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NEUTRAL
GROUNDING / EARTHING RESISTORS: |
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| Neutral
Grounding / Earthing
Resistor panels up to 33 KV. |
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PURPOSE:
Neutral
Grounding / Earthing Resistors are employed in AC Distribution Networks
to limit the Restricted Earth Current to a safe value which would
flow from the Transformer or Generator star point in the event of
an earth fault in the system without exceeding specified temperature
limits. In case of short time rating, dissipation is negligible
& the temperature rise for the resistor element depends on its
capacity to store the energy generated in proportion to the mass
& specific heat of the material used. Theses NGR’S are
connected between the neutral point of transformer / generator &
the earth. |
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In
no Earth fault condition continious current of 5 % to 10 % of
full load current may pass through the resistor due to unbalance
in system.
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In
Earth fault condition the Restricted earth fault current passes
through the Metallic Resistor protecting the system till automatic
protection takes place by absorbing the earth pressure, protecting
the winding etc.
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When
the current flows continuously for long duration, the temperature
of resistor element increases and then stabilizes at a value for
which energy supplied is entirely dissipated to the atmosphere.
Hence these resistors are designed for allowing maximum heat dissipation |
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Important
Definitions & Construction:
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Rated
Voltage : For neutral grounding / earthing resistor rated voltage
means line- to neutral voltage i.e. System Voltage divided by
root3 i.e. 1.732.
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Rated
Current : Means Initial current that will flow through resistor
when it is cold. Normally Full load current value is same as
Rated current.
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Time
Rating : It is length of time for which NGR must tolerate rated
voltage.
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Short
Time Rating : Normally it is 10 sec. or 30 sec. or 60 sec. depending
on design parameters of protection system. IS-3043 recommends
30 sec. rating.
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Continuous
Rating : It is normally 10 % of full load current for healthy
system neutral grounding resistor to be designed for continuous
rating of 5 % to 10 % of full load current (if required).
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Material
of Resistance Element : We offer resistor elements made from
any stainless steel or FeCrAl or Cu-Ni or Ni-Cr or any other
resistance material as per requirement. Normally formed stainless
steel element are best and economical for NGRS.
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Temperature
Rise Allowed: Normally Temperature rise is restricted to 375
deg.c. above ambient temperature as per BS-587. It can be 760
deg.c. as per IEEE-32. It can be offered of any other temperature
rise as per customer’s requirement.
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Construction:
NGR include resistor assembly, plus required insulators, internal
connections and hardware etc.
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Cabling
/ Termination : Suitable arrangement and clearance is provided
for termination of cable, flats or bus duct as per requirement
with undrilled removable gland plate.
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Optional
Features Provided On Request:
- Safety
Screen for enclosures.
- Potential
transformers.
- Neutral
Grounding Transformer / Excitation Transformer.
- Supporting
Pedestal structures.
- Stand
off insulators.
- Aluminum
enclosure instead of MS.
- Hot
dip Galvanised enclosures.
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Stainless steel hardware.
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Earth fault leakage Relay.
- Termination
kit.
- Cable
gland.
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INTERNAL
FEATURES OF RESISTOR ENCLOSURES -
Group
of Resistance elements are mounted together to form a Bank.
Banks are then connected in series or parallel to provide the
current and ohmic value required.
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Resistance
banks are bolted on angles welded to the angle iron structure,
facilitating easy drawout facility when required .
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All Resistance Bank to Bank interconnections will be done by
solid stainless steel / copper.
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Insulation between resistance element and supporting tie rod
is provided by a mica tube.
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The
tie rod is insulated from the supporting structure by 3 Groove
Insulators.
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A sloped bottom sheet is welded to the angle iron structure
and drain plug is provided at suitable place.
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In case of continuous current ratings for better heat dissipation,
perforated sheet / jali with welded GI wire mesh is provided
at the bottom.
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Foundation channels welded or bolted to the angle iron structure
are provided on two sides with arrangement to fix on foundation
by bolts at site.
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Indoor enclosures do not have sloping or overhang features of
the canopy. The bottom welded sheet is also not sloped.
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Gland plate for bottom cable entry in terminal box is provided
if applicable. In case of bus duct connections, a flange of
specified dimensions is provided for connection to transformer.
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Terminals are brought through Porcelain bushings of appropriate
voltage class or brought down as per requirement of customer.
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In case of higher voltage, the banks are placed on stand off
insulators housed inside the enclosures, or the enclosures is
also insulated from ground by using stand off insulator if asked
by customer
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ENCLOSURES:
- The
enclosures designed to give degree of protection required as per
customer’s requirement for outdoor application DOP-IP-33.
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Degree of Protection is IP-33 unless otherwise specified however
any degree of protection IP-00 to IP-55 can be offered.
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Canopy is sloped to prevent accumulation of water. Overhang is
provided to cover terminal box.
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Forged Eye bolts on Lifting Angles ensure easy handling.
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Basic construction of enclosure is an angle iron welded structure
which provided rigidity.
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Removable bolted side covers of suitable thickness mild steel
(M.S) are louvered for ventilation. GI wire mesh is welded from
inside to assure required degree of protection. No louvers are
given for IP-55 enclosures.
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Hinged doors are provided whenever any instruments like relays
or meters are to be flush mounted.
PAINTING
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enclosures are painted with synthetic enamel paint of specified
shade. Other option are epoxy paint or Aluminum paint. Pretreatment
which includes degreasing rust / scale removing, phosphating as
per applicable standards is done followed by 2 coats of finishing
paint of required shade. Ovendrying or stoving is done on request.
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TESTS
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(A)
ROUTINE TESTS: - FOLLOWING TESTS WILL BE CONDUCTED. |
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Visual
and Dimensional.
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Insulation
resistance value measurement by using 500V / 1000V megger before
and after dielectric test.
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Resistance value measurement with ± 10 % tolerance.
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H.V. Test of twice the rated voltage +1000 volts for voltage
class below 660 volts or 2.25 times of rated voltage +2000 volts
for voltages above 1100 volts.
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(B)
TYPE TESTS :- |
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Temperature
rise test i.e., Heat run test if required will be conducted by passing
equivalent / rated current for rated / equivalent time keeping I²T
Constant through a part of Resistor. |
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INFORMATION
TO BE FURNISHED TO US: |
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For
Neutral Grounding Resistor: |
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- Material
of Resistor
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Ohmic Value
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Current Rating
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Duty rating 10 sec.,30 sec.,60 sec., & continuous etc.
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If details against ‘2’ and ‘3’ cannot
be given then inform details of transformer such as KVA rating,
full load current, Primary & Secondary Voltage.
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System voltage / operating voltage.
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Type of Enclosure and material for enclosure ( protection class
as per IS- 12063)
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Location: Indoor or outdoor.
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Temperature rise allowed over an ambient temperature.
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Whether space heater, current transformer , isolating switch
on load / off load, manually / motorised, or any other accessories
are required. Details of atmospheric conditions at site and
height above sea level.
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