SIST-TS CLC/TS 50537-3:2010

SLOVENSKI STANDARD
SIST-TS CLC/TS 50537-3:2010
01-april-2010
äHOH]QLãNHQDSUDYH9JUDMHQLGHOL]DWUDQVIRUPDWRUMHYOHþQLKWRNRNURJRYLQKODGLOQL
VLVWHPGHO9RGQDþUSDOND]DYOHþQHSUHWYRUQLNHNRQYHUWHUMH
Railway applications - Mounted parts of the traction transformer and cooling system -
Part 3: Water pump for traction converters
Bahnanwendungen - Anbauteile des Haupttransformators und Kühlsystems - Teil 3:
Wasserpumpe für Traktionsumrichter
Applications ferroviaires - Accessoires des transformateurs de traction et systèmes de
refroidissement - Partie 3: Pompe à eau pour convertisseurs de puissance
Ta slovenski standard je istoveten z: CLC/TS 50537-3:2010
ICS:
29.180 Transformatorji. Dušilke Transformers. Reactors
45.060.01 Železniška vozila na splošno Railway rolling stock in
general
SIST-TS CLC/TS 50537-3:2010 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST-TS CLC/TS 50537-3:2010

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SIST-TS CLC/TS 50537-3:2010

TECHNICAL SPECIFICATION
CLC/TS 50537-3

SPÉCIFICATION TECHNIQUE
February 2010
TECHNISCHE SPEZIFIKATION

ICS 29.180; 45.060.10


English version


Railway applications -
Mounted parts of the traction transformer and cooling system -
Part 3: Water pump for traction converters



Applications ferroviaires -  Bahnanwendungen -
Accessoires des transformateurs Anbauteile des Haupttransformators
de traction et systèmes und Kühlsystems -
de refroidissement - Teil 3: Wasserpumpe
Partie 3: Pompe à eau für Traktionsumrichter
pour convertisseurs de puissance






This Technical Specification was approved by CENELEC on 2010-01-22.

CENELEC members are required to announce the existence of this TS in the same way as for an EN and to
make the TS available promptly at national level in an appropriate form. It is permissible to keep conflicting
national standards in force.

CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus,
the Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy,
Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia,
Spain, Sweden, Switzerland and the United Kingdom.



CENELEC
European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung

Central Secretariat: Avenue Marnix 17, B - 1000 Brussels


© 2010 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members.
Ref. No. CLC/TS 50537-3:2010 E

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Foreword
This Technical Specification was prepared by Working Group 25 of SC 9XB, Electromechanical
material on board rolling stock, of Technical Committee CENELEC TC 9X, Electrical and electronic
applications for railways.
It was circulated for voting in accordance with the Internal Regulations, Part 2, Subclause 11.3.3.3 and
was accepted as a CENELEC Technical Specification on 2010-01-22.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CEN and CENELEC shall not be held responsible for identifying any or all such patent
rights.
The following date is proposed:
– latest date by which the existence of the CLC/TS

has to be announced at national level
(doa) 2010-07-22
The CLC/TS 50537 series “Railway applications – Mounted parts of the traction transformer and
cooling system” consists of four different parts:
• Part 1: HV bushing for traction transformers;
• Part 2: Pump for insulating liquid for traction transformers and reactors;
• Part 3: Water pump for traction converters;
• Part 4: Gas and liquid actuated (Buchholz) relay for liquid immersed transformers and reactors
with conservator for rail vehicles.
1)
The CLC/TS 50537 series shall be read in conjunction with CLC/TS 50534 “Railway applications -
Generic system architectures for onboard electric auxiliary power systems”.
This standardization project was derived from the EU-funded Research project MODTRAIN
(MODPOWER). It is part of a series of standards, referring to each other. The hierarchy of the
standards is intended to be as follows:
———————
1)
Under development.

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Overview on the technical framework
CLC/TS 50534 defines the basis for other depending standards
CLC/TS 50534
Railway applications - Generic system architectures for
onboard electric auxiliary powers systems
Level 1: Architectures
EN 50546
CLC/TS 50535 EN 50533
Shore (external) supply systems
Railway applications - Onboard Three-phase train line voltage
for rail vehicles
auxiliary power converter system characteristics
Level 2: Systems, Interfaces
CLC/TS 50537-1
EN 50547 CLC/TS 50537-2
Part 1: HV bushing for traction
Batteries for rail vehicles
Part 2: Pump for insulating liquid for
transformers
traction transformers and reactors
CLC/TS 50537-4
CLC/TS 50537-3
Part 4: Gas and liquid actuated
Part 3: Water pump for traction
(Buchholz) relay for liquid immersed
converters
transformers and reactors with
conservator for rail vehicles
Level 3: Components
Mounted parts of the traction transformer and cooling system

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Contents
1 Scope . 6
2 Normative references. 6
3 Terms and definitions . 7
4 Operating conditions . 8
4.1 General . 8
4.2 Environmental conditions . 8
4.3 Cooling liquid . 9
4.4 Storage and transport conditions . 9
5 Electrical requirements .10
5.1 Power supply .10
5.2 Electrical connection with three-phase train line .10
5.3 Connector (electrical requirements) .12
5.4 Temporary loss of voltage supply .12
5.5 Insulation class and temperature rise .12
5.6 Starting current.13
5.7 Electrical discharge machining (EDM) .13
6 Mechanical requirements .13
6.1 General .13
6.2 Vibration measurement .13
6.3 Preferred dimensions .13
6.4 Connector (mechanical requirem ents) .17
7 Hydraulic requirements .17
7.1 Hydraulic performance .17
7.2 Hydraulic interchangeability .18
7.3 Preferred values .19
8 Fire protection .23
9 Reliability and lifetime .23
10 Material .24
11 Noise .24
12 M arkings .24
13 Documentation .25
14 Testing .25
14.1 General .25
14.2 List of tests .26
14.3 Description of tests .26
Bibliography .29

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Figures
Figure 1 – Typical connection to three-phase train line . 11
Figure 2 – Connectors with contact arrangement – View onto mating side . 12
Figure 3 – Main dimensions of centrifugal water pumps . 14
Figure 4 – Main dimensions of peripheral water pumps . 16
Figure 5 – Hole pattern of the preferred connector socket . 17
Figure 6 – Hydraulic interchangeability across the allowable operating range . 18
Figure 7 – Hydraulic interchangeability across an actual flow rate . 19
Figure 8 – Pump characteristic (Q-H-diagram) at a frequency of 50 Hz . 20
Figure 9 – Pump characteristic (Q-H-diagram) at a frequency of 60 Hz . 20
Figure 10 – Pump characteristic (Q-P-diagram) at a frequency of 50 Hz . 21
Figure 11 – Pump characteristic (Q-P-diagram) at a frequency of 60 Hz . 21
Figure 12 – Pump characteristic (Q-H-diagram) at a frequency of 50 Hz and 60 Hz . 22
Figure 13 – Pump characteristic (Q-P-diagram) at a frequency of 50 Hz and 60 Hz. 23
Tables
Table 1 – Main dimensions of centrifugal water pumps – Hydraulic system and fastening . 14
Table 2 – Main dimensions of centrifugal water pumps – Motor including connector . 15
Table 3 – Main dimensions of peripheral water pumps, motor data . 16
Table 4 – Material of pump casing – Minimum temperature . 24
Table 5 – Maximum A-weighted sound power level, LWA in dB, rated load condition . 24
Table 6 – List of tests . 26

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1 Scope
This Technical Specification covers requirements for centrifugal and peripheral electric pumps which
generate the circulation of cooling liquid in converters of rail vehicles and their associated cooling
system.
The pumps covered in this Technical Specification are rotodynamic pumps driven by canned motors
or magnetically coupled motors.
CLC/TS 50537-3 gives consideration to both technical and normative requirements of the railway
environment and restricts the variety provided by industry-wide standards for pumps (for example
EN 50216-7, EN 733 and EN ISO 9906). It determines requirements and tests enabling the
interchangeability especially regarding electrical, mechanical and hydraulic interfaces. Furthermore,
service conditions are described.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
2)
Railway applications - Fire protection on railway vehicles
TS 45545 (series):2009
CLC/TS 50467 Railway applications - Rolling stock - Electrical connectors,
requirements and test methods
3)
CLC/TS 50534 Railway applications - Generic system architecture for onboard electric
auxiliary power systems
EN 733:1995 End-suction centrifugal pumps, rating with 10 bar with bearing bracket -
Nominal duty point, main dimensions, designation system
4)
Flanges and their joints - Circular flanges for pipes, valves, fittings and
EN 1092-1:2001
accessories, PN designated - Part 1: Steel flanges
EN 1092-2:1997 Flanges and their joints - Circular flanges for pipes, valves, fittings and
accessories, PN designated - Part 2: Cast iron flanges
EN 1092-4:2002 Flanges and their joints - Circular flanges for pipes, valves, fittings and
accessories, PN designated - Part 4: Aluminium alloy flanges
EN 1561:1997 Founding - Grey cast irons
EN 1563:1997 Founding - Spheroidal graphite cast irons
EN 1706:1998 Aluminium and aluminium alloys - Castings - Chemical composition
and mechanical properties
EN 10283:1998 Corrosion resistant steel castings
EN 12162 Liquid pumps - Safety requirements - Procedure for hydrostatic testing
EN 50125-1:1999 Railway applications - Environmental conditions for equipment -
Part 1: Equipment on board rolling stock
EN 50216-7:2002 Power transformer and reactor fittings - Part 7: Electric pumps for
transformer oil
———————
2)
Part 5 is of CENELEC origin – Other parts are from CEN.
3)
Under development.
4)
Superseded by EN 1092-1:2007.

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EN 50347:2001 General purpose three-phase induction motors having standard
dimensions and outputs - Frame numbers 56 to 315 and flange
numbers 65 to 740
3)
EN 50533 Three-phase train line voltage characteristics
EN 60034-1:2004 Rotating electrical machines - Part 1: Rating and performance
(IEC 60034-1:2004)
EN 60034-7:1993 Rotating electrical machines - Part 7: Classification of types of
+ A1:2001 construction, mounting arrangements and terminal box position
(IM Code) (IEC 60034-7:1992 + A1:2000)
EN 60034-9:2005 Rotating electrical machines - Part 9: Noise limits
+ A1:2007 (IEC 60034-9:2003, mod. + A1:2007)
5)
EN 60085:2004 Electrical insulation - Thermal classification (IEC 60085:2004)
EN 60349-2:2001 Railway applications - Rotating electrical machines for rail and road
vehicles - Part 2: Electronic converter-fed alternating current motors
(IEC 60349-2:1993, mod.)
EN 60529:1991 Degrees of protection provided by enclosures (IP Code)
+ A1:2000 (IEC 60529:1989 + A1:1999)
EN 60721-3-5:1997 Classification of environmental conditions - Part 3: Classification of
groups of environmental parameters and their severities -
Section 5: Ground vehicle installations (IEC 60721-3-5:1997)
EN 61373:1999 Railway applications - Rolling stock equipment - Shock and vibration
tests (IEC 61373:1999)
EN ISO 9906:1999 Rotodynamic pumps - Hydraulic performance acceptance tests -
+ corr. Dec. 2004 Grades 1 and 2 (ISO 9906:1999)
EN ISO 15783 Seal-less rotodynamic pumps - Class II - Specification (ISO 15783)
ISO 281:2007 Rolling bearings - Dynamic load ratings and rating life
SAE J 518:1993 Hydraulic Flanged Tube, Pipe, and Hose Connections, Four-Bolt split
flange Type
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1
centrifugal pump
pump where the axis of the impeller is the same as the rotation axis of the pump motor, typically fitted
with a radial impeller. A typical centrifugal pump is a pump with suction and discharge nozzle pointing
in perpendicular direction.
Centrifugal pumps within the scope of this Technical Specification are leakage free and driven by
canned motors
3.2
peripheral pump
pump with a peripheral impeller, typically laid out with radial symmetric impellers. The axis of the
impeller is the same as the rotation axis of the pump motor. The suction and discharge nozzle typically
point in the same direction.
Peripheral pumps within the scope of this Technical Specification are leakage free and driven by
magnetically coupled motors
———————
5)
Superseded by EN 60085:2008.

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3.3
inline-pump
pump with the suction and delivery flanges lying on the same axis
3.4
canned motor
liquid-filled asynchronous squirrel-cage rotor motor with a rotor and bearings immersed and operating
in the fluid pumped by the pump. The stator winding is sealed off against the fluid in the rotor
compartment by a high-grade steel tube or can
3.5
magnetically coupled pump
pump where the motor and the impeller each have a separate shaft. The transmission of RPM / torque
is carried out with a magnetic coupling, the outer part of which rests on the motor shaft. The inner part
of the magnetic coupling rests on the same shaft as the impeller. The inner and outer part of the
magnetic coupling are separated by a separating can
4 Operating conditions
4.1 General
The water pump is used for the cooling of converters on rail vehicles. The operation of the water pump
may be affected by the conditions that occur under normal train service conditions, e.g. corrosive
gases, carbon dust and other matter from brake shoes and pads or vibration stress.
Among all service conditions described in this part, malfunction of the pump shall not occur.
4.2 Environmental conditions
The pump shall ensure appropriate functioning under the given conditions:
Temperature range:
• Environmental temperature: -25 °C . 80 °C
Other values may be agreed between customer
and supplier.
• Transport and storage:
-50 °C . 80 °C
Condensation shall be avoided. See also 4.4.
Altitude: up to 1 400 m
(EN 50125-1:1999, class A1)
Humidity: 0 % . 100 %
Climate class: EN 60721-3-5:1997, 5K2
Biological classification: EN 60721-3-5:1997, 5B2
Chemical classification: EN 60721-3-5:1997, 5C3
Contamination: EN 60721-3-5:1997, 5F3
Mechanical-active matters: EN 60721-3-5:1997, 5S3
Rain: EN 60721-3-5:1997, 5K3
Solar radiation: EN 60721-3-5:1997, 5K3
Shock and vibration: The pump shall be able to withstand vibration and
shock as stated in EN 61373. See also 14.3.14

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4.3 Cooling liquid
The cooling liquid shall be a mixture of water (drinking water according to national regulations) and
anti-freeze. It shall be qualified for the intended use as a heat transfer medium within the temperature
range according to 4.2. Adequate corrosion protection shall also be taken into account.
The following characteristics of the anti-freeze shall be agreed between customer and manufacturer:
• type. In case of no agreement in the contract, Antifrogen N or identical shall be assumed;
mixing ratio water – anti-freeze. Unless otherwise agreed in the contract, a mixing ratio of 56:44
•
shall be assumed;
maximum size of suspended solids. Unless otherwise agreed in the contract, a size of < 100 µm
•
shall be assumed;
maximum content of solids. Unless otherwise agreed in the contract, a value of 340 mg/l shall
•
be assumed;
maximum hardness of solids. Unless otherwise agreed in the contract, a value of ≤ 4 on the
•
Mohs scale shall be assumed;
• permanent usage temperatures. Unless otherwise agreed in the contract, a temperature range
from -25 °C up to 95 °C shall be assumed.
Canned motor cooling and plain bearing lubrication shall be effected by circulation of the liquid being
pumped.
The pump manufacturer shall make sure that under these conditions malfunction of the pump will not
occur.
4.4 Storage and transport conditions
As far as possible, the pumps shall be delivered ready to be installed.
Before storage or transport, it shall be ensured that the pumps are clean and free of all foreign matter
and contamination.
Covers shall be provided and securely attached to the pump flanges during transport and/or storage
and appropriate steps taken to ensure that there is no deterioration caused by condensation. Suitable
packaging shall be chosen depending on the place and method of delivery. To prevent any possible
damage resulting from long-term storage (e.g. on bearings, sealings), the manufacturer shall specify
the way and orientation in which the pump shall preferably be stored.
The interior of the water pump shall be protected against corrosion by an appropriate, water
removable preservative. The preservative shall be environmentally friendly.

If oils or solvents are used, the maximum volume of the preservative shall not be more than 0,2 % of
the pump volume.

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5 Electrical requirements
5.1 Power supply
The preferred value and the characteristics of the supply voltage are defined in EN 50533. Other
values shall be agreed between manufacturer and customer.
The pumps shall be qualified for direct switch on within the defined operating range of voltage and
frequency.
Additionally, the pump shall be able to start between 90 % and 110 % rated voltage within the
temperature range defined in 4.2 while using the cooling liquid given in 4.3 without excessive heating.
The manufacturer shall specify the permanent current at rated voltage which the motor is able to
withstand without being damaged.
A terminal for PE shall be provided (see Figure 1).
5.2 Electrical connection with three-phase train line
Figure 4 shows how the pump is typically connected to the three-phase train line.

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Key
A1: Safety device with e.g.
- Fuses
- Motor protecting switch
X1: Socket housing
X2: Connector
M1: Motor with socket housing
Figure 1 – Typical connection to three-phase train line

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5.3 Connector (electrical requirements)
The manufacturer shall make sure that the connector is suitable for the intended use. Especially
starting currents according to 5.6 shall not cause thermal problems.
Figure 2 shows the contact arrangement of the preferred connectors (see also Figure 1, X1) which are
mounted to the pump and represent its electrical interface.


a) Option 1: Smaller 5-pole connector b) Option 2: Larger 6-pole connector

Figure 2 – Connectors with contact arrangement – View onto mating side
Other connectors or contact arrangements shall be agreed between manufacturer and customer.
As an alternative, designs without connectors are permitted. In this case, cables with permanent labels
shall be provided to show the connections required for correct rotation of the pump. This option shall
be agreed between manufacturer and customer. The cable used shall fulfil the relevant fire protection
standards in accordance with Clause 8.
Important mechanical requirements of the connector are described in 6.2.

5.4 Temporary loss of voltage supply
Motors shall be capable of recovering normal operation in the event of a system disturbance (e.g.
passing of intersections) causing temporary loss of supply voltage for a period of up to thirty seconds
followed by a sudden restoration initially to 90 % of the rated voltage.
Temporary loss of voltage supply can also lead to short-time extreme loads acting on the bearings
because of suboptimal lubrication while continuously being exposed to shock and vibrations. Bearings
shall not be damaged in this situation.
See also 14.3.11 and 14.3.14.
5.5 Insulation class and temperature rise
The stator winding insulation shall conform at least to EN 60085, class F and shall be non-
hygroscopic.
The temperature rise of canned motors shall not exceed the value defined by the chosen insulation
class.

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5.6 Starting current
The starting current at rated voltage shall not exceed seven times the rated full load current of the
motor subject to the tolerances given in EN 60034-1, as appropriate.
5.7 Electrical discharge machining (EDM)
In order to avoid electrical discharge machining, the manufacturer shall make sure that the bearings
are suitable for the intended use.
6 Mechanical requirements
6.1 General
Centrifugal pumps shall be suitable for installation with the axis of the rotating unit in either horizontal
or vertical position with the motor above or below the hydraulic section. Peripheral pumps shall be
mounted with the axis of the rotating unit in horizontal position. If other positions are to be used this
shall be made known to the manufacturer. Appropriate self-ventilation shall be ensured for all
mounting positions.
All parts of the pump directly exposed to the cooling liquid shall be able to withstand at least the
working pressure of 10 bar. It shall be ensured that no leakage occurs.
6.2 Vibration measurement
The motor of the pump shall be equipped with areas so that accelerometers can be attached to the
pump in order to allow operators the regular measurement of vibrations.
6.3 Preferred dimensions
This Technical Specification defines a grid of preferred dimensions for water pumps to be used within
the railway environment. Other dimensions shall be agreed between customer and manufacturer.
Pumps with other dimensions shall comply with all other requirements of this Technical Specification.
6.3.1 Centrifugal pumps
The dimensions and the external interface of the water pump shall be agreed between customer and
manufacturer.
In order to be distinguishable from other types of pumps, centrifugal pumps are labelled with the
letter C (for centrifugal) followed by a number, e.g. C.1.
A centrifugal pump C.x shall comply with the associated main dimensions given in Figure 3 and
Tables 1 and 2. This requirement is met if
- the dimensions defining the external interface (DN1, DN2, a, h1, h2, b2, m2, n2, see Table 1) are
met, and
- all other dimensions are equal to or smaller than the values given in Figure 3 in conjunction with
Tables 1 and 2.

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Figure 3 – Main dimensions of centrifugal water pumps
Table 1 – Main dimensions of centrifugal water pumps – Hydraulic system and fastening
Type Dimensions
mm
a
DN DN a h h d b b m m n n s
1 2 1 2 1 2 1 2 1 2 1
C.1 50 32 80 112 140 226 50 14 100 70 190 140 15
C.2 50 32 80 112 140 226 50 14 100 70 190 140 15
C.3
50 32 80 132 160 241 50 14 100 70 240 190 15
C.4 50 32 80 160 180 277 50 14 100 70 240 190 18
C.5 50 32 80 132 160 238 50 14 100 70 240 190 15
C.6 50 32 80 160 180 277 50 14 100 70 240 190 18
C.7 65 40 80 132 160 246 50 14 100 70 240 190 15
a
With tolerance + 2 mm.

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Table 2 – Main dimensions of centrifugal water pumps – Motor including connector
Type Dimensions
mm
f g m g g g g
1 d 2 3 4 5
C.1 250 150 125 55 - -
C.2 409 50 170 - - 5 82
C.3
409 50 170 - - 5 82
C.4
409 50 210 - - 25 82
C.5 409 50 210 - - 25 82
C.6 409 50 210 - - 25 82
...