power system protection operating principles
DESCRIPTION
Operating principles of power system protectionTRANSCRIPT
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EE 434 POWER SYSTEM PROTECTIONLECTURE 14: OPERATION PRINCIPLES
Ernesto Vazquez‐Martinez, ECERF
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Typical protective devicelocation
Distributionsubstation
R
F3 F2
F1
S
F4
Recloser Sectionalizer
FuseCutouts
Relays
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Overcurrent relays
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Overcurrent relaysInstantaneous overcurrent relay
i
,e+
‐
→∞
fr
F
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Other structures
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Instantaneous overcurrentrelay block and trip regions
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Time‐delay overcurrent relay
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Torque in the disc (TDR)
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Time‐delay overcurrent relay block and trip regions
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Dynamic behavior of TDR
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Overcurrent relaycharacteristics
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CO‐8curves
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Otherrelay
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Digital time‐delay overcurrent relay
IEEE C37.112 – 1996
IEC 225 ‐ 4
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Typical protective devicelocation
Distributionsubstation
R
F3 F2
F1
S
F4
Recloser Sectionalizer
FuseCutouts
Relays
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Fuses
Medium voltage distribution: Distribution transformers. Laterals:Overhead. Underground.
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Functional characteristicsof fuses
Combine fault detection and current
interruption.
Extremely inverse time current
characteristic.
Single‐phase operation.
Require Replacement.
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Distribution fuse cutouts
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Fuse operation
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Typical fuse time currentcharacteristic
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Typical ratings (1)
Max. DesignVoltage
(kV)Type
Continuous Current
(A)
InterruptingCurrent
(Symm. kA)
5.2 Enclosed 50, 100 & 200 1.6 through 12.5
7.8 Enclosed 50, 100 1.4 through 8.0
7.8 Open Link 50 1.2
7.8/13.5 Open 100, 200 3.6 through 12.5
15.0 Open Link 50 1.2
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Typical ratings (2)
Max. DesignVoltage
(kV)Type
Continuous Current
(A)
Interrupting Current
(Symm. kA)
15.0 Open 100, 200 2.8 through 10.0
15/26 Open 100, 200 2.8 through 5.6
18 Open Link 50 0.75
27 Open 100 1.1 through 8.0
38 Open 100 1.3 through 5.0
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Selection of fuse nominal current
Above maximum load. Above transformer inrush current: 25X transformer nominal current for 0.01 sec. 10X transformer nominal current for 0.1 s.
Above motor starting current.
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Typical protective devicelocation
Distributionsubstation
R
F3 F2
F1
S
F4
Recloser Sectionalizer
FuseCutouts
Relays
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Functional characteristicsof recloser Combine fault detection, current interruption, and reclosing. Operation sequence includes three or four trips and two or three reclosures. Hydraulically or electronicallycontrolled.
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Untanked single‐phasehydraulic recloser
UNIVERSAL, CLAMP‐TYPE TERMINALS accept copper or aluminum conductor in horizontal or vertical position
HEAD CASTING supports bushings and operating mechanism
HYDRAULIC MECHANISM counts operations to lockout and establishes dual time‐current characteristics; includes means for field‐changing of operating characteristics
MOVING CONTACTS provide double‐break interruption; are self‐cleaning
COVER‐CLAMPED BUSHINGS of wet‐process porcelain can be replaced in the field
SLEET HOOD protects manual operating handle, operations counter, and allows easy access with switch stick
MANUAL OPERATING HANDLE is easily operated by conventional switch stick; provides indication of lockout
SERIES‐TRIP SOLENOID trips recloser when current greater than minimum‐trip value flows. Coils can be changed to convert to a different rating
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Typical recloser operationsequence
Fast operations
Load current
Fault current
Time‐delayed operations
Reclosing intervals
Recloser lockout
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Typical protective devicelocation
Distributionsubstation
R
F3 F2
F1
S
F4
Recloser Sectionalizer
FuseCutouts
Relays
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Functional characteristicssectionalizer Lack fault‐ interrupting capability. Isolate faulted section. Combined with recloser or relayed breaker.
Count current‐interrupting operations. Hydraulically or electronically controlled. Fault closing capability. Load interrupting and closing capability.
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Sectionalizer operation
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EE 434 POWER SYSTEM PROTECTIONLECTURE 14: OPERATION PRINCIPLES
Ernesto Vazquez‐Martinez, ECERF