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  • REACTOR PROTECTIONPREPARED BY

    GOPALA KRISHNA PALEPUADE/MRT(PROTECTION)

    [email protected], Mobile:9440336984

  • MAIN-1 & MAIN-2PROTECTION FORSHUNT REACTOR

    ADOPTED IN ONE AND HALF

    CIRCUIT BREAKER SCHEME

    PREPARED BYGOPALA KRISHNA PALEPU

    ADE/MRT(PROTECTION)

  • BASICS OF SHUNT REACTOR1. TYPES OF REACTORS :

    A. BASED ON REACTOR CONNECTIONi. SHUNT REACTOR. ii. SERIES REACTOR.B. BASED ON REACTOR LOCATIONi. BUS REACTOR ii. LINE REACTORC. BASED ON CONTROLi. 3-PH OIL IMMERSED REACTOR WITH GAPPED IRON CORE. ii. THYRISTOR CONTROLLED REACTOR (STATIC VAR COMPENSATOR)(APTRANSCO UTILISING SHUNT REACTORS FOR BUS & LINE IN 400KV NETWORK)

    2. NEED OF SHUNT REACTOR:A. LINE REACTORSHUNT REACTORS ARE USED IN ORDER TO COMPENSATE FOR THE CAPACITIVE SHUNT REACTANCE OF TRANSMISSION LINES. THE REACTOR IS CONNECTED PARALLEL TO THE LINE. THE LOCATION OF REACTOR IS OUT GOING SIDE OF LINE i.e AFTER CIRCUIT BREAKER. LENGTH OF LINE IS MORE THERE MAY BE VOLTAGE IS RAISING DUE TO FARANTI EFFECT(CAPACITANCE) DURING CHARGING. IN CASE OF ZONE-2 (OPEN JUMPER) FAULT, THE FAULT CLEARED BY REMOTE END IS FAST, BUT THIS END IT WILL TAKE TIME DELAY DUE TO ZONE-2. DURING THIS TIME, VOLTAGE MAY RAISING. SO, LINE REACTOR IS USED FOR CONTROLLING THE SWITCHING OVER VOLTAGES AND SAFEGUARD THE OPERATING EQUIPMENT. NORMALLY IT IS ALWAYS IN SERVICE. NORMALLY BOTH ENDS LINE REACTORS ARE PROVIDED. THE ELECTRICAL INTERLOCK IS PROVIDED THAT IF REACTOR ISOLATOR CLOSSED POSITION ONLY WILL GIVE PERMIT TO CLOSE THE LINE ISOLATOR. SIMILARLY FOR OPENING REACTOR ISOLATOR THE LINE ISOLATOR SHOULD BE IN OPEN POSITION. NEUTRAL REACTOR CONNECTED BETWEEN THE STAR POINT OF EHV SHUNT REACTOR AND THE GROUND, LIMITS THE SECONDARY ARC CURRENT TO A LOW VALUE OF AROUND 10 AMPS TYPICALLY FOR 400KV SYSTEM TO ENSURE COMPLETE DE-IONISATION OF ARC PATH WHEN EHV SYSTEM DEVELOPS A SINGLE LINE TO GROUND FAULT. ARC EXTINCTION DURING LINE SINGLE-PHASE AUTORECLOSE DEAD TIME IS ASSISTED BY THIS NEUTRAL REACTOR.

  • B. BUS REACTORTHE REACTOR IS CONNECTED PARALLEL TO THE BUS i.e LIKE A FEEDER/LINE. DURING LIGHTLY LOADED CONDITIONS THERE MAY BE POSSIBULITY OF RAISING BUS VOLTAGES. FOR SAFEGUARD THE OPERATING EQUIPMENT BUS REACTORSARE UTILISING. NORMALLY IT IS NOT IN SERVICE. WHENEVER THE VOLTAGE RAISES TO 4%TO 5% MORE THAN THE RATED VOLTAGE THIS MAY BE KEPT IN SERVICE AND 2% TO 3% LESS THAN THE RATED VOLTAGE THIS MAY BE KEPT OUT OF SERVICE.

    3. SELECTION OF REACTORA. LINE REACTORNORMALLY LINE REACTORS ARE PROVIDED IF THE LINE IS MORE OR EQUAL TO 250KM. IN APTRANSCO NETWORK MAXIMUM LENTH OF LINE IS 350KM. AS PER SYSTEM STUDIES RECOMANDATIONS IF LINE LENGTH IS 250KM TO 300KM 50MVAR REACTOR IS TO BE USED. IF MORE THAN 300KM 63MVAR REACTOR IS TO BE USED.B. BUS REACTOR NORMALLY BUS REACTORS ARE PROVIDED IF THE SUBSTATION BUS VOLTAGE IS RAISING 5% MORE THAN THE RATED VOLTAGE DURING LIGHTLY LOADED CONDITION. BASED ON THE SYSTEM STUDIES RECOMANDATIONS BUS REACTORS ARE TO BE PROVIDED. CALCULATIONS ARE REQUIRED FOR PROVIDING BUS REACTOR. IN THIS THERE IS NO STANDARDISATION.

    4. LOCATION OF REACTORS WITH CAPACITY IN APTRANSCOA. LINE REACTOR1. 400KV KALAPAKA-KHAMMAM 1 AT BOTH ENDS 63MVAR 2. 400KV KALAPAKA-KHAMMAM 2 AT BOTH ENDS 63MVARB. BUS REACTOR1. 400KV KALAPAKA SS 2 X 50 MVAR2. 400KV NUNNA SS(PGCIL BAYS) 1 x 63 MVAR

  • 5. PURPOSE OF SHUNT REACTOR PROTECTIONTHE PURPOSE OF THE PROTECTION RELAYING IS TO DISCONNECT THE REACTOR AND LIMIT DAMAGE IN CASE OF INTERNAL SHORT CIRCUITS, EARTH FAULTS, INTERTURN FAULTS AND OVER VOLTAGE OR OVER LOAD.THE REACTOR FORMS CERTAIN IMPEDENCE FOR RATED FREQUENCY, AND AS IT IS SHUNT CONNECTED, AS OVER LOAD MAY BE CAUSED BY OVER VOLTAGE OR HARMONICS IN VOLTAGE AND CURRENT.

    6. PROTECTION DEVICES INBUILT OR MOUNTED ON REACTORA. OIL IMMERSED REACTOR USUALLY HAVE A GAS DETECTOR AND OIL SURGE. DETECTOR (BUCHHOLZ ALARAM & TRIP DEVICES), WHICH ARE EXCELLENT FOR DETECTING INTERNAL FAULTS.B. TEMPARATURE MONITORS FOR OIL & WINDING PROVIDE GOOD OVER LOAD PROTECTION.C. PRESSURE RELIEF DEVICE IS PROVIDED TO SAFE GUARD THE REACTOR FROM HIGH PRESURES.

    7. REACTOR DIFFERENTIAL PROTECTIONIT IS WIDELY USED AS INSTANTANEOUS PROTECTION FOR SHORT CIRCUIT FAULTS WITH IN THE DIFFERENTIAL ZONE. THIS IS TREATED AS MAIN-1 PROT FOR REACTOR.IT CAN BE OF HIGH IMPEDENCE TYPE OR OF A SENSITIVE CURRENT STABILISED TYPE. HIGH IMPEDENCE DIFFERENTIAL PROTECTION RELAYS REQUIRE AN EQUAL CT TURNS RATIO ON THE PHASE AND NEUTRAL SIDE. SENSITIVITY IS 5% OF NOMINAL REACTOR CT CURRENT.

    8. BACK-UP PROTECTIONA VARIETY OF RELAYS ARE AVAILABLE.A. OVER CURRENT & EARTH FAULT PROTECTION. ( 50, 50N, 51, 51N, 67, 67N - ANY COMBINATION OF THESE)B. UNDER IMPEDENCE / DISTANCE ( Z).

    9. RESTRICTED EARTH FAULT PROTECTIONIF, FOR SOME REASON, A SENSITIVE DIFFERENTIAL PROTECTION NOT CHOOSEN A RESTRICTED EARTH FAULT PROTECTION CAN BE UTILISED.

  • SHUNT REACTOR (BUS & LINE) (ONE AND HALF CIRCUIT BREAKER SYSTEM )

    LINE 1

    1-89

    1-89A

    1-52CB

    1-CT3

    3

    3-89

    3-89A

    3-52CB

    3-CT3

    2-52CB

    2-CT

    2-89A 2-89B

    1-89L

    BUS-1 BUS-2

    P1

    P1

    P1

    P2 P2

    P2

    U

    U

    U

    LINESHUNT

    REACTOR

    1-89R

    U

    U

    U

    BUSSHUNT

    REACTOR

    .3-89R

    U

    U

    U

    U

    .

    IL

    INTER LOCK FACILITY:WHEN 1-89R CLOSES ONLY

    PERMIT TO CLOSE 1-89L AND1-89L OPENS ONLY

    PERMIT TO OPEN 1-89R.

    IL

    1-PH NEUTRAL GROUNDING REACTOR

  • REACTOR BUSHING CT INFORMATIONCAPACITY OF 400KV REACTORS : 50, 63, 80, 125 MVAR

    NGRSHUNT REACTORITEMSrNO

    EARTH SIDELINE SIDESTAR / NEUTRAL SIDE400KV / LINE SIDE

    CORE-2CORE-1CORE-4CORE -3CORE-2CORE-1CORE-5CORE-4CORE-3CORE -2CORE-1

    200/1200/1200/1200/1WTI200/12000-1000-500/1

    2000-1000-500/1

    200/1200/1200/1RATIO1

    NEUTRAN BUSHING CT : CORE-1 : BEFORE STAR FORMATION IN RYB PHASES

    64 RREF1/2

    64 RREF2

    64 RREF1

    87 RDIFFMET

    FOR 21L1 /TEED-2 /

    BBC

    FOR 21L2 /TEED-1 /

    BBM21 R IMP

    64 R REF1

    87 RDIFFPURPOSE5

    PSPSPSPSPSPSPSPSPSCLASS OF ACURACY4

    1 OHM1 OHM1 OHM1 OHM10 5 2.5 OHM

    10 5 2.5

    OHM1 OHM1 OHM1 OHMRCT IN OHMS3

    200V200V200V200V

    Parameters of WTI CT for each winding shall be provided by the contractor

    1.0 CLAND

    BURDEN 10 VA

    1000-500-250V

    1000-500-250V

    200V200V200VVKNEE FOR PS

    & VA FOR MET

    2

  • SHUNT REACTOR PROTECTION

    400KV SIDE

    21R 3Ph, REACTOR BACKUP IMPEDANCE RELAY OF SUITABLY SHAPED CHARECRESTICS EITHER SINGLE /

    DOUBLE ZONE TYPE.CORE-3

    87 BBC/BB-221L2(M_CT+T_CT R_CT)

    87 TEED-2(M_CT, T_CT, R_CT)

    21L2(M_CT+T_CTR_CT)

    CORE-4

    87 BBM/BB-121L1(M_CT+T_CT R_CT)

    87 TEED-1(M_CT, T_CT, R_CT)

    21L1(M_CT+T_CTR_CT)

    CORE-5

    64R - REACTOR RESTRICTED EARTH FAULT PROTECTION OF1-POLE HIGH IMPEDANCE TYPE.(REF1)CORE-2

    87R 3Ph, 2Wdg REACTOR DIFFERENTIAL RELAY EITHER LOW or HIGH IMPEDANCE TYPE.CORE-1

    BUSLINEBUSLINE

    DOUBLE BUS & TRANSFER BUS SYSTEM

    ONE & HALF BREAKER SYSTEMCORES

    M_CT: Main CT, T_CT: Tie CT, R_CT: Reactor CT

  • SHUNT REACTOR PROTECTION

    NEUTRAL GROUNDING REACTOR SIDE- -64 REF2- -64 REF1CORE-1

    STAR / NEUTRAL SIDE

    87R 3Ph, 2Wdg REACTOR DIFFERENTIAL RELAY EITHER LOW / HIGH IMPEDANCE TYPE.CORE-3

    64R - REACTOR RESTRICTED EARTH FAULT PROTECTION OF1-POLE HIGH IMPEDANCE TYPE .(REF1)CORE-4

    - -64 REF 1 / 2- -64 REF1CORE-2

    WINDING TEMPARETURE OF REACTORCORE-2METERING OF REACTORCORE-1

    BUSLINEBUSLINE

    DOUBLE BUS & TRANSFER BUS SYSTEM

    ONE & HALF BREAKER SYSTEMCORES

  • UU

    U

    LINESHUNT

    REACTOR

    .1-PH NEUTRAL

    GROUNDING REACTOR

    3

    3

    3

    3

    3

    3

    3

    3

    U

    U

    U

    3

    3

    3

    3

    3

    3

    3

    3

    3

    U

    U

    U

    3

    3

    3

    3

    3

    3

    3

    3

    U

    U

    U

    3

    3CORE -1

    CORE -2

    CORE -3

    CORE -4

    CORE -5

    CORE -1

    CORE -2

    CORE -3

    CORE -4

    CORE -1

    CORE -2

    R

    E

    A

    C

    T

    O

    R

    B

    U

    S

    H

    I

    N

    G

    C

    T

    I

    N

    F

    O

    R

    M

    A

    T

    I

    O

    N

  • UU

    U

    BUSSHUNT

    REACTOR

    .

    3

    3

    3

    3

    3

    3

    3

    3

    U

    U

    U

    3

    3

    3

    3

    3

    3

    3

    3

    3

    U

    U

    U

    3

    3

    3

    3

    3

    3

    3

    3

    CORE -1

    CORE -2

    CORE -3

    CORE -4

    CORE -5

    CORE -1

    CORE -2

    CORE -3

    CORE -4

    R

    E

    A

    C

    T

    O

    R

    B

    U

    S

    H

    I

    N

    G

    C

    T

    I

    N

    F

    O

    R

    M

    A

    T

    I

    O

    N

  • ONE & HALF BREAKER LINE & BUS SHUNT REACTOR PROTECTION SCHEME87BB1

    87BB2

    CVT

    CVT

    VBB1

    VBB2

    79

    25

    79

    25

    79

    25VBB2

    BF

    BFVL2 / VL1OR VBB1

    VL1 / VL2OR VBB2

    VBB1

    FEEDER1 / LINE1

    87L 21M2 CVT VL1

    BF

    VL1

    BUSBAR-1

    BUSBAR-2

    TEED-1

    TEED-2PROTECTION OF BUS REACTOR

    21M1 VL1

    VL1 / VBB1VL2 / VBB2

    FOR REACTOR PROTECTION & METERING VOLTAGE SELECTION RELAYS FOR BUS-1, BUS-2& LINE ARE PROVIDED .

    UU U UUU

    87R

    64R

    OR

    21R

    UUU

    87R

    64R

    V

    L

    1

    /

    V

    B

    B

    1

    /

    V

    B

    B

    2

    V

    B

    B

    1

    /

    V

    B

    B

    2

    21R

  • LINE/BUS REACTOR DIFFERENTIAL PROTECTION (LOW IMPEDANCE DIFFERENTIAL PROTECTION)

    3 3 3

    R-CT

    HV BUSHING

    CORE-1CTR: 200/1A

    CLASS: PS

    1S2 1S2 1S2

    1S11S1 1S1

    P2P2P2 CT MB3 3 3

    R-CT

    STAR BUSHING

    CORE-3CTR: 200/1A

    CLASS: PS

    3S1 3S1 3S1

    3S23S2 3S2

    P2P2P2

    CT MB

    C

    E

    DISPLAY

    ACTIVE START TRIP

    RET 670

    NORMALLYLOW / HIGH IMPEDENCE DIFFERENTIAL RELAY IS

    USED FOR BUS / LINE REACTOR

    DIFFERENTIAL PROTECTION

    IN CASE OF REACTOR BUSHING CT P2 IS AWAY FROM REACTOR & P1 IS TOWARDS REACTOR

  • CE

    DISPLAY

    ACTIVE START TRIP

    RET 6703 3 3

    3 3 3R-CT HV

    BUSHING CT

    CORE-1CTR: 200/1A

    CLASS: PS

    R-CT STAR

    BUSHING CT

    CORE-3CTR: 200/1A

    CLASS: PS

    P2P2P2

    P2P2P2

    P1P1P1

    P1P1P1

    1S21S21S2

    3S23S23S2

    1S11S11S1

    3S13S13S1

    LINE/BUS REACTOR DIFFERENTIAL PROTECTION (HIGH IMPEDANCE DIFFERENTIAL PROTECTION)

    IN CASE OF REACTOR BUSHING CT P2 IS AWAY FROM REACTOR& P1 IS TOWARDS REACTOR

    NORMALLYLOW / HIGH IMPEDENCE DIFFERENTIAL RELAY IS

    USED FOR BUS / LINE REACTOR

    DIFFERENTIAL PROTECTION

  • CE

    DISPLAY

    ACTIVE START TRIP

    RET 6703 3 3

    3 3 3P2P2P2

    P2P2P2

    P1P1P1

    P1P1P1

    2S22S22S2

    4S24S24S2

    4S14S14S1

    2S12S12S1

    LINE/BUS REACTOR REF PROTECTION (NGR IS NOT AVAIALBLE)

    R-CT HV

    BUSHING CT

    CORE-2CTR: 200/1A

    CLASS: PS

    R-CT STAR

    BUSHING CT

    CORE-4CTR: 200/1A

    CLASS: PS

    IN CASE OF REACTOR BUSHING CT P2 IS AWAY FROM REACTOR& P1 IS TOWARDS REACTOR

    NORMALLYHIGH IMPEDENCE

    VOLTAGE/CURRENT OPERATED SINGLE

    POLE RELAY IS USED FOR BUS / LINE

    REACTOR RESTRICTED EARTH FAULT PROTECTION.PRESENTLY NUMERICAL

    DIFFERENTIAL RELAYS HAVING IN BUILT

    FUNCTION OF 2 REF OR 2 SEF PROTECTIONS.

  • 3 3 3

    3 3 3P2P2P2

    P2P2P2

    P1P1P1

    P1P1P1

    2S22S22S2

    2S22S22S2

    2S12S12S1

    2S12S12S1

    LINE REACTOR REF PROTECTION (NGR IS AVAIALBLE)

    R-CT HV

    BUSHING CT

    CORE-2CTR: 200/1A

    CLASS: PS

    NGR-CT EARTH

    BUSHING CT

    CORE-2CTR: 200/1A

    CLASS: PS

    IN CASE OF REACTOR BUSHING CT P2 IS AWAY FROM REACTOR& P1 IS TOWARDS REACTOR

    C

    E

    DISPLAY

    ACTIVE START TRIP

    RET 670 NORMALLYHIGH IMPEDENCE

    VOLTAGE/CURRENT OPERATED SINGLE

    POLE RELAY IS USED FOR BUS / LINE

    REACTOR RESTRICTED EARTH FAULT PROTECTION.PRESENTLY NUMERICAL

    DIFFERENTIAL RELAYS HAVING IN BUILT

    FUNCTION OF 2 REF OR 2 SEF PROTECTIONS.

  • 3 3 3

    3 3 3P2P2P2

    P2P2P2

    P1P1P1

    P1P1P1

    2S22S22S2

    4S24S24S2

    4S14S14S1

    2S12S12S1

    LINE REACTOR 2 NOs REF PROTECTIONS (NGR IS AVAIALBLE)

    R-CT HV

    BUSHING CT

    CORE-2CTR: 200/1A

    CLASS: PS

    R-CT STAR

    BUSHING CT

    CORE-4CTR: 200/1A

    CLASS: PS

    3 3 31S2 1S2 1S21S11S1 1S1

    P1P1P1

    CT MB

    C

    E

    DISPLAY

    ACTIVE START TRIP

    RET 670

    P2P2P2

    3 3 32S1 2S1 2S12S22S2 2S2

    P2P2P2

    CT MBP1P1P1

    NORMALLYHIGH IMPEDENCE

    VOLTAGE/CURRENT OPERATED SINGLE POLE RELAY IS USED

    FOR BUS / LINE REACTOR RESTRICTED EARTH FAULT

    PROTECTION.PRESENTLY NUMERICAL

    DIFFERENTIAL RELAYS HAVING IN BUILT FUNCTION OF 2 REF

    OR 2 SEF PROTECTIONS.

    NGR-CT BUSHING CTCORE - 1 & 2

    CTR: 200/1A

    CLASS: PS

  • CE

    DISPLAY

    ACTIVE START TRIP

    REL 6703 3 3

    IR3 / A311IY3 / A331IB3 / A351

    IN3 / A3713S2 3S2 3S2

    3S13S1 3S1

    P2P2P2 CT MBVR11 / E111VY11 / E131VB11 / E151VN11 / E171

    LINE/BUS REACTOR B/U IMPEDANCE PROTECTION

    R-CT HV

    BUSHING CT

    CORE-3CTR: 200/1A

    CLASS: PS CVT SELECTION

    BUS-1 CVT / BUS-2 CVT /

    LINE CVT

    CORE-1VA : 200

    CLASS: 3P

  • LINE REACTOR PROTECTION FOR LINE (MAIN-1 PROTECTION)

    C

    E

    DISPLAY

    ACTIVE START TRIP

    REL 5213 3 3

    3 3 3

    IR5 / A511IY5 / A531IB5 / A551

    IN5 / A571

    1-CT

    CORE-5CTR: 2000-1000-500/1A

    CLASS: PS

    2-BCT

    CORE-5CTR: 2000-1000-500/1A

    CLASS: PS

    5S4 5S4 5S4

    5S25S2 5S2

    P2P2P2 CT MB

    P2P2P2

    5S4 5S4 5S4

    5S25S2 5S2

    VR11 / E111VY11 / E131VB11 / E151VN11 / E171

    1-CVT

    CORE 1

    200VA

    CLASS: 3P

    3 3 3LR-CT 400KVCORE-5CTR: 2000-1000-500/1A

    CLASS: PS

    P1P1P1

    5S2 5S2 5S2

    5S45S4 5S4

  • LINE REACTOR PROTECTION FOR LINE(MAIN-2 PROTECTION)

    C

    E

    DISPLAY

    ACTIVE START TRIP

    REL 3163 3 3

    3 3 3

    IR4 / A411IY4 / A431IB4 / A451

    IN4 / A471

    1-CT

    CORE-4CTR: 2000-1000-500/1A

    CLASS: PS

    2-BCT

    CORE-4CTR: 2000-1000-500/1A

    CLASS: PS

    4S4 4S4 4S4

    4S24S2 4S2

    P2P2P2 CT MB

    P2P2P2

    4S4 4S4 4S4

    4S24S2 4S2

    VR21 / E211VY21 / E231VB21 / E251VN21 / E271

    1-CVT

    CORE 2

    200VA

    CLASS: 3P

    3 3 3LR-CT 400KVCORE-4CTR: 2000-1000-500/1A

    CLASS: PS

    P1P1P1

    4S2 4S2 4S2

    4S44S4 4S4

  • BUS REACTOR TEED-1 PROTECTION{BAY3&2}

    C

    E

    DISPLAY

    ACTIVE START TRIP

    RET 670

    3 3 3

    3 3 33-CT

    CORE-5CTR: 2000-1000-500/1A

    CLASS: PS

    BR-LCT

    CORE-5CTR: 2000-1000-500/1A

    CLASS: PS

    P2P2P2

    P1P1P1

    3 3 32-CT

    CORE-1CTR: 2000-1000-500/1A

    CLASS: PS

    P1P1P1P2P2P2

    P1P1P1

    P2P2P2

    5S4 5S4 5S4

    5S25S2 5S2

    1S4 1S4 1S4

    1S21S2 1S2

    4S4 4S4 4S4

    4S24S2 4S2 IT WORKS ON CIRCULATING CURRENT PRINCIPLE AND IT IS HIGH IMPEDENCE DIFFERENTIAL RELAY. TEED-1 PROTECTION FOR BAY 2&3 AND THE FOLLOWING CTs & CORES ARE USED 3-CT(CORE-5), 2-CT(CORE-1) & BR-CT (CORE-5) ARE STARRED AND CONNECTED TO TEED-1 PROTECTION

    IR5IY5IB5

    IN5

    IR5IY5IB5

    IN5

    IR1IY1IB1

    IN1

  • BUS REACTOR TEED-2 PROTECTION{BAY3&2}

    3 3 3

    3 3 3

    3-CT

    CORE-4CTR: 2000-1000-500/1A

    CLASS: PS

    BR-CT

    CORE-4CTR: 2000-1000-500/1A

    CLASS: PS

    4S4 4S4 4S4

    4S24S2 4S2

    P2P2P2 CT MB

    CT MBP2P2P2

    4S2 4S2 4S2

    4S44S4 4S4

    3 3 3

    2-CT

    CORE-2CTR: 2000-1000-500/1A

    CLASS: PS

    2S2 2S2 2S2

    2S42S4 2S4

    P2P2P2CT MB

    C

    E

    DISPLAY

    ACTIVE START TRIP

    RET 670

    R

    A

    I

    C

    A

    L

    B

    B

    /

    B

    F

    R

    R

    A

    I

    C

    A

    L

    B

    B

    /

    B

    F

    R

    IT WORKS ON KIRCHOFFS CURRENT PRINCIPLE & IT IS PERCENTAGE BIASED LOW IMPEDENCE DIFFERENTIAL RELAY. TEED-2 PROTECTION FOR BAY 2&3 IS THE FOLLOWING CTs & CORES ARE USED. 3-CT(CORE-4), 2-CT(CORE-2) & BR-CT (CORE-4) ARE CONNECTED TO TEED-2 PROTECTION.

  • OVER EXCITATION/FLUX RELAY{FOR LINE & BUS REACTORS}

    RATUB

    V/F RELAYLINE

    RATUB

    V/F RELAYBUS

    CVT SELECTION

    BUS-1 CVT /

    BUS-2 CVT /

    LINE CVT

    CORE-1VA : 200

    CLASS: 3P

    VOLTAGE

    SELECTION

    BUS-1 PT /

    BUS-2 PT

    CORE-1VA : 200

    CLASS: 3P

  • 3 3 3

    IR2 / D211IY2 / D231IB2 / D251

    IN2 / D271

    R-CT STAR

    BUSHING CT

    CORE-2CTR: 200/1A

    CLASS: 0.2

    2S2 2S2 2S2

    2S12S1 2S1

    P2P2P2 CT MB

    VR31 / E311VY31 / E331VB31 / E351

    VN31 / E371

    BASED ON SELECTION

    LINE CVT / BUS-1 CVT / BUS-2 CVT

    CORE 3

    100VA

    CLASS: 0.2

    REACTOR MULTI FUNCTION PANEL METERING

  • CARRIER INTERTRIPPING OF LINE SHUNT REACTORLINE SHUNT REACTOR PROTECTION TRIPPINGS WILL BE USED AS DIRECT TRIPPINGS OF LINE IN ADDITION TO OTHER TRIPPINGS. BUS SHUNT REACTOR NEED NOT REQUIRE CARRIER INTER TRIPPING FACILITY.

    87R REACTOR DIFFERENTIAL RELAY

    21R REACTOR IMPEDENCE RELAY

    64R RESTRICTED EARTH FAULT RELAY

    ABBNSD 50

    DC +VE FROM PANEL

    G4AD V9LC 2

    DC VE FROM PANELG4AD V9LC 1

    LINE PROTECTION COUPLER PANEL-1

    ABBNSD 50

    DC +VE FROM PANEL

    G4AD V9LC 2

    DC VE FROM PANELG4AD V9LC 1

    LINE PROTECTION COUPLER PANEL-2

    RET 670

    REL 670

    RET 670REACTORS INTERNAL FAULTS

    87R REACTOR DIFFERENTIAL RELAY

    21R REACTOR IMPEDENCE RELAY

    64R RESTRICTED EARTH FAULT RELAY

    REACTORS INTERNAL FAULTS

    GROUP-1/A TRIPPINGS

    GROUP-2/B TRIPPINGS

    RET 670

    REL 670

    RET 670


ACADs (08-006) Covered Keywords Defense-in-depth, reactor protection system, solid state protection system, reactor trips, Engineered Safety Feature System

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KTA 3501 (1985-06) Reactor Protection System and ... 3501 Page 3 KTA SAFETY STANDARD June 1985 Reactor Protection System and Monitoring Equipment of the Safety System KTA 3501 Previous

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TRAINING REACTOR AKR-2 - TU Dresden · Radiation Protection The reactor is designed to keep the external as well as the inner radiation exposure for the reactor operational staff

Very High-Temperature Reactor (VHTR) Proliferation ...large.stanford.edu/courses/2013/ph241/pu1/docs/Pub25470.pdf · PR&PP proliferation resistance and physical protection RCCS Reactor

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Reliability Study: Westinghouse Reactor Protection System ...reactor protection system (RPS) at U.S. Westinghouse commercial reactors during the period 1984 through 1995. Westinghouse

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High Reliability FPGA Based Reactor Protection System · 2014-11-20 · 16th IGORR 2014/IAEA Technical Meeting –Bariloche - Argentina Reactor Protection System Introduction Reactor

Reliability Study: Combustion Engineering Reactor Protection … · This report documents an analysis of the safety-related performance of the reactor protection system (RPS) at U.S

Classification and Research of the Reactor Protection ...ceur-ws.org/Vol-1614/paper_89.pdf · Classification and Research of the Reactor Protection Instrumentation and Control System

Radiation Protection Plans for Nuclear Power Reactor Licensees Draft... · CONTENTS OF RADIATION PROTECTION PLANS FOR NUCLEAR POWER REACTOR LICENSEES The purpose of this report is

General Electric Systems Technology Manual …Rev 09/11 7.3-1 USNRC HRTD 7.3 REACTOR PROTECTION SYSTEM Learning Objectives: 1. Recognize the purposes of the Reactor Protection System

Reactor Multipoint Brochure - Engineered Products, LLC · The Cased multipoint design utilizes an external protection tube that protects the sensors from the process. ... 11 Reactor

A Radiation Protection Perspective- … Documents...A Radiation Protection Perspective- Decommissioning of the Moata Reactor Biological Shield Dismantling Australian Nuclear Science

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Plant Protection System (PPS) › docs › ML1125 › ML11251A143.pdfRPS Purpose The Reactor Protection System (RPS) monitors various plant parameters and trips the reactor when a

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Transformational Challenge Reactor Autonomous Control ......A typical nuclear plant I&C system includes three major subsystems: (1) Reactor Protection System (RPS), (2) Plant Control

 · Reyrolle Protection ... specific requirements ... covers applications like Generator Protection, Feeder Protection, Transformer and Reactor

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