of blades- Decide turbine efficiency- Optimum hub diameter (flow quality is changed within the passage) etc.
Blade design- Impulse blade- Internal flow analysis
Turbo Machinery & Energy Conversion LAB
• an axial type small turbine and single stage• nozzle angle was a 74°
Parameters Nozzle Rotor
Blade height (H:mm) 3.37 3.5
Axial chord (cx:mm) - 12.5
Pitch (s:mm) - 7.3
Number of blade (N)
9 72
Mean dia. (Dm:mm) 96.16 96.16
Aspect ratio (H/cx) - 0.28
Solidity (s/cx) - 0.58
Experiment (Verneau)Experiment (Verneau)
Turbo Machinery & Energy Conversion LAB
Expander Analysis : Expander Analysis : 50RT50RT
Output power : 2.30 kW(heating), 1.81kW(cooling)Torque : 2.50 Nm(heating), 2.46 Nm(cooling)Outer Dia. : 103.3mmInner Dia. : 67.3mmPartial Admission : 19.96%Rate Rotational Speed : 8763 RPM(heating),
7041 RPM(cooling)
Turbo Machinery & Energy Conversion LAB
9.25RT (DBC 503T-28,000kcal/hr)50RT model : 1/5-1/6 SizeMass flowrate : 0.25kg/secExpansion (low RPM) : 11~16bar, 4~6barExpansion (high RPM) : 16~18bar, 4~7bar
Operating condition : Operating condition : Exp. Exp.
Turbo Machinery & Energy Conversion LAB
실험장치실험장치
Turbo Machinery & Energy Conversion LAB
Exp. Apparatus Exp. Apparatus
Turbo Machinery & Energy Conversion LAB
Assumptions : 1-D, homogenous flow
Nozzle Design Nozzle Design
02
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dxfVVdVdp
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Assumptions : nozzle flow isentropic
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dpTdsdh
Turbo Machinery & Energy Conversion LAB
Assumptions : Al nozzle, roughness 0.2mm
Nozzle Design Nozzle Design
2)74.1)log(2( sk
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Location chock
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psp
pps
Turbo Machinery & Energy Conversion LAB
Inlet Diameter : 8.0mmThroat Diameter : 3.6mmExit Diameter : 5.8mmNozzle Length : 57.8mm
Nozzle Nozzle
Turbo Machinery & Energy Conversion LAB
Design of Turbo Design of Turbo Expander Expander
U/C1
0.0 0.2 0.4 0.6 0.8 1.0
E (
util
izat
ion
fact
or)
0.0
0.2
0.4
0.6
0.8
1.0
- Supersonic turbineSupersonic turbine:: Min. Min. shocklossshockloss Max. utilization factorMax. utilization factor Impulse turbine Impulse turbine
Turbo Machinery & Energy Conversion LAB
Turbine DesignTurbine Design
Turbo Machinery & Energy Conversion LAB
Turbo Expander Turbo Expander
Turbo Machinery & Energy Conversion LAB
Rotor SpecificationsRotor Specifications Types Parameters
A B
No. of blades (N) 29 29
Mean dia. (Dm: mm) 71.85 70.46
Pitch at mean dia. (s : mm) 7.78 7.63
Chord (c: mm) 15.0 15.0
Solidity (σ : c/s) 1.93 1.97
Blade height (ht: mm) 11 8
Aspect ratio (ht/c) 0.73 0.53
Blade angle at suction (βs) 65.0° 65.0°
Blade angle at pressure (βp) 65.0° 65.0°
Blade thickness (t: mm) 4.70 4.70
Leading edge thick. (tle: mm) 1.0 1.0
Trailing edge thick. (tte: mm) 1.0 1.0
Turbo Machinery & Energy Conversion LAB
Manufacturing EXManufacturing EX
Turbo Machinery & Energy Conversion LAB
Manufacturing EXManufacturing EX
Turbo Machinery & Energy Conversion LAB
Manufacturing EXManufacturing EX
Turbo Machinery & Energy Conversion LAB
Manufacturing EXManufacturing EX
Turbo Machinery & Energy Conversion LAB
Manufacturing EXManufacturing EX
Turbo Machinery & Energy Conversion LAB
Manufacturing EXManufacturing EX
Turbo Machinery & Energy Conversion LAB
Manufacturing EXManufacturing EXEnjoy R/C helicopter air showEnjoy R/C helicopter air show
Turbo Machinery & Energy Conversion LAB
A turbo expander is installed in the expansion process instead of expansion V/V. It recovered 0.37kJ/kg on the 9.25RT experimental utility.Efficiency increases according to the pressure ratioEfficiency drops linearly 3.7% between shroud and un-shroud rotor Experimental study is very important exact manufacturing of test systemSpecially, micro rotating machine required manufacturing quality is 0.001mm
SummarySummary
Turbo Machinery & Energy Conversion LAB
Thank you for your attentions