Programa de Fonte de Energia - em inglês

Surge Arresters
Supply Program
Power Transmission and Distribution
1
Surge Arresters
from Siemens –
Always the Best Solution
We offer an extensive range
of surge arresters suitable
for every application –
economical and ensuring
stable continuous duty, with
excellent protection levels
and loading capacity.
Short delivery periods
for fast availability
Metal-enclosed 3ES surge
arresters from Siemens.
The 420-kV switchgear in
Macclesfield/Great Britain
was retrofitted with Siemens
surge arresters in a very
short time.
Developments in technology and practical experience
have resulted in three different designs of surge
arresters, which differ with regard to the housings
used:
■ Surge arresters with porcelain housings
■ Surge arresters with polymer housings
■ Surge arresters with metal enclosures.
Siemens offers each of these three types of housing
in various versions and this enables us to provide
the optimum surge arrester for every conceivable
application.
Thus Siemens surge arresters can be specifically and
optimally tailored to the following requirements and
applications:
■ Excellent pollution layer characteristics for
coastal and desert regions or in areas with
extreme industrial air pollution
■ High mechanical stability, e.g. for use in
seismic zones
■ Extremely reliable pressure relief behavior
for use in areas requiring special protection.
What is more, all Siemens surge arresters are sized
for decades of operation in their design and material
used and provide a contribution towards the protection
of the environment.
2
Surge Arresters for
Every Requirement
With our comprehensive supply program, we are
able to offer the right arrester for every application –
for economical and reliable operation.
Our surge arresters protect transformers, generators,
motors, capacitors, traction vehicles, and cables as
well as complete switchgear.
Arresters for special applications
are possible, too. These include the following:
■ For motors and dry-type transformers
extremely sensitive to surges
■ Vibration-resistant surge arresters and
limiters for AC and DC traction systems
■ High short-circuit-proof versions for generators
in power plants
■ Metal-enclosed versions for high-voltage
gas-insulated switchgear
■ For thyristors in HVDC transmission systems
■ For capacitor batteries in static compensators
■ For airfield lighting systems
■ For electric furnaces in the glass and
metal industries
■ For test bays.
Transmission Line Surge Arrester
Transmission line surge arresters
from Siemens reliably protect your
overhead power lines.
■ Maintained or better reliability
when stepping up system voltages
■ No need of further guard wires
■ No need to replace existing
insulators
■ Fewer switching surges
■ Cost-effi cient solution
3
Our Product Range is Being Continually
Extended by Other Innovative Products
Our arresters and limiters cover all areas of application.
What is more, we are continuously adding innovative
product ideas to our supply program – to the benefit of
our customers.
An example of this are surge arresters with polymeric
composite housings. This housing consists of a glassfiber-reinforced plastic tube with a silicone rubber
insulation. Thanks to its design and the high quality
of the materials used, this arrester offers a number
of advantages, such as absolutely reliable pressure
relief behavior and high mechanical strength – even
after pressure relief. Of particular advantage is the
water-repellent effect of the silicone rubber which is
also transmitted to pollution layers.
Besides their high resistance in outdoor conditions,
Siemens surge arresters with polymeric housings also
have a long service life and can be disposed of in an
uncomplicated manner.
4
Fig. above
Innovative products for extreme requirements
In Tian-Guang, China, Siemens modernized
4 sections of an HVDC transmission system.
The Siemens thyristor valves were protected by
state-of-the-art 3EQ3 arresters.
Fig. below
Reliability under extreme climatic conditions
In Montagnais, Canada, Siemens erected three
advanced series 3-phase static compensators
protected by arrester banks (consisting of parallelconnected multi-stack arresters) to improve the
quality of power transmission.These arresters even
withstand extreme temperatures of –50 °C to +40 °C.
Fig. above right
Resistant to wind and weather
Our 3EQ surge arresters with polymeric composite
housing are particularly resistant against contamination and all kinds of weather conditions.
Siemens High-Voltage Surge
Arresters with Polymeric Housing
The 3EQ range
The 3EL range
The 3EL range
Siemens surge arresters of cage design:
cage of prestressed FRP rods for high
mechanical strength, silicone directly
molded onto MO blocks.
MO
Best price-performance ratio for
applications up to Um = 300 kV.
FRP rods
Nitrogen
FRP tube
Silicone
rubber sheds
The 3EQ range
Siemens surge arresters of tube design:
FRP tube for highest mechanical strength,
silicone directly molded onto FRP tube.
Best choice for applications up to
Um = 800 kV, especially applications with
advanced or highest technical
requirements.
Siemens offers you two different arrester
types with polymeric housing for standard
applications as well as for applications
with advanced or highest technical requirements: 3EL and 3EQ. Choosing one
or the other, you will always get the best
price-performance ratio whatever your
application is.
Silicone is highly hydrophobic. There are
many polymeric materials with hydrophobic
properties, but most of them loose their
hydrophobicity after a relatively short
period. Only silicone has the ability to
maintain its hydrophobicity during its
lifetime. This results in a long service life
of our 3EL and 3EQ arresters.
Our 3EL and 3EQ arresters use the same
MO blocks as our arresters with porcelain
housing resulting in the same excellent
electrical performance. The use of polymeric housings consisting of FRP‘s and
silicone rubber leads to additional
advantages:
■ Highly improved pollution
performance and
■ Flexibility of erection due to
reduced weight.
Silicone rubber has been used as outdoor
insulation material for more than 25 years
with good service experience even under
severe climatic and environmental conditions. Today it is the most widely used
polymeric material for HV outdoor
equipment.
Additional important properties of
silicone are:
■ Its resistance to tracking erosion and
UV radiation that also enhances the
working life of our arresters
■ The fact that silicone is fire-retardant
and self-extinguishing
■ Silicone is directly molded onto MO
blocks and fiber-glass rods ensuring
total enclosure of all components to
prevent from partial discharges or
moisture ingress
■ Good mechanical performance for
standard applications
■ Short circuit: Low-pressure escape of
the arc due to the silicone shielding,
no need of any pressure relief device
■ Easy transport and installation due to
■
■
■
■
■
■
considerably lower weight compared
to porcelain arresters
Suitable as station arrester and/or
transmission line arrester
Design with FRP tube offers outstanding
mechanical stability (much stronger
than porcelain) combined with an
excellent sealing system to prevent
from moisture ingress and partial
discharges
Highest degree of safety in the event
of short circuit due to pressure relief
device, no ejection of any internal
components
At least 75 % mechanical strength
retained even after short circuit,
therefore arrester can be used as
post insulator
Less weight than comparable
porcelain arresters
Ideal for areas with potential seismic
activity, heavy windloads and any other
advanced mechanical requirements
5
Medium-Voltage Metal Oxide
Surge Arresters and
Limiters 300 V to 72.5 kV
3EF1 120 - 0
IN 1 kA
UC 9 kV
UR
r 15 kV
K1998
Special applications
3EF1
3EF3
3EF4
3EF5
Applications
3EE2
Motors, dry-type transformers,
airfield lighting systems, sheath
voltage limiters, protection of
converters for drives
Generators, motors, melting
furnaces, 6-arrester connection, power plants
Nominal system voltage (max.)
kV
10
30
Highest voltage for equipment (max.)
kV
12
36
Maximum rated voltage
kV
15
45
kA
3EF1
3EF3
3EF4
3EF5
1
1
10
10
10
kJ/kVr
3EF1
3EF3
3EF4
3EF5
0.8
4
12.5
8
10
A
3EF4
3EF5
1500
1200
1200
Nominal discharge current
Maximum energy absorption capability
(at thermal stability)
Maximum long duration current impulse, 2 ms
Maximum short-circuit rating
kA
40
300
Housing material
Polyethylene
Porcelain
Design principle
3EF1 – Polyethylene directly
molded onto MO; 3EF3/3EF4/
3EF5 – Hollow insulator
Hollow insulator
Pressure relief device
no
yes
1) Silicone rubber sheds
6
Medium voltage
Distribution class
Railway applications
3EB2
3EC3
3EB1
3EK7
DC overhead contact lines
DC systems (locomotives,
overhead contact lines)
AC and DC systems
(locomotives, overhead
contact lines)
Distribution systems and
medium-voltage switchgear
1.5
3
25
70
2
4
30
72.5
2
4
37 (AC)
4 (DC)
60
10
10
10
10
10
10
10
3.52)
1200
1200
850 (AC)
1200 (DC)
325
40
40
40
20
Silicone
Porcelain
Silicone
Silicone
Directly molded
Hollow insulator
Hollow insulator, silicone
directly molded onto FRP tube
Cage design, silicone directly
molded onto MO
no
yes
yes
no
2) Energy absorption capacity under the conditions of the operating duty test acc. to IEC 60099-4
7
High-Voltage Metal Oxide Surge
Arresters (72.5 to 800 kV)
Porcelain
Applications
3EP5
3EP4
3EP2
Medium- and highvoltage systems,
outdoor
installations
Medium- and highvoltage systems,
outdoor
installations
High-voltage
systems, outdoor
installations
High-voltage
systems, outdoor
installations, HVDC,
SC&SVC applications
Nominal system voltage (max.)
kV
110
345
500
765
Highest voltage for equipment
(max.)
kV
123
362
550
800
Maximum rated voltage
kV
96
288
468
612
Maximum nominal discharge
current
kA
10
10
20
20
3
3
5
5
8
8
13
25
A
850
850
1600
5000
Maximum short-circuit rating
kA
40
65
65
100
Maximum permissible service
load
kNm
21)
4.51)
12.51)
341)
Maximum line discharge class
Maximum energy absorption
capability (at thermal stability)
Maximum long duration current
impulse, 2 ms
kJ/kVr
Housing material
Porcelain
Design principle
Hollow insulator
Pressure relief device
yes
1) MPDSL acc. to IEC 60099-4
8
3EP3
Silicone
3EL2
3EQ1
3EQ4
3EQ3
Medium- and high-voltage
systems, station and transmission line arrester
Medium- and high-voltage
systems, outdoor installations
High-voltage systems,
outdoor installations
High-voltage systems,
outdoor installations, HVDC,
SC&SVC applications
500
345
500
765
550
362
550
800
420
288
468
612
20
10
20
20
4
3
5
5
10
8
18
27
1200
850
2100
5500
65
50
65
80
4.02)
62) 3)
212) 3)
722) 3)
Silicone
Silicone directly molded
onto MO
Silicone
Hollow insulator, silicone
directly molded onto FRP tube
no
2) MPSL acc. to IEC 60099-4
yes
3) > 75 % of this value are maintained after pressure relief
9
Metal Oxide Surge Arresters
for GIS (72.5 to 800 kV)
3ELS-D/3ES2-E
single-phase
3ES5-F/3ES5-G/3ES5-H
single-phase
3ES9-J
single-phase
High-voltage systems, protection of metal-enclosed gas-insulated switchgear
and transformers
Applications
Nominal system voltage (max.)
kV
150/220
150
220/345/525
765
Highest voltage for equipment
(max.)
kV
170/245
170
245/362/550
800
Maximum rated voltage
kV
156/216
156
216/288/444
612
Maximum nominal discharge
current
kA
20
20
20
20
4
4
4/5/5
5
10
10
10/13/13
18
1200
1200
1200/1600/1600
2100
50
50
65
65
Maximum line discharge class
Maximum energy absorption
capability (at thermal stability)
Maximum long duration current
impulse, 2 ms
Maximum short-circuit rating
Maximum permissible
service load
Housing material
Pressure relief
10
3ES5-B/C
three-phase
kJ/kVr
A
kA
kNm
–
Metal
yes
Siemens Facilities
Siemens manufactures arrresters in Berlin,
Germany and Wuxi, China. All arresterrelated testing facilities as well as research
and development, sales and order processing
are located in Berlin.
In close vicinity are some of the most powerful high-voltage and high-power test
facilities, the “Siemens test laboratories“.
Close collaboration of research, design and
manufacturing ensures continuous improvement and perfect quality.
Safe due to extensive tests
One example of the extensive tests carried out with highly
modern testing equipment is the measuring of residual voltage
with a nominal discharge current of 10 kA, 8/20 µs on a
3EP2 arrester for a 245-kV system.
Control devices for surge arresters
Recording, signaling and monitoring
devices supply the necessary information on the discharge process
and the condition of the arresters.
11
Siemens AG
Power Transmission and Distribution
High Voltage Division (PTD H51)
Nonnendammallee 104
13629 Berlin
Germany
Please contact us at:
Phone: +49 (30) 3 86-33 222
E-mail: [email protected]
Order No. E50001-U113-A12-V8-7600
Printed in Germany
Dispo 30000
TH 263-060594 101953 PA 09061.0
www.siemens.com/arrester-download
The information in this document contains general descriptions of the technical options available, which do not always have to be present in individual cases.
The required features should therefore be specified in each individual case at the time of closing the contract.