Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected)...
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Transcript of Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected)...
![Page 1: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/1.jpg)
Power Factor Correction
• Example 8.3 page 324 of the text by Hubert
• A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads:– 6-pole, 60-Hz, 400-hp induction motor at ¾
load with an efficiency of 95.8% and power factor of 89.1%
– 50-kW delta-connected resistance heater– 300-hp, 60-Hz, 4-pole, synchronous motor at
½ load with a torque angle of -16.4.
![Page 2: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/2.jpg)
Power Factor Correction
6-pole, 60-Hz, 400-hp induction motor ¾ rated load efficiency = 95.8% power factor = 89.1%
4-pole,60-Hz, 300-hp cylindrical synchronous motor ½ rated load torque angle = -16.4
50-kW resistance heater
![Page 3: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/3.jpg)
(a) System Active Power
• Induction Motor
(400 )(0.75)(746 / )0.958
233,611.7
indmot
indmtr
hp W hpP
P W
![Page 4: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/4.jpg)
System Active Power (continued)
• Heater
50,000heaterP W
![Page 5: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/5.jpg)
System Active Power (continued)
• Synchronous Motor
(300 )(0.5)(746 / )0.96
116,562.5
synmot
synmot
hp W hpP
P W
![Page 6: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/6.jpg)
System Active Power (continued)
(233,611.7 50,000 116,562.5)
400,174.2 400.2
system indmot heater synmot
system
system
P P P P
P W
P W kW
![Page 7: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/7.jpg)
(b) Power Factor of the Synchronous Motor
• Determine the angle between VT and Ia
• Calculate Pin to determine Ef
• Calculate Iaa
![Page 8: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/8.jpg)
460265.58
3
3 sin
3 sin
(116,562.5)(0.667)345.615
(3)(265.58)(sin 16.4 )345.615 16.4
T
T f
in
s
in s
f
T
f
f
V V
V EP
XP X
EV
E V
E V
![Page 9: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/9.jpg)
(265.58 0 )(345.615 16.4 )(0.667 90 )
175.41 34.06
( ) (0 34.06 ) 34.06
cos( 34.06 ) 0.828
f T a s
T f
a
s
a
v i
p
E V I jX
V EI
jX
I
F leading
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![Page 10: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/10.jpg)
(c) System Power Factor
• Look at each load– Induction Motor
• Fp = 0.891
• θ = cos-1(0.891) = 27
– Heater• θ = 0
– Synchronous Motor• θ = -34.06
![Page 11: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/11.jpg)
Look at the Power Triangles
• Induction Motor
Pindmot = 233,611.7 W
Qindmtr = Ptanθ
Qindmot = 119,031.1 VARS
S
θ = 27
![Page 12: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/12.jpg)
Power Triangles (continued)
• Synchronous Motor
• Heater
Psynmot = 116,562.5 W
Qsynmot = Ptanθ
Qsynmot = -78,800 VARS
Pheater = 50,000 W
θ = -34.06
![Page 13: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/13.jpg)
Adding Components
![Page 14: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/14.jpg)
Resultant
• System Power Triangle
Psystem = 400.2 kW
Qsystem = 40,231.1 VARS
θ = 5.74
Fp,sys = cos(5.74) = 0.995 lagging
θ = tan-1(40,231.1/400,200) θ = 5.74
![Page 15: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/15.jpg)
(d) Adjust power Factor to Unity
• Power Triangle for the Synchronous Motor
Psynmot = 116,562.5 W
Qsyn mot = (78,800 + 40,231.1) VARSSsynmot = 166,598.98-45.6
additional VARS provided by the synchronous
motor
![Page 16: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/16.jpg)
For one phase
3
1
*
1
*
166,589.98 45.63 355,532.99 45.6
55,532.99 45.6209.1 45.6
265.58 0
T a
a
SS
S V I
I
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![Page 17: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/17.jpg)
Rotor Circuit for one phase
265.58 0 (209.1 45.6 )(0.667 90 )
378.04 14.6
T f a s
f T a s
f
f
V E I jX
E V I jX
E
E
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![Page 18: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/18.jpg)
Rotor Circuit for one phase (cont)
• Neglecting saturation,– Ef Φf If use Ef
– ΔEf = (378.04 – 345.615)/(345.615) x 100%
– ΔEf = 9.38%
![Page 19: Power Factor Correction Example 8.3 page 324 of the text by Hubert A three-phase (y-connected) 60-Hz, 460-V system supplies the following loads: –6-pole,](https://reader035.fdocuments.us/reader035/viewer/2022080915/56649d8b5503460f94a72dd6/html5/thumbnails/19.jpg)
(e) The power angle for unity power factor
• δ = -14.96