0354.ELE.estudoProteção.R04

OBRA:

E. M. Hilda Anna Krisch MUNICÍPIO DE JOINVILLE SECREARIA DA EDUCA!"O

ESTUDO DE PROTEÇÃO: - ESPECIFICAÇÃO DE MATERIAIS SATURAÇÃO SATURAÇÃO DOS TC´S - ESTUDO DE SELETIVIDADE

Março/2015 Revisão 04 1.ESPECIFICAÇÃO DE MATERIAIS – TP, TC’S E RELÉ DE

PROTEÇÃO As Es#$ci%ca&'$s a(ai)* $s+a($l$c$, *s r$-isi+*s ,/ni,*s -$ d$0$r1* s$r a+$ndid*s n* 2*rn$ci,$n+* d$ r$l3s d$ #r*+$&1*4 +rans2*r,ad*r$s d$ c*rr$n+$ $ #*+$ncial a s$r$, 5li6ad*s $, sis+$,as +ri27sic*s c*, +$ns'$s d$ 894;V. <and* ,ais d$ ,a nidad$ 2*r s*lici+ada s*( , ,$s,* i+$, da $nc*,$nda4 +*das +*das d$0$r1* d$0$r1* #*ssir * ,$s,* #r*=$+* $ s$r $ss$ncial,$n+$ i>ais4 c*, +*das as sas #$&as c*rr$s#*nd$n+$s i>ais $ in+$rca,(i70$is. Especificação do Transformador de Corrente

IPO: CORRENE CORRENE PRIMARIA: CORRENE SECUNDARIA CLASSE EAIDAO EAIDAO SECUNDRIA CLASSE ENSAO IMPEDNCIA INERNA ?RE
RANS?ORMADOR DE CORRENE PROE!"O 9@A @A 8B9 8@;V M7)i,*  *h,s F H6 84)In BARRA 8;A @;V @;V KI?8@ BALEAU  BRASPEL

Especificação do Transformador de Potencial (limentação !"iliar Proteção#

IPO IPO REDE CLASSE ISOLACAO ?RE
RANS?ORMADOR POENCIAL MONO?ASICA 8@ K0 F H6 L8 894 ;V  V 8 ;VA

CLASSE EMPERAURA NIVEL BASICO IMPULSO GNBI

A  8@C

@ ;V POSICAO ERMINAL CLASSE EAIDAO BLINDAEM ELEROSAICA MODELO ?ABRICANE

PADR"O 49P@ SIM V?I8@  BPS88 BALEAU  BRASPEL

Especificação do Rel$ de d e Proteção

RELE PROECAO ?UN!ES DE DE PR PROE!"O ALIMEN IMENA!" !"O O AUIL ILIAR IAR APLICACAO ACESSQRIOS ENRADA DE CORRENE MODELO ?ABRICANE

Micr*#r*c$ssad*Ml52n&1* @4@84@N4@8N @ @V VccaVc Vcc P ALIMENADORES C ?ONE CAPACIIVA INCORPORADA @A URPE 8 PERON

2. SATURAÇÃO DE TRANSFORMADORES DE CORRENTE COM NÚCLEO DE PROTEÇÃO %

&'TR)*+,

A s$l$&1* ina#r*#riada d$ +rans2*r,ad*r$s d$ c*rr$n+$ r$sl+ar7 na sa+ra&1* d* ncl$* dran+$ c*ndi&'$s d$ 2al+a $ #*d$ a2$+ar a a+a&1* da #r*+$&1* $)$c+ada #$l*s r$l3s. O i,#ac+* da sa+ra&1* d*s CTs 3 di2$r$n+$ #ara c*ndi&'$s d$ #r*+$&1* $ r$>i,$ n*r,al d$ 2nci*na,$n+*. Es+$ d*c,$n+* $)#lica d$ ,an$ira scin+a a inncia da sa+ra&1* d$ CTs s*(r$ r$l$s di>i+ais4 $, sis+$,as d$ dis+ri(i&1* *nd$ as car>as s1* r$la50a,$n+$ #$-$nas $ c*n$c+adas a sis+$,as c*, al+*s n/0$is d$ c*rr$n+$s d$ cr+* circi+*. O cri+ cri+3r 3ri* i* #ar #ara s$l$ s$l$&1 &1* * d$ CTs CTs #ara #ara *#$r *#$ra& a&1* 1* $, r$l3 r$l3ss d$ #r*+ #r*+$& $&1* 1* di>i di>i+a +ais is 3 a#r$s$ a#r$s$n+ n+ad* ad*44 l$0and l$0and* * $, c*nsi c*nsid$r d$ra& a&1* 1* a $%c7 $%c7cia cia c*, a c**r c**rd$n d$na& a&1* 1* d$ *+r* *+r*ss dis#*si50*s.

-%

C.C* )E T*R+, R$la&1* d* C #*r Icc Assi,3+ric*

R$la&1* d$ +rans2*r,a&1* d* C W IccAssi,3+ric*   R$la&1* d$ +rans2*r,a&1* d* C W F8 A   R$la&1* d$ +rans2*r,a&1* d* C W 94A R$la&1* d$ +rans2*r,a&1* d* C W 9@@A G0al*r d$ 2a(rica&1* C7lcl* da $ns1* S$cnd7ria VS Vsa+ W ?S ) X+ ) Is$c ?S ► c*rr$s#*nd$ a , 2a+*r d$ s*(r$ c*rr$n+$ d$ )In c*n2*r,$ NBRF@F Is$c ► c*rr$n+$ s$cnd7ria $ X+ ► i,#$dYncia +*+al G Xcar>a Z Xs$cnd7ria . Xcar>a ► c*rr$s#*nd$ a ,a #arc$la r$sis50a $ ,a #arc$la ind50a r$2$r$n+$ a s*,a da i,#$dYncia d* ca(* d$ c*n$)1* r$l$C $ a i,#$dYncia in+$rna d* #r[#ri* r$l3 d$ #r*+$&1*. Xs$cnd7ria ► c*rr$s#*nd$ s*,$n+$ a ,a #arc$la r$sis50a4 =7 -$4 \ r$a+Yncia d$ dis#$rs1* d* $nr*la,$n+* s$cnd7ri* #*ssir , 0al*r d$s#r$6/0$l d$0id* a* ,*d$l* c*ns+r50*. Assi, a i,#$dYncia +*+al a s$r c*nsid$rada $, c7lcl*s s$r7 ,a s*,a $n+r$ Xcar>a $ Xs$cnd7ria. U5li6and* U5li6and* *s d$scri50*s aci,a4 c*ncl/,*s -$: Vsa+ W ?S ) GXs$c Z Xr$l3 Z Xca(* ) Is$c Vsa+ W  ) G  Z 4 Z 4 ) @ Vsa+ W 4V $ns1* s$cnd7ria d* C W 9V G0al*r d$ 2a(rica&1*

C%

C'C*,

C*,* a +$ns1* $)i>ida n* s$cnd7ri* d* C n* cr+* circi+*4 * C c*, $)a5d1* d$ 8B9 a+$nd$ a*s cri+3ri*s d$ #r*+$&1* $ >aran+$ -$ n1* ha0$r7 sa+ra&1* d* ncl$* 2$rr*,a>n35c*.

3. ESTUDO DE COORDENAÇÃO E SELETIVIDADE %

)) )E E'TR)

I,#$dYncia ac,lada n* #*n+* d$ c*n$)1*: R8 W 48F #.. 8 W 4 #.. R W 49 #..  W 4@ #.. P*+ncia d$ (as$: 8 MVA $ns1* d$ (as$: 894 ;V Pr*+$&1* C$l$sc: Cha0$ 2s/0$l c*, El* 2s/0$l 5#* @K G@ A R$la&1* d*s CTs: 9@@ A R$l3 d$ #r*+$&1*: URPE84 ?a(rican+$: P$)+r*n B.

DADOS DO DO TR TRANSFORMADOR

P*+ncia: @ ;VA R$la&1* R$la&1* d$ +$ns1*: 89  9 V X W F4 ] Inrsh W  ) In #*r 48 s$>nd*s D$,anda da Car>a: 98;^ G9;VA

C%

)&RM *'&&R

Os dad*s d$ c7lcl* s1* >$rad*s #$l* s*_àr$ SKM POÊR OOLS ?OR ÎNDO^S. REDE CELESC Isc 3P 5465.2 Amps Isc SLG 4914.4 Amps X/R 3P 3.78 X/R SLG 3.93

FUS CELESC Ma!". # $PICAL 25% 25.& A

C'L(SU' )1* + 35 mm2 L,- 2&.& M,,0s

*-ET+, RELE SU' Ma!". PEX#R URPE 71&4 35& / 5 A 1 SU' 'US SU' 138&&.&  P S

#RAF Ma!". E 5&&.& A 138&& / 38&   6.&& X/R 4.69

C'L(DG )3* + 12& mm2 L,- 2&.& M,,0s

1 DG Ma!". MERLI GERI #&81 8&&.& A 'US DG 38&.& 

DG A 371.& : )Ip!*

)%

CC* )E )E C*RT3C&RC*&T

ANALÍSE DE CURTO-CIRCUITO PARA SELETIVIDADE EM HILDA ANNA KRISCH ICC TRIFÁSICO E MONOFÁSICO ALL PU VALUES ARE EXPRESSED ON A 100 MVA BASE SWING GENERATORS BUS NAME SOURCE NAME VOLTAGE ANGLE ================================================ BUS CELESC REDE CELESC 1.00 0.00

************* P R E - F A U L T BUS

NAME

BUS #DG BUS SUB

BASE VOLTS $%0.00 1$%00.00

***************** **************** * F A U L T

V O L T A G E PU VOLTS

P R O F I L E **************

ANGLE !D"

1.0000 1.0000

A N A L & S I S

-$0. 0.

R E P O R T **************** ************** **

FAULT T&PE' $PH MODEL INDUCTION MOTOR CONTRIBUTION' &ES MODEL TRANSFORMER TAPS' &ES MODEL TRANSFORMER PHASE SHIFT' &ES ============================================================================== BUS #DG

VOLTAGE BASE LL' $%0.0 !VOLTS" INI. S&M. RMS FAULT CURRENT' 11(1$.% ) -10(. ! AMPS)DEG " THEVENIN E#UIVALENT IMPEDANCE' $.+1 , 1.%( !PU" THEVENIN IMPEDANCE X)R RATIO' $./1 AS&M RMS 1) C&CLES 1$(/./

INTERRUPTING AMPS  C&CLES $ C&CLES 11((. 11(1(.1

 C&CLES 11(1$.%

% C&CLES 11(1$.%

INI. S&M. RMS FAULTED BUS VOLTAGES ! PU ) DEG " AT TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C--0.0000 ) 0.0 0.0000 ) 0.0 0.0000 ) 0.0 INI.

RMS FAULTED CURRENT ! AMPS ) DEG " AT TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C--11(1$.% )-10(.( 11(1$.% ) 1$. 11(1$.% ) 1.

BUS #DG BUS-TF BUS #DG BUS-TF

==== INI. S&M. RMS S&STEM BUS VOLTAGES ! PU ) DEG " ======= FIRST BUS FROM FAULT AT TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C--$%0.0 0.0+0 ) -%$. 0.0+0 ) 1+. 0.0+0 ) $+. ========= INI. RMS S&STEM BRANCH FLOWS ! AMPS " ============= FIRST BRANCH FROM FAULT AT TIME = 0. C&CLES BRANCH NAME VBASE LL -PHASE A-PHASE B-PHASE CBUS #DG CBL-#DG $%0. 11(1$.%)-10(. 11(1$.%) 1$. 11(1$.%)1.

-------------------------------------------------------------------------------------BUS SUB

VOLTAGE BASE LL' 1$%00.0 !VOLTS" INI. S&M. RMS FAULT CURRENT' ((1.( ) -+. ! AMPS)DEG " THEVENIN E#UIVALENT IMPEDANCE' 0.0$ , 0.+( !PU" THEVENIN IMPEDANCE X)R RATIO' $. AS&M RMS 1) C&CLES $(1.1

INTERRUPTING AMPS  C&CLES $ C&CLES ((+.0 ((1.

 C&CLES ((1.(

% C&CLES ((1.(

INI. S&M. RMS FAULTED BUS VOLTAGES ! PU ) DEG " AT TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C--0.0000 ) 0.0 0.0000 ) 0.0 0.0000 ) 0.0 INI.

RMS FAULTED CURRENT ! AMPS ) DEG " AT TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C--((1.( ) -+(.+ ((1.( ) 1.$ ((1.( ) (.$

BUS SUB

==== INI. S&M. RMS S&STEM BUS VOLTAGES ! PU ) DEG " ======= FIRST BUS FROM FAULT AT TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C--BUS CELESC 1$%00.0 0.00/( ) -. 0.00/( ) 1+%. 0.00/( ) %. BUS-TF $%0.0 0.0000 ) 0. 0.0000 ) 0. 0.0000 ) 0. BUS SUB ============ INI. RMS S&STEM BRANCH FLOWS ! AMPS " =========== FIRST BRANCH FROM FAULT AT TIME = 0. C&CLES BRANCH NAME VBASE LL -PHASE A-PHASE B-PHASE CBUS CELESC BUS SUB CBL-SUB 1$%00. ((1.() -+. ((1.() 1. ((1.()(. BUS SUB BUS-TF TRAFO 1$%00. 0.0) 0. 0.0) 0. 0.0)0. -----------------------------------------------------------------------------------***************** ************** *** F A U L T

A N A L & S I S

R E P O R T **************** *************** *

FAULT T&PE' SLG MODEL INDUCTION MOTOR CONTRIBUTION' &ES MODEL TRANSFORMER TAPS' &ES MODEL TRANSFORMER PHASE SHIFT' &ES ============================================================================== BUS #DG

VOLTAGE BASE LL' $%0.0 !VOLTS" INI. S&M. RMS FAULT CURRENT' 11((+. ) -10(. ! AMPS)DEG " THEVENIN E#UIVALENT IMPEDANCE' 11.01 , $%. !PU" THEVENIN IMPEDANCE X)R RATIO' $.(+ SE#UENCE E#UIVALENT IMPEDANCE 1' $.+1 , 1.%( !PU" ' $.+1 , 1.%( !PU" 0' $.%+/ , 1.1 !PU" AS&M RMS 1) C&CLES 1$1%%.

INTERRUPTING AMPS  C&CLES $ C&CLES 11(.( 11((+.(

 C&CLES 11((+.

% C&CLES 11((+.

INI. S&M. RMS FAULTED BUS VOLTAGES ! PU ) DEG " AT TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C--0.0000 ) 0.0 0.//0/ ) -10.1 1.00$ ) %/. INI.

RMS FAULTED CURRENT ! AMPS ) DEG " AT TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C--11((+. )-10$./ 0.0 ) 0.0 0.0 ) 0.0

BUS #DG

==== INI. S&M. RMS S&STEM BUS VOLTAGES ! PU ) DEG " ======= FIRST BUS FROM FAULT AT A T TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C---

BUS-TF BUS #DG BUS-TF

$%0.0

0.0%+ ) -++.

0.//0$ )-1(/.

0.//0+ )

%/.

============= INI. RMS S&STEM BRANCH FLOWS ! AMPS " ============= FIRST BRANCH FROM FAULT AT TIME = 0. C&CLES BRANCH NAME VBASE LL -PHASE A-PHASE B-PHASE CBUS #DG CBL-#DG $%0. 11((+.)-10(. 0.0)-10(. 0.0)-10(.

--------------------------------------------------------------------------------BUS SUB

VOLTAGE BASE LL' 1$%00.0 !VOLTS" INI. S&M. RMS FAULT CURRENT' (%/(.$ ) -+. ! AMPS)DEG " THEVENIN E#UIVALENT IMPEDANCE' 0.1 , .(%0 !PU" THEVENIN IMPEDANCE X)R RATIO' $.%0/ SE#UENCE E#UIVALENT IMPEDANCE 1' 0.0$ , 0.+( !PU" ' 0.0$ , 0.+( !PU" 0' 0.( , 0.//+ !PU" AS&M RMS 1) C&CLES +%.

INTERRUPTING AMPS  C&CLES $ C&CLES (/01.0 (%/(.

 C&CLES (%/(.$

% C&CLES (%/(.$

INI. S&M. RMS FAULTED BUS VOLTAGES ! PU ) DEG " AT TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C--0.0000 ) 0.0 1.01+ ) -1(. 1.0(1 ) 1.0 INI.

RMS FAULTED CURRENT ! AMPS ) DEG " AT TIME = 0. C&CLES ---PHASE A-----PHASE B-----PHASE C--(%/(.$ ) -+.$ 0.0 ) 0.0 0.0 ) 0.0

BUS SUB

==== INI. S&M. RMS FIRST BUS FROM ---PHASE BUS CELESC 1$%00.0 0.00% BUS-TF $%0.0 0.0(0 BUS SUB ============== INI. FIRST BRANCH BRANCH NAME BUS CELESC BUS SUB CBL-SUB BUS SUB BUS-TF TRAFO

S&STEM BUS VOLTAGES ! PU ) DEG " ======= FAULT AT TIME = 0. C&CLES A-----PHASE B-----PHASE C--) -1. 1.01 )-1(. 1.0(0 ) 1. ) -. 0.1$0 )-1(. 1.0000 ) /0. RMS S&STEM BRANCH FLOWS ! AMPS "============= FROM FAULT AT TIME = 0. C&CLES VBASE LL -PHASE A-PHASE B-PHASE C1$%00. (%/(.$) -+. 0.0) -+. 0.0) -+. 1$%00. 0.0) 0. 0.0) 0. 0.0) 0.

-------------------------------------------------------------------------------***************** ************** *** F A U L T A N A L & S I S S U M M A R & *************** ------------------------------------------------------------------------------ ------------------------------------------------------------------------------BUS NAME VOLTAGE AVAILABLE FAULT CURRENT L-L $ PHASE X)R LINE)GRND X)R BUS #DG BUS SUB

$%0. 1$%00.

11(1$.% ((1.(

$. $.+

11((+. (%/(.$1

$. $.%

*********************** FAULT ANAL&SIS REPORT COMPLETED ***********************

E%

CR)E'RM )E E CURRENT IN AMPERES

0.5 1000

1

0 0 1

10

K 1

K 0 1 1000

22 A 21 A

Nam TRA'O 500.0 =>A 18,00.0 ( 8,0.0 > Pr C)nn. D+%a S$ C)nn. ? @"r)un* B 6.00 X(R 4.6

100

S D N O C E S N I

100

10

10

Nam C7&!D" 7us 7US0008 8 3 120 mm2 &n/%h 20.0 M%rs

E M I T 1

Nam 'US CE&ESC Manu#a$%urr T
Nam !1 !D" !D" Manu#a$%urr MER&IN "ERIN 'ram(M)*+ NT0,-1 'ram(Car%r*/ ,00.0 A Sns)r(Tr ,00.0 A S%%n/s Phas Ir 0.41.0 3 In 0., 640A 0.5 Is* 1.510 3 Ir 4 2560A Ts% 00.4s 0.1 I2% O## & 215 3 In 6 4,00A

0.01

TCC Nam Pr)%. 'as Tra#) On+n Mar$h 11: 2015 42, PM

Nam C7&SU7 7us 7US0001 1 3 85 mm2 &n/%h 20.0 M%rs

51

1

TX Inrush 0.10

T I M E I N

Nam RE&E SU7 Manu#a$%urr PEXTRON CT Ra%) 850 ( 5 A 'ram(M)*+ URPE 9104 S%%n/s Phas I ar%*a 0.2516.0 0.2516.0 3 RTC 0.81 21.9A EI: E3%rmamn% In;rsa 0.14 I ns% 0.25100 3 RTC 8.8 281A 0.10

5465 A

50 0.01

Currn% S$a+ 3 10 R#rn$ >)+%a/ 18,00 SKM S@s%ms Ana+@ss: In$.

S E C O N D S

%

CR)E'RM )E 'E*TR CURRENT IN AMPERES 0.5

1

1000

0 0 1

10 21 A

K 0 1

T3 Inrush ( nu%r)D 80B Inrush * #as

11 A

Nam TRA'O 500.0 =>A 18,00.0 ( 8,0.0 > Pr C)nn. D+%a S$ C)nn. ?@"r)un* B 6.00 X(R 4.6

100

S D N O C E S N I

K 1

1000

100

10

10 T I M

E M I T

51N

Nam 'US CE&ESC Manu#a$%urr T
1

TX Inrush 0.10

Nam C7&SU7 7us 7US0001 1 3 85 mm2 &n/%h 20.0 M%rs

1

Nam RE&E SU7 Manu#a$%urr PEXTRON CT Ra%) 850 ( 5 A 'ram(M)*+ URPE 9104 S%%n/s Nu%ra+ I *# 0.1550 0.1550 3 RTC 0.15 10.5A 10.5A T *# Tm) D#n*) 0.25 I ns% 0.1550 3 RTC 1 90A

E I N S E C O N D S

0.10

414 A

50N 0.01

0.01

TCC Nam Pr)%. Nu%r) Tra#) On+n 'ruar@ : 2015 848 PM

Currn% S$a+ 3 10

R#rn$ >)+%a/ 18,00 SKM S@s%ms Ana+@ss: In$.

%

CR&T CR&TR R& & PR R  * *TE TE  ) ) PRT PRTE+ E+6E 6E  ) ) *-E *-ET T+ +, ,

Função 51: A=s+$ $, 9] aci,a da d$,anda c*n+ra+ada d$ 98 ;^. In

371kW



13;8kV 

3





&;92

16;9 A

Ajuste  16;9  1;3  22 A

Ajuste  22 

5 35&



&;31 As,c

A +$,#*ri6a&1* da 2n&1* 2*i a=s+ada d$ 2*r,a a c**rd$nar c*, * dis=n+*r \ =san+$ $ * 2s/0$l a ,*n+an+$. O dis=n+ dis=n+*r *r d* s$cnd7ri s$cnd7ri* * d* +rans2 +rans2*r,a *r,ad*r d*r 2*i a=s+ad* a=s+ad* $, 2n&1* 2n&1* da d$,anda d$,anda c*n+ra+ada d$ 98 ;^. In

371kW



&;38kV 

Ajuste



612;7 A 8&& A



3  &;92



612;7 A

&;76

P*r+an+*4 * a=s+$ d* dis=n+*r s$r7 d$ 4 ) In. Função 50: A=s+$ $, @ a ] aci,a da c*rr$n+$ d$ Inrsh d* +rans2*r,ad*r. Função 51N: A=s+$ da c*rr$n+$ d$ #ar5da $, 9] da d$,anda c*n+ra+ada d$ 98 ;^.

U,a 0$6 -$ 2*i n$c$ss7ri* a,$n+ar a,$n+ar a r$la&1* d*s CTs d$0id* a* Icc4 n1* 2*i #*ss/0$l i,#l$, i,# l$,$n $n+a +arr $s $s+$ +$ a= a=s+ s+$$ $, 9] da d$, d$,and andaa c*n c*n+r +ra+ a+ada ada44 #*i #*iss * ,/n ,/ni,* i,* a= a=s+ s+$$ #$r,i5d* n* r$l3 3 ,ai*r -$ is+* Ga#r*)i,ada,$n+$ Ga#r*)i,ada,$n+$ F]. D$s+a 2*r,a a c*rr$n c*rr$n+$ +$ d$ #ar5da 2*i a=s+ada n* ,/ni,* 0al*r #$r,i5d*. A +$,#*ri6a&1* da 2n&1* 2*i a=s+ada d$ 2*r,a a c**rd$nar * 2s/0$l a ,*n+an+$.

Função 50N: A=s+$ $, 9] da c*rr$n+$ a=s+ada #ara a #r*+$&1* ins+an+Yn$a d$ 2as$

G@4 d$ 2*r,a a >aran5r -$ n1* ha0$r7 2alsa a+a&1* dran+$ * Inrsh d$0id* a circla&1* d$ har,nicas d$ s$-ncia 6$r*.

Proteço !e "#$e

Proteço !e %e&tro

Multplos

Tempo (seg)

I fase (A)

Multplos

Tempo (seg)

I neuro (A)

84  @  8

4 949 4 48 488

4  88 8F 

84  @  8

4@ 4@ 4@  

84 8 @4@  8@

ITALO ITALO LUNA CORR'A En>$nh$ir* El$+ricis+a CREASC F9

0354.ELE.estudoProteção.R04

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