Download - 109.08 SEO Domestic Sewage Submersible Pump
COMMENTS :
Sign. N.
Sign. N.
Sign. N.
C Sign. N. 18/04/2011
B Sign. N. 13/12/2010
A Sign. N. 11/10/2010
RE
V ETABLI ESTABLISHED
VERIFIE CHECKED
APPROUVE APPROVED DATE MODIFICATIONS STAT
Approved Approved as noted Returned for correction For information
Date : ………………………….. Signature : ……………………………. LAHMEYER INTERNATIONAL
GOVERNMENT OF THE REPUBLIC OF THE SUDAN MINISTRY OF IRRIGATION AND WATER RESOURCES
MEROWE DAM PROJECT IMPLEMENTATION UNIT
MEROWE DAM PROJECT 10 x 140MVA
CONTRACTS 3A, 3B, 3C, 3E
ENGINEER:
CONTRACTOR:
OPERATING & MAINTENANCE MANUAL DOMESTIC SEWAGE SYSTEM – SEWER SHAFT PUMPS
-SEO- (91SEO001PO / 002PO)
SCALE 1/1
Subcontractor:
INTERNAL USE
Power Environment Hydro
REV C
SH/SH END 1/
N of SH AHS MRW00SEO.OM.109.08
Ce document propriété de ALSTOM ne doit pas être utilisé, copié ou communiqué à des tiers sans son autorisation This document is the exclusive property of ALSTOM and shall not be used copied or communicated to third parties without their prior authorization
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CHAPTER
B) List of Illustrations 3
C) Introduction: 4
C1) General Description of Equipment ………… 5
C2) Brief Description of Equipment Use ………… 6
C3) Definitions and Technical Terms Used 7C4) List of items used 11
D) Detailed Description of Equipment ……… 12 FLOW DIAGRAM ………… 13
TECHNICAL DATASHEETS ‐ PUMP ………… 15
‐ PUMP DATASHEET ………… 16
‐ GENERAL PUMP OUTLINE ………… 21
‐ GENERAL ARRANGEMENT DRAWING ………… 22
‐ INSTALLATION PLAN MECHANICAL SEAL ………… 27
‐ DIMENSION TABLES ………… 28
‐ GENERAL OUTLINE ‐ INSTALLATION SET ………… 29
‐ GENERAL ARRANGEMENT DRAWING WET WELL INSTALLATION ………… 28
‐ ELECTRICAL CONNECTION DIAGRAM ………… 34
‐ OPERATIONAL DIAGRAM ‐ MOISTURE MONITORING ………… 36
‐ ASSEMBLY INSTRUCTIONS IMPELLER ………… 37
‐ ASSEMBLY INSTRUCTIONS ‐ CUTTER ………… 40
‐ DISMANTLING/ ASSEMBLY S IMPELLER ………… 40
‐ FITTING INSTRUCTIONS FOR STEEL DOWELS ………… 41
‐ PUMP FLOW CURVES ………… 42
E) Operating Principles and Characteristics ………… 43
F) Operating InstructionsG) Testing and Adjustment
‐ GENERAL ………… 51
‐ SAFETY ………… 51
‐ TRANSPORT & STORAGE ………… 52
‐ DESCRIPTION OF PUMP ………… 52
‐ ASSEMBLY INSTALLATION ………… 53
‐ START UP ‐ SHUT DOWN ………… 53
‐ TROUBLESHOOTING ………… 58
H) Maintenance Instructions: …… 59
H1) Preventive Maintenance ………… 60
H2) Repair and Adjustment ………… 63
H3) Spare Parts Lists ………… 69 STOCKAGE OF SPARE PARTS ………… 71
GENERAL ARRANGEMENT DRAWINGS WITH PARTS LIST ………… 73
H4) Special Tools Lists ………… 79H5) List of Suppliers ………… 80
J) As Built Drawings ………… 81
50
OPERATION & MAINTENANCE MANUAL
PAGE
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B) LIST OF ILLUSTRATIONS
SITE TEST REPORTS SEO – DOMESTIC SEWAGE – SANITARY WASTEWATER TREATMENT SYSTEM
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C) INTRODUCTION
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C1) BRIEF DESCRIPTION OF EQUIPMENT
SEWER SHAFT SEAL PUMPS
LIST OF MAIN EQUIPMENT:
REFERENCE DESCRIPTION MODEL SUPPLIER
91SEO001PO/002PO DOMESTIC SEWAGE PUMPS AMAREX KRTS 40-250/62UG-S
MANUF: KSB SUPPLIER: HYTEC
¹*) The INSTRUMENTS AND VALVES are described in the OMM of Valves and Instruments (ITY system)
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C2) DESCRIPTION OF USE OF EQUIPMENT
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C3) DEFINITION OF TECHNICAL TERMS Centrifugal Submersible Pump: A pump and its electric motor together in a protective housing which permits the unit to operate under water. Centrifugal pump is a rotodynamic pump that uses a rotating impeller to increase the pressure and flow rate of a fluid. Centrifugal pumps are the most common type of pump used to move liquids through a piping system. The fluid enters the pump impeller along or near to the rotating axis and is accelerated by the impeller, flowing radially outward or axially into a diffuser or volute chamber, from where it exits into the downstream piping system. Centrifugal pumps are typically used for large discharge through smaller heads.
Head—(1) A measure of the energy possessed by water at a given location in the water system expressed in feet; (2) a measure of the pressure or force exerted by water expressed in feet. Velocity Head—A measurement of the amount of energy in water due to its velocity or motion. Pressure Head—A measurement of the amount of energy in water due to water pressure. Efficiency—A ratio of total energy output to the total energy input expressed as a percent. Priming—The action of starting the flow in a pump or siphon. With a centrifugal pump, this involves filling the pump casing and suction pipe with water. Impeller: The moving element in a pump that drives the fluid.The bladed member of the rotating assembly of the pump which applies the principal force to the liquid being pumped
Backwash: The process of flow reversal to clean a filter and to restore it to the normal clean condition for filtering with a minimum resistance to flow through the media. Cavitation: A condition that occurs in pumps when the water/liquid entering the pump is changed from a liquid state to a gaseous state and back to liquid that is generally caused by too high of flow rate or from pipe that is too small for the flow rate. The formation of vapor bubbles in areas of low pressure in a liquid. Cavitation damage: The pitting or wearing away of a solid surface caused by the collapse of vapor bubbles created by low pressure prior to the damage. Centrifugal Pump: a type of kinetic energy pump using centrifugal force(slinging motion) to accomplish it's work. A pump containing a rotation impeller or rotating vanes mounted on a shaft in a casing and turned by a power source. The rotating impeller uses centrifugal force to deliver water in a steady stream.
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Dead head: Operating point on the curve where unit is pumping zero GPM - also known as Shut-off Head. Diffuser: Operating point on the curve where unit is pumping zero GPM - also known as Shut-off Head. Discharge: Where the water exits the pump Discharge Head: The total head, including static head and friction head, on the discharge side of the pump. Effluent: The output stream exiting the system, filter or other device - often the waste stream Explosion proof: A type of motor enclosure that will prevent sparks generated by the motor from reaching the atmosphere outside of the motor enclosure. As a general rule our company does not sell this kind of motor. Flange: A device used to couple to a pipe on the suction or discharge of a pump Nozzle: An ejector part/device that increases the velocity of the liquid flowing through it by creating a partial vacuum at it's throat. Atmospheric pressure causes the increase in velocity. NPSH: Net Positive Suction Head. There are two types of NPSH. NPSHR is the amount of head required by the pump to keep the liquid being pumped in a liquid state. The only way NPSHR can be changed is by changing the pumps' rotational speed or its impeller diameter. NPSHA is the amount of head available to the pump to overcome the NPSHR. NPSHA should be a larger number than NPSHR. NPSHA is affected by atmospheric pressure changes, altitude, pipe and fitting sizes, and elevation to the liquid being pumped. Operating Pressure: The manufacturer's specified range of pressure expressed in pounds per square inch (PSI) in which a water processing device or water system is designed to function. Pressure Differential: The difference is pressure between two parts of a hydraulic system (influent and effluent of a filter, suction and discharge of a pump, the up and down-stream sides of a venturi or orifice). Pump Strainer: A device, placed on the suction side of a pump, which contains a removable strainer basket designed to trap debris in the waterflow with a minimum of flow restriction Pumping Level: The lowest water level reached during pumping operation.
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Rated pressure: That pressure that is equal to or less than the designed pressure and appears on the dataplate of the equipment Rate of flow: The measurement of the volume of flow per unit of time (m3/s) Recirculating system: The entire system including the suction piping, pump, strainer, filter, face piping and return piping. Self Priming: A pump designed to have the ability to prime itself automatically, after being initially filled, when operating under a suction lift; to free itself of entrained gas without losing prime; and to continue normal pumping operation without attention. Service Factor: A factor indicating the degree to which an electric motor can be operated over the specified horsepower without danger of overloading or failure. Service Pressure: The range of pressure in the pressure tank during the pumping cycle, usually expressed in pounds per square inch gauge (P.S.I.G.). Setting: The vertical distance from the level at which the discharge pipe leaves the well to the bottom of the pump or jet assembly in the well. Shut off head: The head created by a pump that is running against a closed discharge. Static Head: The vertical distance between the free level of the source of the supply and the point of free discharge, or to the level of the free surface of the discharged water. Suction: Where the water enters the pump Suction Head: The total head on the suction side of the pump, including suction lift and friction head. TDH: Total Dynamic Head TDSL: Total Dynamic Suction Lift TEFC: Totally Enclosed Fan Cooled - a type of motor enclosure
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Total Discharge Head: The total pressure or head the pump must develop on the discharge side. It is the sum of THE ELEVATION, THE SERVICE PRESSURE, and THE FRICTION LOSS. Of course, all of these measurements must be expressed in the same units, usually feet of head, before adding them together Vacuum: Negative pressure; a region in a pump or a pipe that is below atmospheric pressure Venturi: A cylindrical tube that gradually increases in size. When used in conjunction with a nozzle, it converts the velocity of the liquid being pumped to pressure. Volute Casing: A pump housing that is spiral or scroll shaped where the suction and discharge pipes screw into the unit. Watts: A measurement of electrical power where watts = volts x amps. One watt is the rate of energy expended when a steady current of one amp flows under a pressure of one volt. 1HP = 746 Watts. Wastewater Wastewater is "used" water, the water leftover after its use in numerous application such as industrial, agricultural, municipal, domestic and on
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C4) List of Items Used
UNIT SYS. NUM TYPE DESIGNATION SUPP. ROOM
91 SEO 001 PO SEWER SHAFT SERVICE PUMP AHS outdoor
91 SEO 002 PO SEWER SHAFT STAND BY PUMP AHS outdoor
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D) DETAILED DESCRIPTION
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FLOW DIAGRAM
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TECHNICAL DATASHEETS PUMPS
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Operating instructions2553.804/8-10 Amarex KRT
Submersible motor pumps
Ident-No. 01 055 329
KSB
Series Amarex KRT
Size DN 40...DN 200
The operating manual contains important information andhazard/danger warnings. It is imperative to read the instructionsset out in the manual prior to installation, making electricalconnections and commissioning. Additional operating instructions relatingto the components of this plant will also have to be observed.
5 2...23 2 (2pol.)5 4...29 4 (4pol.)4 6...12 6 (6pol.)
In principle if any work has to be carried out to the plant all electricalsupplies (inclusive of the control cable) should be disconnected at themains supply switch. The plant has to be safeguarded against accidentalstarting.
Motor sizes
G, GH, HC1, C2Material types
Works-No.: see data plate:
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Amarex KRTKSB
These operat ing i nstructions contain important notes f or theindividual material versions of the below sizes:
Type Size Material version
S, F, E, K, D =impeller type
Cast iron
G G1 G2 GH
S, F, K 40 - 250 S, F, K F, K F F, K
F, E 80 - 250 F, E F F F
F, E, K 80 - 315 F, E, K F, K F F, K
F 100 - 240 F F F F
F, E, K 100 - 250 F, E, K F, K F F, K
F, E, K 100 - 315 F, E, K F, K F F, K
D 150 - 251 D -- -- --
F, E, K, D 150 - 315 F, E, K,D
F, K F F, K
K 200 - 280 K K -- K
K 200 - 281 K --
D 200 - 315 D --
Type Size Material versionF, K =
impeller type Industrial materialH C1 C2
K 40 - 250 K K K
F, K 80 - 315 F, K F, K F, K
F 100 - 240 F F F
F, K 100 - 250 F, K F, K F, K
F, K 100 - 315 F, K F, K F, K
F, K 150 - 315 F, K F, K F, K
F, K 200 - 280 K K K
Contents Page1 General 3
2 Safety 32.1 Marking of Instruction in the Manual 32.2 Personnel Qualification and Training 32.3 Non–compliance with safety instructions 32.4 Safety Awareness 32.5 Safety instructions for the operator / user 32.6 Safety instructions for maintenance,
inspection and installation work 32.7 Unauthorised modification and manufacture 4
of spare parts 42.8 Impermissible modes of operation 4
3 Transport and interim storage 43.1 Transport 43.2 Interim storage / Preservation 4
4 Description of the product and accessories 44.1 Technical specification 44.2 Designation 44.3 Configuration 44.4 Accessories 5
5 Installation at site 55.1 Safety regulations 55.2 Checks to be carried out prior to installation 55.3 Installation of the pump/unit 55.4 Connecting the piping 55.5 Electrical connection 65.6 Assembly of the installation kit 7
6 Commissioning, Start–up / Shutdown 86.1 Commissioning 86.2 Operating limits 86.3 Shutdown / Storage / Preservation 96.4 Returning to service after storage 9
7 Maintenance / Repair 97.1 General instructions 97.2 Maintenance / Inspection 107.3 Drainage / Disposal 117.4 Dismantling 117.5 Reassembly 127.6 Spare parts stock keeping 13
8 Trouble–shooting 14
9 Annexe (survey) 15
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Amarex KRTKSB
General pump outline DN 40...DN 200Motor52...23 2; 5 4...29 4;46...12 6
Diagram data plate
explosionproof version
Works No. / Identity No.
Works No. / Identity No.
Important information for ordering spare parts
Motor No.
Motor No.
Identity No ofexplosionproof certificate
Pump type
Pump type
Fig. 1
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Amarex KRTKSB
B
A
B
Fig. 2aFig. 2b
Motor:23 2,23 4, 29 4
903411.03
Fig. 3
Motor:52,62,82,122,17254,74,114,16446,66,96,126
M=70
81-29.03
A
A
AA
A
81-29.02
A
903411.03
M=25
Fig. 4
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Amarex KRTKSB
Motor:232234,294
Motor:52,62,82,122,17254,74,114,16446,66,96,126
Fig. 9
Fig. 8
Fig. 6
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Amarex KRTKSB
General arrangement drawing
Motor: 40-2505 2...23 2 5 4...29 4 80-2504 6...12 6 80-315
100-240/250 100-315 150-251 150-315 200-280/281 200-315
OW 382 436-00
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Amarex KRTKSB
Z1
Z
D 150-251D 150-315D 100-315
(only D 150-251)
Cable entryH07RN-F 12x5H07RN-F 12x2,5
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Amarex KRTKSB
s=0.
2±0.
1 m
m
Part-No. Part description
23-7 Impeller body
69-14 Leakage detector
80-1 Submersible motor
81-17 Butt joint
81-39 Clamp
81-51 Shim
81-59 Stator
99-17 Desiccant
101 Pump casing
113 Intermediate casing
131 Inlet ring
135 Wear plate
162 Suction cover
163 Discharge cover
230 Impeller
321 Radial ball bearing
322 Radial roller bearing
330 Bearing bracket
410 Profile joint
411 Gasket
412 O-Ring
Part-No. Part description
421 Radial shaft seal ring
433 Mechanical seal
441 Seal casing
500 Ring
502 Casing wear ring
503 Impeller wear ring
529 Bearing sleeve
550 Washer
561 Grooved pin
811 Motor casing
818 Rotor
834 Cable duct
852 Screwed coupling
900 Screw
901 Hexagon head bolt
903 Screwed plug
914 Socket head cap screw
920 Nut
930 Safety device
931 Lockwasher
932 Circlip
S 40-250321.02
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Amarex KRTKSB
Installation plan - mechanical seal
Motor: 5 2...17 2 40-250, 80-2505 4...16 4 100-240, 100-250
Part No. Part description433 Mechanical seal515 Clamping ring
29
H, C2 ••••G, GH, C1
•••• Standard Standard-Varianten
G, GH, C1 ••••
433.02
515
433.01
0W 309130-00
(Balg-mechanical seal)
(Balg-mechanical seal)
GLRD „HJ“
433.02
515
433.01
0W309130-05
(Mechanical seal withcovered springs)
(Balg-mechanical seal)
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1) MindestwasserstandMin. water levelNiveau d’eau mini.
DIN EN 1092-2, PN 16
4 x 18
DN3
165
60B
170
50
Z
V 70
5o
Z
C2A A
B
C
260
780150
DN3
DN1
85
153
448
670
555
a 110
0
200
100
300
18
85
5 7 (C2)
10
110
1)
345
175
600min
600min
450 m
in
220
40300
150
200
20
A - A
C
M16 x 200
102
125
165
Amarex KRT
24
Maßtabelle / Dimension table / Tableau de dimensionsStationäre Aufstellung / Stationary installation / Installation stationnaireSeilführung / Guide wire / Guidage du câble
Baugröße / Size / Taille : KRT 40-250Werkstoffausführung / Material variant / Exécution matériaux : G, G1, G2, GH, H, C1, C2
HydraulikHydraulicsHydraulique
MotorMotorMoteur
Gewicht /Weight / Poids
[kg]y q
DN1 DN3 a1 G H, C1, C2
SK
40-250 5 2 65* 50 545 125 167K 6 2 133 175
8 2 142 184
12 2 575 157 204
17 2 168 215
5 4 545 136 178
7 4 150 192
* bei / only / pour KRT K 40-2500W 382 529 Maße in mm / Dimensions in mm / Cotes en mm
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1) MindestwasserstandMin. water levelNiveau d’eau mini.
DIN EN 1092-2, PN 16
gf
DN2
zf x lf
Kf
Df
T
V DN1
a 2
R2
e2
b2
1)f 2
DN2
Amarex KRT
32
Maßtabelle / Dimension table / Tableau de dimensionsTransportable Aufstellung / Transportable installation / Installation transportable
Baugröße / Size / Taille : KRT 40-250; 80-250; 80-315; 100-240; 100-250Werkstoffausführung / Material variant / Exécution matériaux : G, G1, G2, GH, H, C1, C2
DN2 gf Kf Df zf ∅lf
40 88 110 150 4 18
80 138 160 200 8 18
100 158 180 220 8 18
HydraulikHydraulicsHydraulique
MotorMotorMoteur
Gewicht /Weight / Poids
[kg]y q
DN1 DN2 a2 b2 e2 f2 R2 ∅T V G H, C1, C2
KS
40-250 5 2 65* 40 685 445 225 240 300 400 200 125 167S 6 2 C1: 540 C1: 270 133 175
8 2C1: 540 C1: 270
142 184
12 2 715 157 204
17 2 168 215
5 4 685 136 178
7 4 150 192
FE
80-250 5 4 100 80 717 475 255 225 325 400 200 136 ----E 7 4 150 ----
11 4 747 165 ----
16 4 175 ----
FE
80-315 5 2 80 80 715 470 250 220 320 400 200 134 210EK 6 2 C1: 540 C1: 270 142 218K
8 2C1: 540 C1: 270
151 227
12 2 745 166 242
17 2 177 253
23 2 885 505 254 300
F 100-240 11 4 100 100 755 475 255 255 380 400C1 540
200C1 270
165 225
16 4 C1: 540 C1: 270 175 235
FE
100-250 5 4 100 100 725 475 255 255 380 400 200 141 205EK 7 4 C1: 540 C1: 270 155 219K
11 4 755C1: 540 C1: 270
170 234
16 4 180 244
* bei / only / pour KRT K 40-2500W 382 528 Maße in mm / Dimensions in mm / Cotes en mm
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Amarex KRTKSB
General outline installation set
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Amarex KRTKSB
Wet-well installation with guide wire DN
Motor: 5 2...23 2, 5 4...29 4, 4 6...12 6 40/80/100/150/200
Counter nut
StandardStandard variants
Epoxy resin tarcoating
200-280200-281200-315
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Amarex KRTKSB
Part No. Part description59-17 Shackle59-18 Hook
59-24.01/02 Rope72-1 Flanged bend90-3 Dowel99-6 Round cord410 Profile joint550 Washer571 Clamp572 Clamp732 Holder885 Chain894 Bracket900 Screw902 Stud904 Threaded pin914 Socket head cap screw920 Nut970 Plate
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Amarex KRTKSB
StandardStandard variants0W 309308-00
Wet-well installation transportable DN
Motor: 5 2...23 2, 5 4...29 4, 4 6...12 6 40/80/100/150/200
Epoxy resin tar coating
200-280/281/315
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Amarex KRTKSB
PartNo.
Part description
182 Foot183 Support foot59-17 Shackle59-24 Rope595 Buffer885 Chain892 Foot plate901 Hexagon head bolt902 Stud914 Socket head cap screw920 Nut932 Circlip
D 150-251D 150-315
200-280/281/315
40-250 (G ...H)80-250 (G)89-315100-240, 100-250
100-315, 150-315
80-315, 100-240, 100-250, 100-315, 150-315
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Amarex KRTKSB
Electrical diagram
Motor: 5 2...23 2, 5 4...29 4, 4 6...12 6
Description - Thermal cutout Amarex KRT,explosionproof
With explosionproof motors, t he w indings are prot ected by t woindependent temperature monitoring circuits.Two bi metal s witches F4, F5 (i dentification t ape 21, 22) s erve astemperature monitoring devices which, as soon as the max. windingtemperature is reac hed, s witch of f t he pum p and aut omatically onagain after the windings have cooled down.This requi res t hat t he c onductors are di rectly c onnected to thecontrol circuit of the motor contactor.Three P TC t hermistors R1, R2, R3 (identification tape 10, 11) arefitted as addi tional t emperature controlslimiters which, in the eventof t emperature s witch f ailure, s hut dow n t he pum p bef ore thetemperature permissible f or ex plosionproof appl ications i sexceeded. Automatic reset is not allowed.A thermistor control unit „T“ with manual reset must be installed inthe control circuit of the motor contactors.This equipment is of a c ommercial brand, w hich c an al so bepurchased via KSB.
For operation with frequency converter, a release device bearing thetest mark „PTB 3.53-PTC/A“ must be used.
If the pump has been shut down by thermistors, it is necessary tooverhaul it.In urgent cases the reset may be us ed af ter the motor has cooleddown. The thermistor must not be shut off at any time.
Explosionproof requirements for the pumps are onlymet if the built-in temperature monitoring devices(bimetal switches and thermistors) includingconductors 21, 22, 10, and 11 are connected.
Temperature switchF4, F5 = Monitoring circuit =2 bimetal switches in the motor
windingIdentification tape 21, 22max. operating voltage of switch: 250 Vmax. current: 2 A
R1,R2,R3 = Temperature control circuit = 3 PTC thermistors inthe m otor winding
Identification tape: 10, 11max.operating voltage on terminalsUmax = 30 V =resistance between terminals 10/11- at ambient temperature R 10-750Ω- at shutdown temperature R > 4000 Ω
AttentionDo not test monitoring circuits by means of ahand megger. Use an ohmmeter.
Description - thermal cutout Amarex KRT, non-explosionproof
The winding is protected by one temperature monitoring circuit.
Bimetal switches F4, F5 (identifications tape 21,22) are used fortemperature monitoring. It switches off the pump as soon as themax. winding temperature is reached, and automatically switches iton again after the winding has cooled down.
The bimetal switch must be directly connected to the control circuitof the motor contactor.Conductors 10 and 11 (used for explosionproof version only) will beconnected to dummy terminals.
Power cable Control cable
Motor version X, Y
Motor version U, W
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Amarex KRTKSB
41
Function chart – moisture detection
Function chart - moisture detection(see also wiring diagram)
The motor chamber of t he pum p i s f itted w ith a m oisture-sensitive electrode, which is to be m onitored by m eans of aelectrode rel ay. I n c ase of m oisture penet rating i n t he m otorinterior, a current will flow from te rminal 9 to e arth v ia th emoisture electrode.
B2 = electrode in motor chamberCore identification: 9
K1 = electrode relaySensor circuit 10 - 30 V~Release current 0,5 - 3 mA.
KSB c an provi de you w ith an appropri ate el ectrode relay. Thisrelay needs a power supply 230V~.
Tripping of t he el ectrode rel ay K 1 m ust res ult i n a shutdown ofthe motor. Subsequently a revision of t he m otor w ill benecessary.
Check of moisture-sensitive electrode
An i nsulation res istance m easurement has to be effected inconformity with para 7. 2.1. I f the measured insulation resistanceis < 1 ˜ Ω the motor has to be opened and overhauled.
PE
B2
K 1
9
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Amarex KRTKSB
Assembly instructions-Impeller dismantling/fitting with tapered connection40-250, 80-250,100-240/250
150-25180/100/150-315
200-280/281/315
Size Jacking screw Ident-No.
S,F,K 40-250F, E 80-250F 100-240F,E,K 100-250
M16x60 11197135
F,E,K 80-315F,E,K 100-315F,E,K 150-315K 200-280K 200-281
M20x95 11 197 784
D 150-251 M16x95 11 305 849D 150-315 M20x155 11 305 959D 200-315 M20x180 11 306 084
M16
Ø8
min
20
3225
118
R6
118
M20
Ø8
min
30
50.5
45
11 197 135 11 197 784
Jacking screw
Jacking screw
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Amarex KRTKSB
Assembly instructions-Impeller dismantling/fitting with tapered connection 40-250, 80-250,100-240/250
150-25180/100/150-251/150-315 200-280/281/315
Jacking screw
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Amarex KRTKSB
Removing impellers with taper fit
The f ollowing s equence of operat ions must be observedwhenremoving the impeller:
1. Remove impeller screw 914.10.
2. Use jacking screw to pull off impeller(Tight taper fit-impeller may be firmly locked on shaft).
Screw jacking screw either directly into the impeller 230or into locking sleeve 531, see drawing details oppositeand relevant sectional drawing.
Installation of S/F/E/K/D-Impeller (without locking sleeve
1. Having i nstalled t he pum p-side mechanical seal433.02, pus h t he i mpeller 230 (S/F/E/K/D-impeller)onto the shaft end.
For D 150-251, s crew t hreaded c oupling 852 i nto t heshaft first.
2. Apply Loc tite L
243 to t he t hread of i mpeller s crew914.10.Observe Loctite handling instructions. Screw in impellerscrew 914.10 and tighten with a torque wrench.
S/K/F 40-250 (M10) 50 NmF/E 80-250 (M10) 50 Nm
F 100-240 (M10) 50 NmF/K/E/D 100-250 (M10) 50 Nm
F/K/E 80-315 (M16) 150 NmF/K/E/D 100-315 (M16) 150 Nm
D 150-251 (M10) 50 NmF/K/E 150-315 (M16) 150 Nm
K 200-280/281 (M16) 150 NmD 200-315 (M16) 150 Nm
3. Mount pump casing 101 with bolts 901.14, square nuts920.01 w ith l ockwasher 931 and O-ri ngs 412. 15. Us etorque wrench to t ighten hex . head bol ts 901. 14 Fordata, see installation of E/K-impellers, para 2.
S/K/F 40-250 (M12) 65 NmF/E 80-250 (M12) 65 Nm
F 100-240 (M12) 65 NmF/K/E 100-250 (M12) 65 Nm
D 150-251 (M12) 65 NmF/K/E 80-315 (M16) 150 NmF/K/E 100-315 (M16) 150 Nm
F/K/E/D 150-315 (M16) 150 NmD 200-315 (M16) 150 NmK 200-280/281 (M16) 150 Nm
Adjustment of axial clearance
If an axial casing w ear ri ng i s f itted at t he pum p c asing, t heclearance between the casing and t he i mpeller s hould beadjusted t o 0.5 m m (K 40-250 0. 2 mm) by tightening the bolts901.14. For t he Amarex KRT 200-280/281 (radial clearance) anadjustment is not necessary.
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Amarex KRTKSB
Assembly instruction - Cutter
Dismantling of the S-impeller (Amarex KRT S 40-250)
1. After fitting the pum p-side m echanical s eal 433. 02, pus himpeller 230 ont o t he s haft, f it grooved pin 561.01 into theimpeller.The impeller body 23-7 is f itted ont o t he c entering devi ce.Then f it i mpeller s crew 914. 10 and t ighten it by using atorque wrench.Tightening torque: M 10; 50 Nm
2. Fit pum p c asing w ith j oint O-ri ng 412.16 using hex. screws901.14 and tighten it by a torque wrench.Tightening torque: M 12; 60 Nm.
3. Insert j oint O-ri ng 412. 16 i nto s uction c over 162 and m ountring 500.02 w ith c ylindrical pi n 914. 07 i n t he s uctioncover.Insert s uction c over i nto t he pum p casing until itborders on t he i mpeller bl ades (cylindrical pin 914.15 mustnot protrude f rom the threads of the suction cover!) - but donot yet tighten!
4. Measure the di stance bet ween pum p c asing and s uctioncover and shift the suction cover with cylindrial pin 914.15 byS = 0,2 ± 0,1 mm vis-à-vis the pump casing.Tightening torque: M 12; 30 Nm
5. Make sure t hat t he i mpeller i s runni ng s moothly by t urningitsbody (sliding between s uction c over and i mpeller i s notadmissible).
Dismantling of the S-impeller (Amarex KRT S 40-250)
Dismantling t akes pl ace i n res erve order. The impeller can bepulled of f f rom t he s haft by m eans of t he s ame forcing screwsused for the Amarex KRT K 40-250 (Attention: tight cone seat!)
Pay attention t o as sembly i nstruction „Impeller dismantling /assembly with tapered connection“.
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KRT
46
Amarex
110
80...
25
M12
150
18
89
50
M10
85
10
Iden
t-N
o.:
0106
697
4R
292
247
80N
M!
SW
19
45N
M!
SW
17
Su
pp
lem
ent
(Dim
ensi
ons
inm
m)
(Dim
ensi
ons
inm
m)
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Baureihe-GrößeType-SizeModèle
TipoSerieTipo
NenndrehzahlNom. speedVitesse nom.
Velocità di rotazione nom.Nominaal toerentalRevoluciones nom.
Laufrad-øImpeller dia.Diamètre de roue
ø giranteWaaier øø rodete
ProjektProjectProjet
ProgettoProjektProyecto
Pos.-Nr.Item No.N° de pos.
N° posPos. nr.N° de art
Angebots-Nr.Quotation No.N° de l'offre
N° offertaOffertenr.N° oferta Agence Ile-de-France
4, allée des Barbanniers92635 Gennevilliers Cedex
Laufradaustrittsbreite/Impeller outlet width/Largeur à la sortie de la roueLuce della girante/Waaier uittredebreedte/Anchura de salida rodete
Amarex KRT 40-250F 2900 1/min 160 mm
42 mm42 mm
Aus Kurve K42908/2 gerechnetT222-Ge, Douaud Nicolas, 2007-09-17
0 50 100 150 200 250US.gpm
0 50 100 150 200IM.gpm
0 5 10 15l/s
0 10 20 30 40 50m³/h
0 10 20 30 40 50m³/h
Fördermenge/Flow/Débit/Portata/Capaciteit/Caudal
60
80
100
120
ft
20
25
30
35
16
39
m
FörderhöheTDHHauteurPrevalenzaOpvoerhoogteAltura
4
6
8
10
hp
2
4
6
8
kW
LeistungsbedarfPower InputPuiss. abs.Potenza ass.OpgenomenvermogenPotencia nec.
Qmin
1
1
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E) OPERATING PRINCIPLES AND
CHARACTERISTICS
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AA M-1145-A40215.4/A
1 PURPOSE OF THE DOCUMENT
The purpose of this document is to describe the general function, the maincomponents, the control principles and the interfaces to other systems of thedomestic sewage disposal system pertaining to the MEROWE project.
2 REFERENCE DOCUMENT
2.1 CONTRACT DOCUMENTS
Particular Technical Specification Contract 3E - §36
2.2 ASSOCIATED DOCUMENTS
AHS MRW 00 SEO-SP100: DOMESTIC SEWAGE SYSTEM _ FLOW DIAGRAM
AHS MRW 00 SEP-SP100: DRINKING WATER SUPPLY SYSTEM FLOWDIAGRAM
AHS MRW 00 ITY-MS100: PIPING SPECIFICATION
3 GENERAL DESCRIPTION OF THE DOMESTIC SEWAGE SYSTEM
Domestic sewage from the sanitary facilities of the administration and servicebuilding, the power house, the substation control building and the service area willbe collected in the domestic sewage tank at EL. 241,500 m. Sludge and filterbackwash water originating from the drinking water system will also be directed intothis tank.
Two submergible wastewater pumps (one duty one stand by) of at least 25m³/hcapacity transfer the wastewater via a pressure pipe to the outdoor domesticsewage network at the service area. From this point, the effluents will be directed bygravity to the sewage treatment plant.
The main components of the domestic sewage disposal system are:
- Domestic sewage tank
- Submergible domestic sewage pumps
- Domestic sewage pressure pipe
- Flushing connections
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- Valves
- Instrumentation
4 SYSTEMS MANAGEMENT AND OPERATION PRINCIPLES
4.1 DOMESTIC SEWAGE TANK
The domestic sewage tank (00SEO001BA) is a concrete basin integrated into theservice and administration building at El. 241.5. It is accessible via a manhole fromEl. 247.600.
The usable volume is 20 m³.
It is equipped with
- Support, guiding rope and pressure pipe to install two submergible sewagepumps. The pumps are accessible by a manhole from El. 247.6.
- A basket with a mesh size equal to the free passage of the pump (>75mm) at theinlet, accessible by the manhole from El. 247.6. This is only a safety device toprotect the pumps from extraordinary big parts, which are normally not expectedin the network
- a vent pipe going outside the building
A slight slope at the bottom of about 4% will direct domestic sewage to thesubmergible pumps.
4.2 DOMESTIC SEWAGE PUMPS
Two pumps 00 SEO 001PO and 00 SEO 002PO are installed as domestic sewagepumps to transfer domestic sewage from the domestic sewage tank 00 SEO 001 BAto the outdoor sewage network.
These are submergible centrifugal pumps specially designed for wastewater. Theyare placed inside the domestic sewage tank.
The pumps are equipped with special impellers allowing a free passage of at least75 mm.
This enables to do without strainers or rakes, which would require maintenance.
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The pumps are connected to the pressure pipe using a specially designed bend.The weight of the pump acts as a seal between the pump and the bend. Formaintenance, each pump can be removed and repositioned without emptying thedomestic sewage tank.
One pump is working in normal operation mode and the other pump is working instand-by operation mode. The permutation of the pump is automatic, while thepumps electric supply is ensured from the auxiliary board 20LKA001TB.
- A low level detector 00SEP001SN detects a low level in the tank. The pump inoperation is stopped by the main auxiliaries controller 20KKM001AR.
- A high level detector 00SEO002SN detects a high level in the tank. The normalpump is started by the main auxiliaries controller 20KKM001AR.
- A very high level detector 00SEP003SN detects a very high level in the tank. Analarm is transmitted to the control room and both pumps are started by the mainauxiliaries controller 20KKM001AR.
The following table provides a summary of the main operation principles:
Sensor identification Automatic consequences
00SEP003N↑ : Start of both pumps by thecontroller 20KKM001AR, alarm
00SEP002SN↑ : Start of one pump by thecontroller 20KKM001AR
00SEP001SN↓ : Stop of the pumps in operation bythe controller 20KKM001AR
Note : ↑ represents a level rising in the tank
↓ represents a level decreasing in the tank.
Operating volumes (between start and stop) are defined for operating sequencescompatible with the maximum number of start/stop of pumps. Final levels shall bedefined after detailed calculation taking into account minimum level and pumpcurves to be given by supplier.
At the outlet of the two pumps 00SEO001PO and 00SEP002PO, two manometers,respectively 00SEP001LP and 00SEP002LP, allow the local verification of thepressure levels.
Two pressure logical sensors, respectively 00SEP001SP and 00SEP002SP, ensurethe hydraulic supervision of the flow presence at the outlet of the pumps.
The pumps 00 SEO 001 PO and 00 SEO 002 PO can be isolated for maintenancepurpose respectively by the valve 002 VE as well as 004 VE. Each of these valves isnormally open.
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Two non-return valves 001 VE and 003 VE prevent respectively counter flows on thepumps 00 SEO 001PO and 00 SEO 002 PO.
4.3 DOMESTIC SEWAGE PIPING
Domestic sewage piping will either be PVC or cast iron according to pipingspecification AHS MRW00 ITY MS 100.
The piping shall have continuous slope as far as possible. If high points or lowpoints cannot be avoided, venting valves or draining valves will be installed at suchlocations.
In order to avoid sedimentation during stand still, the pipe diameter will be selectedto assure a minimum velocity of 0,8 m/s.
4.4 FLUSHING CONNECTIONS
A drinking water tap ND 50 with a hose connection and a hose is installed near thepumps. Flushing connections with ND 50 hose connections will be supplied toenable flushing each pump backwards as well as the pressure pipe in case ofblockage or prior to dismantling of the system.
4.5 VALVES
All valves used in the domestic sewage system will be gate valves to avoid anyobstacles that may lead to a blockage.
All check valves will also be of “free flow” type without restrictions or obstacles whenopen.
5 SYSTEM CONTROL PRINCIPLES
5.1.1 Remote control
This system is controlled from the main auxiliaries controller 20KKM001AR.
The selector switches for the pumps 00SEO001PO/00SEO002PO on the auxiliaryboard 20LKA001TB must be set to ‘Remote’.
Based on levels in the tank, detected by level sensors, the sewage control box00SEO001CR sends a starting order to the pump to be started.
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In case the pump to be started is in electrical fault, detected on the auxiliary board20LKA001TB, or in hydraulic fault, detected after a time delay by the pressurelogical sensors, the pump to be started is stopped. This pump is then set to ‘fault’mode and the other pump is started in replacement.
5.1.2 Maintenance and manual control
The pumps are controlled from the auxiliary board 20LKA001TB.
The selector switches for the pumps 00SEO001PO/00SEO002PO on the auxiliaryboard 20LKA001TB must be set to ‘Local’ and all operation must be done throughthis auxiliary board.
The pumps electrical safety devices are in operation.
All operations are done manually under plant personnel responsibility.
Regularly in order to maintain the pumps in the optimal condition, all pumps must beset to ‘Local’ mode, and each of them must be successfully started from the auxiliaryboard 20LKA001TB.
5.2 ELECTRICAL INTERFACES TO OTHER SYSTEMS
Domestic sewage tank 00SEO003BA very high level sensor (00SEO003SN) willinterlock sludge discharge and filter backwashing of the drinking water system.
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6 INTERFACE DATA
Interface Maximum instantaneousflow rate
Average flow rate
Domestic sewage inFlow by gravity intodomestic sewage tank 20m³
50 m³/d
Domestic sewage out 25 m³/h (about 45 m³/h incase both pumps operatein parallel)
50 m³/d
Sludge (0,5-1% solids)from sedimentation tankfrom the drinking waterunit to the domesticsewage tank by gravity
30 m³/h 4,5 m³/d
Back wash waste waterfrom the drinking waterunit to the domesticsewage tank by gravity
10 m³/h 1,5 m³/d
Drinking Water fromdrinking water network
15 m³/h Maintenance andcleaning only
Electrical power Max 17 KW per pump
6.1 INSTRUMENTATION
Sensor DesignationConnection to
controllerPurpose
00SEO001LP 00SEO001PO pumpoutlet pressureindicator
/ 00SEO001PO pumplocal pressure indication
00SEO002LP 00SEO002PO pumpoutlet pressureindicator
/ 00SEO002PO pumplocal pressure indication
00SEO001SP 00SEO001PO pumpoutlet pressure logicalsensor
20KKM001AR 00SEO001PO pumpautomatic control andrunning supervision
00SEO002SP 00SEO002PO pumpoutlet pressure logicalsensor
20KKM001AR 00SEO002PO pumpautomatic control andrunning supervision
00SEO001SN Domestic sewage tank00SEO001BA lowlevel sensor
20KKM001AR Domestic sewagetransfer pumps control
00SEO002SN Domestic sewage tank00SEO001BA highlevel sensor
20KKM001AR Domestic sewagetransfer pumps control
00SEO003SN Domestic sewage tank00SEO003BA veryhigh level sensor
20KKM001AR Domestic sewagetransfer pumps control
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F) OPERATING INSTRUCTIONS
&
G) TESTING AND ADJUSTMENT
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Amarex KRTKSB
1 GeneralThis KSB pump has been devel oped in accordance with the latesttechnology, it was manufactured with great care and i s subject toconstant quality control.The operating manual is designed to introduce the pump to you tomake operation easier and to make full use of all its applications.The operat ing manual contains i mportant i nformation to ensuresafe, correct and ec onomic operat ion. It i s imperative to observethe contents of the operat ing manual to ensure rel iability and l ongoperating life of the pump and to avoid dangerous practices.The operat ing manual does not t ake i nto a ccount any localregulations which have to be complied with by the operator or byany hired installation staff.This pump must never be operat ed outside the limits laid down inthe technical documentation with regard t o pumped media, rate offlow, s peed, dens ity, pre ssure and temperature, i ncluding motorrating or contrary t o any other i nstructions stipulated in t heoperating manual or contract documentation.The data plate states series/size, the most important operating dataand the Works No. /Serial No., which must always be stated whenmaking enquiries, subsequent orders and especially when orderingspare/replacement part s.Should any addi tional information or i nstructions be required, or ifthere i s any damage t o t he equipment, then please c ontact yournearest KSB service.
2 SafetyThis operating manual c ontains basi c i nstructions, which must beobserved during installation, operation and servicing. Therefore it isimperative t hat this manual i s read pri or to assembly by the fitterand relevant skilled staff/and operators, and it must always be keptwithin the locality of the machine/plant.Do not only ob serve t he general safety not es under this section,but as w ell any ot her not es regardi ng safety i ncluded in t hemanual.
2.1 Identification of symbols used within theoperating manual
The s ymbols c ontained w ithin t his m anual calling at tention t osituations w here non–obs ervance c ould endanger l ives, areespecially identified such as:
Warning sign in accordance with DIN 4844 – W9Calling attention to electric current with
Warning sign in accordance with DIN 4844 – W8Safety instructions rel ating t o s ituations where non–observancecould damage the machine and i ts functions are i dentified with theword
Any instructions which are actually printed on the machine such as:
- Arrow indicating the direction of rotation- Identification for fluid connections
must be observed without fail and be kept clean and legible.
2.2 Personnel skills and trainingOperators, as w ell as service, inspection and assembly personnelmust have proof of having the appropriate sk ills to carry out suchwork. A rea of res ponsibility, al location and s upervision of t hepersonnel must be controlled by the operator. Should the personnelnot have t he requi red knowledge, t raining must be arranged. I frequired, the operator can arrange such training to be carried outby the manufacturer/supplier. The operat or must al so ens ure t hatthe instruction manual is fully understood by the personnel.
2.3 Dangerous practices - non–observance ofsafety instructions
Non–compliance with the safety instructions can endanger people‘slives, the environment and the pumps. Non-observance will negateany warrenty daims.In detail, non–compliance could, for example, cause the following:
- Failure of pump/plant to operate
- Failure of servicing and maintenance methods
- Endangering peopl e by c ontact w ith el ectrical, mechanical andchemical matters
- Contamination of the envi ronment by l eakage of dangeroussubstances.
2.4 Safe working methods
The operat or must obs erve al l s afety instructions out lined i n thisleaflet, the ex isting na tional s afety precautions to preventaccidents, and also any i nter–company w orking, operat ing andsafety regulations.
2.5 Safety instructions for operators
- If hot or cold machine parts are considered a danger, then theseparts must be protected where contact is possible.
- Safety equipment to prevent c ontact w ith hot or cold movableparts must not be removed whilst the machine is in operation.
- Leakages (for example at shaft seals) of dangerous media (e.g.explosive, poisonous, hot liquids) must be disposed of in such amanner as to avoid any danger to personnel and environment.
- Danger c aused by el ectric s upply m ust be el iminated (i n t hisrespect, see de tails of any regul ations en forced by individualcountries of the VDE and/or local power supply stations).
2.6 Safety instructions during maintenance,inspection and installation
The operat or bears the re sponsibility t o ensure that all s ervice,inspection and maintenance work is carried out by aut horised andfully trained personnel, who have read and are f amiliar w ith t heoperating instructions.Basically, all work to the plant should only be carried out when themachine is not operating. The operat ing instructions relating to themethod of switching off the equipment must be adhered to withoutfail.Pumps or pl ants pu mping dangerous m edia m ust bedecontaminated.Once maintenance work is c ompleted, all s afety equipment m ustbe reinstated again and checked to ensure they function correctly.Read and f ollow t he poi nt l isted i n the paragraph ”Firstcommissioning” prior to installation.
Attention
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Amarex KRTKSB
2.7 Unauthorised modifications to the pump andfitting of spare parts
Modifications to the pu mp c an onl y be carried out af terauthorisation has been obt ained f rom t he m anufacturer. Originalspare parts and an cillary equipment supplied by the manufacturerprovide s afety. I nstallation of any o ther equipment c ancels theguarantee for any pump failure which occurs as a result of installingnon–manufacturer‘s parts.
2.8 Impermissible modes of operation
Operating safety of the equi pment i s onl y guarant eed i f al loperating i nstructions as out lined i n paragraph 1 - General - areobserved. The l imits gi ven i n t he da ta sheet must under nocircumstances be exceeded.
3 Transport and interim storage
The chain or lifting wire which is suppliedmust only be used for lifting the appropriatepump unit. General use for lifting heavy loadsis not permitted.
Do not lift the pump by the motor cable.
The pu mp must be handl ed carefully duringtransport. The chain or l ifting w ire m ust beattached securely at t he pu mp and crane end.Personnel can be i njured and the pump unitdamaged s hould t he pump s lip out of thechain/guide wire.
3.1 TransportThe motor hous ing/cover of t he pum p has been prepared f orattaching the chain supplied with the unit. For lifting the unit duringunpacking onl y t his prepared f ixing s hould be u sed for at tachingthe lifting chain.
3.2 Storage/conservationThe procedure has been outlined in the paragraph 6.3 ”Shutdown”
4. Description of pump4.1 General description
KSB submersible pumps are s ubmersible, close-coupled uni tswhich are non-self-priming. The impellers in these pumps can vary,depending on the impeller type required by the customers to suit aparticular appl ication. U sually, t he pu mps are operated f ullysubmerged. For short periods, they may run dry un til the minimumfilling level is reached.
4.2 Identification dataIdentification can be found on the data plate, which is f itted to themotor. I llustration dat a pl ate f or non–f lameproof and f lameproofdesign see appendix: ”General pump outline” Fig 1.
4.3 Construction4.3.1 Driver
KSB submersible pu mp s ets are supplied w ith t hree-phaseasynchronous motors c omplete with c onnecting c able.Electrical dat a i n compliance w ith dat a pl ate.Starting method standard: direct or Y∆.
4.3.1.1 Motors in explosionproof designIn accordance with EN 50014/ EN 50018;Protection type EEx d IIB T3 or T4.
4.3.2 Shaft sealThe shaft seal consists of a mechanical seal which is independentof the di rection o f rot ation a t pu mp and motor end. The oi lchamber which is fitted between the two mechanical seals ensurescooling and lubrication.
4.3.3 Bearing assembly
All sizes are fitted with grease-lubricated, maintenance-free deep-groove anti-friction bearings.
Series
Impeller type (D,E,F,K,S)
Hydraulic size
Motor size
Impeller diameter in mm
KRT F 100-240 / 17 2 X 1 G - 190
Number of poles
Motor version (U, W, X, Y)
Identity No.
U = standard versionW = hot water design (max. 60OC)X = explosionproof version T3Y = explosionproof version T4
G = Pump complete in castG1 = GG Pump with impeller in duplex steel 1.4517G2 = GG Pump with impeller in chilled casting 0.9635GH/H = Pump manufactured in chilled casting 0.9635C1/C2 = Pump manufactured in duplex steel 1.4517
2-pole4-pole6-pole
Material version / variants(G, G1, G2, GH/H, C1/C2)
D = diagonal single vane impellerE = single-vane impellerF = free-flow impellerK = non-clogging impellerS = with cutter
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4.3.4 Impeller types
Cutter (S) for faeces, domestic sewage andsewage containing long fibrous admixtures.
Free-flow i mpeller (F-i mpeller) f or pumpingliquids c ontaining l arger s olid part icles andfibres liable to twist and bunc h and al so gasand air inclusions.
Single-vane i mpeller (E -impeller) forpumping l iquids c ontaining larger solidparticles and f ibres liable to twist and bunch,and also for t he dam age-free t ransport ofsolids.
Open, diagonal single vane impeller(D-impeller) f or s ewage w ith s olid and longfibrous admixtures and with coarser solids.
Closed non-clogging impeller (K-impeller) forcontaminated, non-gas eous l iquidscontaining s olids, w ithout f ibres liable totwist and bunch.
4.3.5 Installation methods
- stationary wet-well installation- transportable installation
For detailed installation description, see item 5.6.4.3.6 Dimensions
Information regardi ng di mensions and w eight c an be found inAppendix 4 ”Dimension Tables”.
4.4 Ancillary equipment
Suitable K SB s witchgears are avai lable t o ens ure t rouble-freefunctioning of the m onitoring equi pment. Rec ommendedequipment i s des cribed i n Appendix ”Electrical connectiondiagram”Any information relat ing to other anc illary equipment will be giv enby our Sales Office.
5 Assembly/Installation
5.1 Safety regulations
It is not permitted f or any pers on t o ent er t hetank during operation of the pump unless specialsafety prec autions have been t aken i naccordance with current safety regulations.
5.2 Checking procedure prior to commencement of the installation
Construction l ay-out m ust be i n ac cordance with measurementsset out on the table of dimensions.The construction of the concrete foundations should be sufficientlystrong (Min. B25 in accordance with DIN 1045) to ensure a secureand functionally correct installation in compliance with DIN 1045 orequivalent standard. Concrete foundations m ust have s et bef oreinstallation of the unit. Its surface must be level and even.
5.3 InstallationExamine the uni t c arefully pri or t o c ommencement of i nstallationregarding any dam age i ncurred t o t he unit and cabling duringtransport. B efore i nstallation of t he pum p al l i tems l isted i nparagraph 6.1 have to be checked i n s equence. A s eparate dat aplate stating pump and motor data is supplied within the scope ofsupply. Thi s data plate must be f ixed in a clearly visible positionoutside t he t ank (f or ex ample s witch panel , pipework, mountingbracket).
5.3.1 Checking of operating data
A c heck m ust be c arried out t o ens ure t hat t he det ails s tated onthe data plate correspond to the order and pump data (for exampleoperating voltage, frequency and pumped media temperature etc.).
5.3.2 Oil level control
The oi l c hambers of our s ubmersible pum ps were filled withenvironmentally friendly non–toxic paraffin oil at works.The oil level must be checked prior to initial operation of theunit.Procedure see item 6.1.1
5.3.3 Checking of the direction of rotation
Before starting with the installation, make sure that the direction ofrotation is the correct one, acc. to para. 5.5.6.
5.4 Connection of the pipeline
(Appendix ”General arrangement of installation sets” Fig 1)The discharge pipe must be c onnected t o t he pum p w ithouttension.
AttentionUnder no circumstances must the pump be usedas an anchoring point for the pipeline.
Any expansion of the pipes caused by hi gh temperatures must beadjusted by taking appropriate corrective measures, to ensure thatthe pump does not come under undue stress due to pipeline forcesand torques.
Excessive pipeline forces can cause leakages ofpumped media for example.Toxic and hot media can endanger life.
When emptying objects on a l ower level, a non-ret urn valve mustbe f itted i nto t he di scharge pi pe t o avoi d bac kflow f rom thechannel, which could be led vi a t he bac kflow l evel (road l evel)upwards and only then into the sewage channel.
AttentionScrewed pipeline joints where plastic parts wereused, must not be dam aged by c arelesshandling of tools during the installation of pum pand pipeline.
Fitting of a non-return valve is also essential for longer risingpipes to avoid excessive backflow when the pump is turnedoff. Ensure that ventilation is taken into account when fittinga non-return valve.
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5.5 Electrical connection
General
The electrical connection must be c arried out bya trained electrician and in compliance with localregulations.The voltage must comply with the voltageindicated on the data plate.
Electrical i nstallation m ust be i n ac cordance w ith t he annex es”Electrical installation” and ”Performance lay–out” fo r th eappropriate motor sizes. The pump is delivered with cable..
AttentionDo not remove the protective cover, which issituated at the cable gland until immediatelybefore installation.
The i ndividual c ores of t he c able ends bear m arking t apes (e. g.U(T1). V (T2), W (T3), 21, 22, or 10, 11, ...)If cables have to be s hortened, t ake c are of t he c ore i ndex orcolour i mprints. I n s uch a c ase, rem ove t he c ore marking andreaffix it afterwards.
AttentionWhen l aying an eart h c able bet ween t hepumping s tation and t he el ectrical s witchgear,an addi tional m ulti-core c ontrol cable(min. 1. 5 m m2) m ust be i nstalled for motormonitoring equipment and f loat s witch c ontrol.Adjust cores to suit requirement.
5.5.1 Monitoring equipment
The unit has been s upplied with m onitoring equipment t o preventoverloading. I nstallation, des cription and f unctioning of themonitoring equipment can be t aken f rom Appendix ”Electricalconnections diagrams/circuit diagrams”.
5.5.2 Frequency inverter operationThe gi ven m otor c apacity of P2 c an onl y be us ed up t o 85% .Other s pecial c haracteristics f or t his m ethod of operat ion c an betaken f rom Appendix ”Electrical connections diagram/circuitdiagram“.
5.5.3 Fitting of electric cabling
AttentionAfter installing the uni t, i t i s advi sed t o pos itionthe m otor c able s traight upward i n order not tohave i t af fected by t he s wirl c reated by thepumped liquid.
For correct installation of t he el ectric c abling w ithin t he pum psump (Appendix ”General pump outline” Fig. 5) we recommendto use cable socks, which can be supplied as an addi tional extra(paragraph 4.4). S lack i nstallation of cables could cause damageto t he el ectric c abling bec ause of vi brations when the pump isoperating.
Attention Fitting of cable protection sheath
If a protection sheath is included i n t he s cope of s upply f or t heelectric c abling, i t has t o be f itted ac cording t o t he i nstructionsgiven i n t he s upplementary operating m anual „Assembly ofprotection sheath“.
5.5.4 Overcurrent relay
The motor is protected against overloading by a thermally retardedovercurrent rel ay t o c omply w ith V DE 0660 / IEC 947 andregulations which are in accordance with local requirements. Thisshould be adjusted t o t he nom inal m otor current i ndicated on t hedata plate.
5.5.5 Level control switch
Pumping stations with automatic pump operation should be fittedwith a level control switch. The cut–off point should be set as ‘R’ inaccordance with Appendix ”Table of dimensions”.This prevents an interruption of the delivery by the pump whichwould cause dry running.
5.5.6 Checking of the direction of rotation
Once the electrical connections are complete, the following shouldbe checked:
AttentionThe pum p c annot reac h i ts dut y poi nt i f t hedirection of rot ation i s i ncorrect. Non-observance can lead to damaging the pump set.
Prior t o c arrying out any tests check that thereare no foreign obj ects w ithin t he pum p c asing.Never put hands or any objects into thepump.
AttentionThe running time should be as short as possible(max 3 minutes).
Correct direction of rotation:
If the phase sequence of the circuit is known, the correct directionof rotation will occur automatically, providing the instructions in 5.5have been carried out correctly (rotating of t he m otor t o t he l eft).The di rection of rot ation i s c hecked by s hort s tarts andobservations of the impeller.When looking at the pump mouth, the impeller must move to theleft (w ith s ome pum ps, t he di rection of rot ation i s marked by anarrow).(compare Annexe ”General Pump Outline” Fig. 6).If the direction of rotation is incorrect, interchange 2 of the3 phases in the switch cabinet.
5.5.7 Connection of a potential equaliser
For potential equalisation, follow the instructions to EN 60 204.The potential-equalising conductor is c onnected t o t he ex ternalconnection terminal at the cable entry.(Annexe ”General Pump Outline”)
Special requirements for chemically corrosive media
Do not us e t he out side t erminal i f t he uni t i s us ed f or c hemicallycorrosive media and with a flameproof pump.Instead, the potential equaliser should be f itted t o a f lange at t hedischarge pipe, which does not come into contact with the media.Please ens ure t hat t here i s an el ectrical c onnection bet ween thenewly created potential equaliser and the pump.(Appendix ”General pump outline” Fig. 5).
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5.6 Assembly kit installation
The following assembly kits are available for assembly/installationof the KRT pump unit.
- 5.6.1 Stationary wet-well installation- 5.6.2 Transportable installation
5.6.1 Stationary installation/guide wire
5.6.1.1 Description
(Appendix ”General outline installation set“ Fig. 1).
Stationary installation provides the facility to insert and lif t out thepump unit at any t ime regardless of liquid level within the sump bymeans of a double guide wire.
Guided s ecurely by t wo paral lel, previously tightened stainlesssteel wires the pump slides into the well or tank and attaches itselfto the duckfoot bend which has been fitted to the bottom.The weight of the pump acts as seal between pump and duckfootbend. A profile joint between pump and duc kfoot bend ac hieves apressure–proof el astic c onnection. W alking on t he w ell i s notpermitted during inspection and maintenance work.
5.6.1.2 Scope of supply for stationary wet-well installation
Please refer to the Appendix ”Wet-well installation with partslist”.
5.6.1.3 Installation of pump with claw connectionUse appendix ”Wet-well installation” w ith p arts list fo rguidance.
1. Prior to lowering the pump fit claw 732 to the discharge flangeof the pump housing.Screws have t o be t ightened i n ac cordance w ith t heinstructions. This is described under i tem 7. 5.1 i n t he t able”Bolt tightening torque”.
2. Fit profile seal 410.35 or 99–6 into the groove of the claw/pumpcasing flange. This profile seal will serve to seal the duckfootbend during installation.
5.6.1.4 Fitting of the mounting bracket/duckfoot bend/guide wire
Construction of t he bas e/concrete f oundations should besufficiently s trong (m in. B 25 i n accordance with DIN 1045) toensure a f unctionally c orrect f ixing of gui de wire equipment andduckfoot bend.
Refer to th e d rawing a s illu strated in Appendix ”Wet-wellinstallation with parts list‘ for all installation tasks outlined below.
1. Secure mounting bracket 894 us ing anchor bolt 90-3.37 at thesump opening rim. B orehole di ameter and dept h f or t heanchor bol t have t o be t aken f rom Appendix ”Table ofdimensions”. Bolt tightening i nstructions are out lined i n t hetable below. Bolt tightening torque for steel anchor boltsor foundation bolts”.
As for the hole pattern of t he m ounting bracket refer t o Appendix”Table of dimensions”.
2. Fit threaded bolt 904 with clamping piece 553/ support piece572 to the mounting bracket. Do not unscrew hexagonal nut920.36 too much, just enough to allow sufficient play fortightening the wire subsequently. Ensure that the two clampingpieces 553 are fitted correctly to a support piece.
3. The duc kfoot bend s hould be pos itioned and secured to thebase of the sump so that t he t ightened wire will run v erticallylater on.Should construction/pipework etc. require t he w ire t o run of fthe vertical, then a maximum angle of 5o should be adhered to,thus ens uring s afe f itting f unction.Securing of t he duckfootbend is c arried out by us ing bol ts or f oundation bol tsregardless of pum p s ize or m aterial variation.Units l arger t han approx . 2, 000 k g i n weight are suppliedcomplete with foundation s lide rai ls. Ref er t o Appendix”Dimension Table” and Appendix ”Wet-well installationwith parts list” f or det ails rel ating t o appropri ate f ittinginstructions and hole dimensions.
4. Insertion of w ire and f itting. Li ft t hrust pl ug and clamp andinsert one end of the wire. Lead t he wire around t he duckfootbend 72-1 and back again towards the guide bracket and insertinto clamp of thrust plug. Manually tension the wire and secureby using hex. nuts 920.37.
5. Tighten t he w ire by f astening t he hex agonal nut 920.36situated on top of t he m ounting brac ket(s). Ti ghten t hehexagonal nut w ith a t orque of M A as outlined i n t he t ableAppendix ”Guide wire tension” to ac hieve s ufficient w iretension. Subseqently secure by using a second hexagonal nut.
6. The loose end of the w ire at t he c lamp 572 c an ei ther betwisted i nto a ri ng or t he end c an be c ut of f. A fter l engthadjustment, seal off ends to avoid fraying.
7. Place s hackle 59-18 i nto t he m ounting bracket 894 toenable the lifting chain to be attached at a later stage.
Please obs erve t he f itting i nstructions f or steel bolts given inAppendix "Stationary wet-well installation with guide wire".
Table Bolt tightening torque ”Steel anchor bolt”
Size (ø) Torque (Nm)10 1018 80
Table Bolt tightening torque ”Foundation bolt”
Size (ø) Torque (Nm)12 2516 6520 125
Table ”Guide wire - tension”Size MA
(Nm)P
(N)40-250 100–315 14 6 00080-250 150–31580-315 200-280
100-240 200–281100-250150-251
200-315
MA = tightening torqueP = wire tension
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5.6.1.5 Fitting of chain/lifting wirestationary wet well installation
Installation of this equipment should be c arried out in accordancewith th e ”General pump outline”, Fig. 2a by i nserting t hechain/lifting wire into t he l oop oppos ite t he out let branc h. Furt herdetails can be found in ”Wet–well installation with parts list”.
This t ype of f ixing ac hieves a f orward i nclination of t he pum ptowards the outlet branch and permits the fitting of the pump to theduckfoot bend.
5.6.1.6 Installation of the pump
(Appendix ”General outline installation set” Fig. 1)
The pump is lowered into the sump by gui ding i t f rom above overthe c lamp 572. I t i s t hen at tached t o the guide wire and slowlylowered in to th e s ump. On ce th e p ump is lo wered, it will attachitself t o t he duc kfoot bend 72-1 and i s t hen securely fixed to theoutlet pi pe ready f or us e. Fi nally, at tach t he chain or wire to theshackle 59-18 on the mounting bracket
5.6.1.7 Connection of the pipeline
(Appendix ”General outline installation set ”, Fig. 1)
For procedure, see para. 5.4.
5.6.2 Transportable installation
5.6.2.1 DescriptionPumps f or t ransportable i nstallation are s upplied w ith a pum pstand. The outlet branch with DIN connections lends itself for fittingeither ri gid or f lexible pi ping. Examples for typical installationpossibilities can be taken from Appendix ”General arrangementof installation parts” Fig. 2. A ncillary equipm ent c an berequested and purchased from our sales offices.
5.6.2.2 Components/extent of supply fortransportable installation
For part s s upplied and detailed illustration, see Appendix ”Wet-well transportable installation with parts list”
5.6.2.3 Assembly kit installationPlease ref er t o drawing in Appendix ”Wet–well transportableinstallation with parts list” for assembly.1. The base pl ate or t he pum p s tand m ust be f itted pri or t o
installing the pump. All screws must be t ightened according toinstructions. Ref er t o t able ”Bolt tightening torque”paragraph 7.4.1 for instructions.
5.6.2.4 Assembly chain/lifting wire /transportable installation
Fitting of c hain/lifting w ire s hould be c arried out as out lined i nAppendix ”Wet-well installation transportable with parts list”.
For P umps w ith a m otor c apacity of 4 kW, always use the loopwhich i s f itted on t he di scharge s ide, s ee Appendix ”Generalpump outline” Fig. 2b.
5.6.2.5 Installation of pumpTransportable installation permits to operate the pumps in differentlocations.For example, they can be used for:
draining minesthe emergency draining of canalspumping water out of rivers etc.
For such applications the pump m ust be i nstalled i n a vert icalposition with the motor on the top and fitted to a firm base.
6 Start up/shut down
AttentionIt is important to fulfil the following requirements.Any dam age i ncurred as a res ult of non–compliance is not covered by the guarantee.
AttentionDo not pum p any m edia which i s unsuitable f orthe m aterial out lined i n the technicaldocumentation.
6.1 Initial start up of pump
Prior to starting the pump it has to be ascertained that the followingpoints have been checked and executed:
- Operating data must be checked to comply with paragraph 5.3.1,Oil level, paragraph 6.1.1 and Direction of rotation, paragraph 5.5.6
- Check that the installation of the electrical supply was carried out correctly in accordance with Appendix: ”Electrical connection diagram / operating plans”
AttentionTemperature monitoring in t he w inding prot ectsthe m otor i n c ase of i nsufficient c oolingconditions (e.g. i f pum p i s part ially notsubmerged). Rel iable operat ion and explosionprotection can only be guarant eed i f the c ircuitsfor temperature monitoring function properly.
- Ensure t hat t he pum p has been i nstalled c orrectly t o c omplywith installation kit paragraph 5.6.
- Should the pump have been out of service for a long period, then the steps outlined in paragraph 6.3 must be carried out.
6.1.1 Oil level check
Procedure acc. to Appendix „General Pump outline“ Fig. 3.
Remove screwed plug 903.03 with joint ring 411.03. The minimumoil level must not fall short of measure ”M”. If it is lower, fill th e oilchamber via feed opening until overflow. Regarding oil quality andquantity, see point 7.2.5 (Oil change).Tighten screwed plug with joint ring again.
6.2 Limitations of the operating range6.2.1 Minimum liquid level
The pump is ready for operation when the liquid level has reachedmeasuring mark ”R”.
This m inimum l iquid l evel al so appl ies t o pum ping s tations withautomatic pump operation.(Appendix ”General pump outline” Fig. 7)
”R” = Lowest switch-off point for automatic operation”M” = Minimum liquid level for constant operation
Built-in te mperature c ontrols w ithin th e w inding w ill p rotect themotor f rom overheat ing. I f t he m otor overheat s (for exampleduring l ong operat ion w ith a c ompletely ex posed motor), thebuilt-in temperature controls will switch of f the motor and t urn iton again automatically after cooling down.The c ontrol s ystem m ust provi de a prot ection against dryrunning by stopping the pump automatically (cut-off contact, see5.5.5).
Attention Dry running leads to increased wear andshould be avoided.
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6.2.2 Temperature of pumped media and surroundings
KRT .... type X,Y explosionproof version 40 OC
KRT .... type U 1) 40 OC oras indicatedon data plate
KRT .... type W 1) 60 OC oras indicated
on data plate 1) Can be operated up to 80oC for a limited period (3–5 min. or until
the thermal protection equipment is activated)
AttentionDo not operate the equipment at temperatureshigher than those indicated above, unless themanufacturer has given written consent.Damage caused due to non-observance of thiswarning will not be covered by the guarantee.
6.2.3 Switching frequency
In order to avoid intolerably high temperature rises within the motorand ex cessive overl oading of m otor, s eals and beari ngs, t hefollowing num ber of s witching operat ions per hour (S ) should notbe exceeded:
Motor capacity(kW)
max. S(Switching operations/h)
up to 7.5 30above 7.5 10
6.2.4 Operating voltageThe m aximum adm issible devi ation of t he operat ing vol tageamounts t o ± 10%, with ex plosionproof vers ions t o ± 5% of t herated voltage. The m aximum adm issible vol tage di fferencebetween the single phases amounts to 1%.
6.2.5 Density of pumped mediaPower input of the pump increases proport ionally to the density ofthe pum ped m edium. To avoi d overl oading of the motor thisdensity must comply with the data stated in the order.
6.2.6 Abrasive media
When pum ping m edia c ontaining abras ive part icles, i ncreasedwear of hydraul ic and m echanical s eals must be expected. Themaintenance intervals m ust be hal ved compared t o t hose usuallyrecommended (as outlined in paragraph 8). I n addi tion, i t i srecommended to limit the flow velocity in relation to the rising mainto > 1. 5 m /sec < 5 m s ec i n order t o ac hieve t he m aximumoperating periods possible.
6.3 Shutdown/storage/preservation
If operation is not requi red unt il s ome t ime af ter del ivery, w erecommend the following steps for storage of the pump:
6.3.1 Storage of new pumps
- Spray the inside of t he pum p hous ing w ith oi l by payi ng s pecialattention t o t he area around t he i mpeller gap. S pray oi l t hroughinlet and out let branc hes. I t i s t hen rec ommended t o prot ect t hebranches (with plastic caps or similar).
- Store t he pum p i n an upri ght pos ition i n a dry pl ace. S upport al lelectrical cables at c able ent ry poi nts t o avoi d perm anentdistortion.
- Electric c onnecting c ables are c apped s ecurely f or protectionpurposes prior to delivery. This protection must not be removed.
6.3.2 Measures for prolonged shutdown periods
1. The pump remains installed ready for operation whenrequired.
In order t o secure pum p availability as and w hen required and t oavoid f ormation of depos its w ithin t he pum p and the immediatepump surroundings, the pl ant s hould be s witched on f or bri efperiods (approx. 5 m inutes) onc e every m onth or every t hreemonths as required. It i s es sential t hat t here i s enough pum pedmedia i n t he i nlet area or t hat enough l iquid can be fed into thepump.
2. The pump is dismantled and stored
Prior to storage t he pum p s hould be c hecked and m aintained i naccordance with paragraph 7. 1 and 7. 2. S ubsequently, t hepreservation outlined in paragraph 6.3.1 must be carried out.
6.4 Re-starting pump after storagePrior to r e–starting th e p ump, a ll checks and m aintenance s tepsoutlined i n paragraphs 7.1 and 7.2 have t o be c arried out .
Always disconnect all electricity suppliesprior to working at the pump. Safeguard thepump from being started accidentally.Otherwise, there will be danger to life.
In addi tion, f ree-running of t he i mpeller s houldbe checked. This can be done by putting onehand into the pump casing and manuallyturning the impeller.
When restarting the pump the items outlined in ”Initial operation”paragraph 6.1 and ”Operating limits” paragraph 6.2 have to beobserved.
Immediately after completion of the maintenancework, all safety and prot ection equipment has tobe installed expertly and must be set working.
7. Service and maintenance7.1 General instructionsThe operat or m ust ens ure t hat al l m aintenance, inspection andrepair w ork i s c arried out by qual ified, aut horised s taff w ho arefamiliar w ith t he equipm ent and w ho hav e read t he operatinginstructions.
By compiling a maintenance plan it is possible to cut maintenanceexpenses and avoid extensive repair costs, thus achieving trouble-free and reliable operating of the pump.
Always disconnect all electricity suppliesprior to working on the pump. Safeguard thepump from being started accidentally.Otherwise, there will be danger to life.
If t he pum ped m edia are harmful, the pumpmust be decontaminated. Special care should betaken t o prevent an endangeri ng of personneland envi ronment w hen drai ning leakageliquid/oil. All official regulations must be adheredto.
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8 Trouble-shooting
Cause Remedy:Prior to carrying out work to the pressure containingparts - release pressure from the pump!Disconnect power supply to the pump.
Pump delivers against excessively high dischargepressure
Open discharge valve further until duty point is reached
Valve in discharge pipe not fully open Open gate valve completelyPump not running within operating limits Check operating data of the pump
Pump and/or pipeline are not completely vented orprimed
Vent - by lifting the pump off the duckfoot bend andlowering it back again.
Pump inlet blocked by deposits Clean inlet, pump parts and non return valveInlet pipe or impeller blocked - rotor running sluggishly Remove deposits from within the pump and/or
pipelinesDirt/fibres in impeller chambers Check impeller ensuring that it rotates slightly - if
necessary clean hydraulicWear of internal pump parts Replace worn partsDamaged column pipe (pipe and seal) Replace defective column pipe
Renew sealsUnacceptable air or gas content within the pumpedmedia
Contact your nearest authorised KSB agent
Oscillations caused by plant Contact your nearest authorised KSB agentWrong direction of rotation Switch two phases of the circuit cablingInsufficient operating voltage Check electric supply
Check cable connectionsMotor not running due to no voltage supply Check electrical installation
Inform electrical companyMotor running on two phases only Replace defective fuses
Check electric cable connectionsMotor winding or electric cable defective Replace by new original KSB cabling or contact your
nearest authorised KSB agentRadial bearing in the motor defective Contact your nearest authorised KSB agentWith star delta connection - Motor only running in starposition
Check star delta connection
Water level dropping excessively during operation Check supply and capacity of system - (sump depth)check level control
Temperature monitor for winding control has ceased tooperate due to excessively high winding temperature
The motor will switch on automatically after coolingdown
Thermistor release unit without automatic restart facilityfor temperature limit (flameproof) has been releaseddue to exceeding the permissible winding temperature
Check the pump.
Moisture protection relay has been released due tomoisture within the motor
Check the pump.
Attention: If working inside the pump is necessary whilst the pump is under warranty, then contact your nearest authorised KSB agent prior to commencement of work. Non-observance will negate any warrenty daims.
Unit not pumping Pump delivers insufficiently Current/power consumption too high Head too low Pump operation is uneven and noisy
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H) MAINTENANCE INSTRUCTIONS
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H1) PREVENTIVE MAINTENANCE
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PREVENTIVE MAINTENANCE SCHEDULE
Nr.
Dai
ly
Wee
kly
Mon
thly
3 M
onth
s
6 M
onth
s
Year
ly
2 Y
ears
5 Y
ears
As
Req
uire
d
As S
peci
fied
SEO
1
1.1 X4000 hrs but
at least
once/yr
1.2 X4000 hrs but
at least
once/yr
1.3 X4000 hrs but
at least
once/yr
1.4 X4000 hrs but
at least
once/yr
1.4.1 X4000 hrs but
at least
once/yr
1.4.2 X4000 hrs but
at least
once/yr
1.4.3 X4000 hrs but
at least
once/yr
1.4.4 X4000 hrs but
at least
once/yr
1.4.5 X4000 hrs but
at least
once/yr
2
2.1 X
2.2 X
2.3 X
Replace cables if damage is detected
Check the protection cable, measurement of the
resistance between the cores should be R < 1 Ώ
Ambient and pumped liquid temperature
Low reading of the insulation resistance values indicates
that there is a fault in the winding. Contact
manufacturer.
System /Equipment
SEWER SHAFT PUMPS
Check the insulation resistance of he motor winding with
the cable ends tied together (Must not be less than 5
mega ohm)
If measurements are less, then check cable and motor
separately (with supply cable disconnected from the
motor)
Measurements to be taken:
Check for cracks, bubbles.
Take measurement at the cable ends with a megger:
Measuring voltage: max 1,000 V dc
VISUAL INSPECTION Of THE ELECTRIC CABLES:
OPERATION AND MAINTENANCE MANUAL
INSULATION RESISTANCE CHECK OF MOTOR WINDING:
If the insulation resistance for the electric supply cable is
less than 5 mega ohm, this indicates damage and needs
replacement.
Winding against earth ‐ all winding ends connected to
each other
Winding temperature sensor against earth ‐ all cable
ends of the winding temperature sensors should be
connected to one another and all winding ends be
connected to earth.
91SEO001PO 91SEO002PO
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PREVENTIVE MAINTENANCE SCHEDULE
Nr.
Dai
ly
Wee
kly
Mon
thly
3 M
onth
s
6 M
onth
s
Year
ly
2 Y
ears
5 Y
ears
As
Req
uire
d
As S
peci
fied
SEO
3
3.1 X4000 hrs but
at least
once/yr
3.2 X4000 hrs but
at least
once/yr
3.3 X4000 hrs but
at least
once/yr
3.4 X4000 hrs but
at least
once/yr
3.5 X4000 hrs but
at least
once/yr
4 X4000 hrs but
at least
once/yr
4.1 X4000 hrs but
at least
once/yr
4.2 X4000 hrs but
at least
once/yr
54000 hrs but
at least
once/yr
5.1 X4000 hrs but
at least
once/yr
6 X4000 hrs but
at least
once/yr
6.1 X X4000 hrs but
at least
once/yr
7 X
VISUAL CHECK OF LIFTING CHAIN/LIFTING WIRE:
Verify for damage and replace if damaged.
GENERAL OVERHAUL:
OIL CHANGE:
Follow procedure in chapter 2) for oil change, refilling
and oil specifications.
Replace mechanical seal also if oil is severely
contaminated.
BEARINGS AND LUBRICATION:
The pump motor shaft is supplied with grease‐lubricated
ball bearings.
Temperature Switch: Check resistance between the
connection ends 21 & 22: R < 1 Ώ
PTC ‐ Resistor Sensor ‐ Resistance measuring ‐ resistance
between connection ends 10 & 11: 10 Ώ < R <
750 Ώ
If the given tolerances are exceeded disconnect the
electric supply/control cable at the unit & check again
directly at the terminals of unit. If exceeded again the
winding must be replaced.
Moisture Protection electrode: Insulation resistance
check . If the insulation resistance measured at the
electrode is > 1 MΏ it is ok. If it is lower than there is
intrusion of moisture or water into the motor. Motor
needs to be opened and overhauled
Replace the moisture protection electrode in the event of
damage
OPERATION AND MAINTENANCE MANUAL
System /Equipment
91SEO001PO 91SEO002PO SEWER SHAFT
PUMPS
CHECK OF MONITORING EQUIPMENT:
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H2) REPAIR AND ADJUSTMENT
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6.2.2 Temperature of pumped media and surroundings
KRT .... type X,Y explosionproof version 40 OC
KRT .... type U 1) 40 OC oras indicatedon data plate
KRT .... type W 1) 60 OC oras indicated
on data plate 1) Can be operated up to 80oC for a limited period (3–5 min. or until
the thermal protection equipment is activated)
AttentionDo not operate the equipment at temperatureshigher than those indicated above, unless themanufacturer has given written consent.Damage caused due to non-observance of thiswarning will not be covered by the guarantee.
6.2.3 Switching frequency
In order to avoid intolerably high temperature rises within the motorand ex cessive overl oading of m otor, s eals and beari ngs, t hefollowing num ber of s witching operat ions per hour (S ) should notbe exceeded:
Motor capacity(kW)
max. S(Switching operations/h)
up to 7.5 30above 7.5 10
6.2.4 Operating voltageThe m aximum adm issible devi ation of t he operat ing vol tageamounts t o ± 10%, with ex plosionproof vers ions t o ± 5% of t herated voltage. The m aximum adm issible vol tage di fferencebetween the single phases amounts to 1%.
6.2.5 Density of pumped mediaPower input of the pump increases proport ionally to the density ofthe pum ped m edium. To avoi d overl oading of the motor thisdensity must comply with the data stated in the order.
6.2.6 Abrasive media
When pum ping m edia c ontaining abras ive part icles, i ncreasedwear of hydraul ic and m echanical s eals must be expected. Themaintenance intervals m ust be hal ved compared t o t hose usuallyrecommended (as outlined in paragraph 8). I n addi tion, i t i srecommended to limit the flow velocity in relation to the rising mainto > 1. 5 m /sec < 5 m s ec i n order t o ac hieve t he m aximumoperating periods possible.
6.3 Shutdown/storage/preservation
If operation is not requi red unt il s ome t ime af ter del ivery, w erecommend the following steps for storage of the pump:
6.3.1 Storage of new pumps
- Spray the inside of t he pum p hous ing w ith oi l by payi ng s pecialattention t o t he area around t he i mpeller gap. S pray oi l t hroughinlet and out let branc hes. I t i s t hen rec ommended t o prot ect t hebranches (with plastic caps or similar).
- Store t he pum p i n an upri ght pos ition i n a dry pl ace. S upport al lelectrical cables at c able ent ry poi nts t o avoi d perm anentdistortion.
- Electric c onnecting c ables are c apped s ecurely f or protectionpurposes prior to delivery. This protection must not be removed.
6.3.2 Measures for prolonged shutdown periods
1. The pump remains installed ready for operation whenrequired.
In order t o secure pum p availability as and w hen required and t oavoid f ormation of depos its w ithin t he pum p and the immediatepump surroundings, the pl ant s hould be s witched on f or bri efperiods (approx. 5 m inutes) onc e every m onth or every t hreemonths as required. It i s es sential t hat t here i s enough pum pedmedia i n t he i nlet area or t hat enough l iquid can be fed into thepump.
2. The pump is dismantled and stored
Prior to storage t he pum p s hould be c hecked and m aintained i naccordance with paragraph 7. 1 and 7. 2. S ubsequently, t hepreservation outlined in paragraph 6.3.1 must be carried out.
6.4 Re-starting pump after storagePrior to r e–starting th e p ump, a ll checks and m aintenance s tepsoutlined i n paragraphs 7.1 and 7.2 have t o be c arried out .
Always disconnect all electricity suppliesprior to working at the pump. Safeguard thepump from being started accidentally.Otherwise, there will be danger to life.
In addi tion, f ree-running of t he i mpeller s houldbe checked. This can be done by putting onehand into the pump casing and manuallyturning the impeller.
When restarting the pump the items outlined in ”Initial operation”paragraph 6.1 and ”Operating limits” paragraph 6.2 have to beobserved.
Immediately after completion of the maintenancework, all safety and prot ection equipment has tobe installed expertly and must be set working.
7. Service and maintenance7.1 General instructionsThe operat or m ust ens ure t hat al l m aintenance, inspection andrepair w ork i s c arried out by qual ified, aut horised s taff w ho arefamiliar w ith t he equipm ent and w ho hav e read t he operatinginstructions.
By compiling a maintenance plan it is possible to cut maintenanceexpenses and avoid extensive repair costs, thus achieving trouble-free and reliable operating of the pump.
Always disconnect all electricity suppliesprior to working on the pump. Safeguard thepump from being started accidentally.Otherwise, there will be danger to life.
If t he pum ped m edia are harmful, the pumpmust be decontaminated. Special care should betaken t o prevent an endangeri ng of personneland envi ronment w hen drai ning leakageliquid/oil. All official regulations must be adheredto.
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7.2 Service/Inspection
The following points must be observed to ensure reliableoperation:
This work must only be carried out by experienced personnel!
Item Maintenance tasks Maintenance tobe carried outat followingintervals
7.2.1 Insulation resistance check7.2.2 Visual inspection of electric cables every7.2.3 Check of monitoring equipment 4,000 hours7.2.4 Oil change but at least7.2.5 Bearings and lubrication once a year7.2.6 Visual check of lifting chain / rope
General overhaul every 5 years
7.2.1 Insulation resistance check
The insulation resistance of the motor winding has to bechecked every 4,000 hours but at least once a year duringgeneral maintenance.
Measurements should be taken at the cable ends (disconnected atthe starting panel). The measurement should be t aken by us ing amegger.– Measuring voltage: max 1,000 V d.c. voltage
The insulation resistance of the motor winding with cable ends tiedtogether must not be l ess than 5 m egohm. I f measurements areless, then cable and motor must be checked separately. During themeasurement proc edure t he s upply c able m ust be disconnectedfrom the motor.
The measurements to be taken are:
a) Winding against earth- All winding ends connected with each other
b) Winding temperature sensor against earth- All cable ends of the winding temperature sensors should be
connected to one another and all winding ends be connected to earth
Ambient and pumped liquid temperature
If the insulation resistance for the electric supply cable is less than5 megohm, this indicates damage and needs replacement.
Low reading of the i nsulation res istance val ues of t he m otorindicates that there i s a f ault i n t he w inding. I f t his i s t he c ase,contact ei ther t he m anufacturer or t he neares t K SBAgent/Distributor.
7.2.2 Inspection of the electric cable
- Visual inspection of the electric cable.
Whenever the pump is inspected, the electrical supply cables should also be checked with regard to damage such as cracks or bubbles, due to either mechanical or chemical causes.If such damage is detected, then all electric cables must be replaced.
- Checking the protection cable. Measurement of the resistancebetween the cores should be R < 1 Ohm.
7.2.3 Checking the monitoring equipment
The performance tests should form part of general periodicmaintenance work, carried out every 4,000 hours or at leastannually.
a) Temperature switch – Check resistance between the connection ends 21 and 22: R < 1 Ω
b) PTC–resistor sensor– resistance measuring –resistance between connection ends 10 and 11:10 Ω < R < 750 Ω
If t he gi ven t olerances are ex ceeded, di sconnect the electricsupply/control c able at t he uni t and c heck agai n di rectly at t heterminals of t he uni t. I f t olerances are exceeded here, too, thewinding must be replaced.
c) Moisture protection electrode - Insulation resistance check
The motor area is being monitored by a l eakage detector which isfitted into the motor area. It is fitted as standard.
Instructions rel ating t o perf ormance and technical data can befound in Appendix ”Moisture protection monitoring”.
The moisture monitoring el ectrode i s ok ay i f t he i nsulationresistance measured at t he el ectrode i s > 1 M Ω. Lower val uesindicate moisture or even intrusion of water into the motor. In suchcases, the motor needs to be opened and overhauled.
A NEW MOISTURE PROTECTION ELECTRODE MUST BEFITTED IN THE EVENT OF DAMAGE.
7.2.4 Oil change
The oil c hamber of our s ubmersible pum p has been filled withenvironmentally friendly, non-toxic paraffin oil of medical quality onthe pump end.
However, the oil should be changed after 4,000 operatinghours, but at least annually.
Pumped liquid might enter the oil chamber whenit i s w arm af ter operat ion, w hich c an cause apressure rise within the chamber. It is, therefore,advisable t o c over t he f illing plug 903 (with acloth) duri ng t he openi ng proc ess t o avoi d hotliquid (squirting out) escaping.
Procedure(Appendix 1 - ”General pump arrangement”).
Erect t he pum p as s hown i n Fig. 8 and put a s uitable c ontainerunder t he plug. Rem ove f illing plug 903.03 with gasket 411 anddrain the oil.
The oi l i s l ight i n c olour and t ransparent in appearance. Slightdiscolouring, caused by running in of new mechanical seal or smallleakage of dirt via the pumped media will have no adv erse ef fect.Severe c ontamination of t he oi l by t he pum p media, however,indicates dam aged m echanical s eals. I n t his c ase, repl ace t hemechanical seal.
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Refilling
Erect the pump as demonstrated in Fig. 3 and fill the oil chamber withoil until overflow (see also paragraph 6.1.1). Replace the plug 903.03and fit a new gasket 411.03.
Quantity of oil:
Details regarding the quantity of oil can be taken from the table inparagraph 7.2.4.1 „Lubricating instructions“
Recommended quality of oil:Trade name:
Paraffin oil, free–flowing, Messrs. Merck No. 7174; With-oilMerkur Pharma 40 Messrs. DEA or equivalent, non-toxic.This quality is harmless and as such complies with the regulationsapplicable to food.
Alternative:All non-alloyed and alloyed motor oils of classes SAE 10W can beused for lubrication of the mechanical seals. With regard to disposalall general Government regulations must be observed.
Attention Regional regulations have to be obs erved to theextent t hat t he oi l does not contaminate thepumped media (for example drinking water) andthat safe disposal is guaranteed. Otherwise, it isnot permitted to fill the pump with oil, but paraffinoil must be used for this purpose.
7.2.4.1 Table ”Lubricating instructions”
Size S, K 40-250 F, E, K 80-315F, E 80-250 F, E, K 100-315
F 100-240 D, F, E, K 150-315F, E, K 100-250 K 200-280/281
D 150-251 D 200-315Motor sizes
2-pole 5 2, 6 2, 8 2, 12 2,17 2 23 24-pole 5 4, 7 4,11 4, 16 4 23 4, 29 46-pole 4 6, 6 6, 9 6, 12 6
Oil quantity: (l ) 2,1 4,6 7,0
For recommended quality of oil, see paragraph 7.2.4
7.2.5 Bearing and lubricationThe pum p/motor s haft i s s upplied w ith greas e-lubricated bal lbearings.
7.2.6 Visual check of lifting chain/lifting wireMaintenance c hecks to the pump s hould al so i nclude t he l iftingchain/lifting wire i nclusive of f itting t o t he pum p w ith regard t opossible damage - caused ei ther m echanically or c hemically.Damaged parts must be repl aced by m anufacturer‘s ori ginalspare parts.This also refers to the correct fixing of the lifting chain/lifting wireto the pump.
7.3 Dismantling and re-assembly
Attention If t he pump has been us ed to pump hazardousmedia, c are m ust be t aken t hat, w hen drai ningthe leakage liquid/oil f illing, pers onnel andenvironment are not endangered. A llgovernment regulations have to be observed.
7.4.1 Basic guidelines and instructions
All repai r and m aintenance w ork t o t he pum p must only becarried out by especially trained straff, and original replacementparts must be used.
The safety precautions as outlined in paragraph 7.4.4 have to beobserved.
Dismantling and re-assembly may only be carried out in linewith the appropriate sectional drawing. The sectionaldrawing and other instructions are detailed in the appendix .The dismantling sequence should be carried out as outlinedin the sectional drawing.If there are any problems, please contact our servicedepartment for advice.
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7.4.2 Preparing for dismantling
Prior to dismantling the oil chamber is to be emptied.
7.4.3 Dismantling the pump section
Dismantling the pump section is c arried o ut a s illu strated in th edrawing (Appendix ”Sectional drawing with part list”). S pecialtools are not required. The only exceptions relate to the impellerdismantling/assembly process for the following sizes.
7.4.3.1 Special points relating to the dismantling ofthe impeller
- Size: KRT S 40–250see Appendix ”Impeller dismantling/assembly with cutter”
- Sizes: KRT 40–250 100–240 100–25080–250 100–315 150–31580–315 200–280 200–281
D 150-251 D 150-315 D 200-315
The i mpeller/shaft c onnection i s m ade by using a coneseat/tapered s eat. A ppendix ”Impeller dismantling / assemblywith taper connection”.
- Remaining sizes:
The impeller/shaft c onnection i s ac hieved by a paral lel s eat w ithlocating key. The impellers have been prepared to accept a specialimpeller with drawing device. This can be purc hased as a specialtool from KSB.
Further details rel ating t o proc edures and ref erences rel ating t ospecial tools are out lined i n t he as sembly i nstructions Appendix”Impeller fitting/with drawing device”.
7.4.3.2 Dismantling of mechanical sealExact instructions relating t o f itting pos itions of t he m echanicalseals, ei ther m otor s ide or pum p s ide, are outlined in Appendix”Mechanical seal arrangement with parts list”.
7.4.4 Dismantling the motor component
Please ensure, when di smantling t he m otor part and t he el ectricconnecting cabling, that core identifications are clearly marked forfuture reference during re–assembly.- Special points for versions ” X , Y ” eplosionproof
All ot her work af fecting t he explosionproofness,such as new w indings and mechanical repairsat t he m otor s ection, requi re a subsequentacceptance test by an approved engi neer orhave to be carried out at t he prem ises of t hemanufacturer.
7.5 Re-assembly
7.5.1 General instructions
Assembly of the pump must be c arried out in accordance with thecurrent m echanical engi neering regul ations. A ll part s which weredismantled m ust be c leaned and t ested w ith regard to wear.Damaged or w orn part s m ust be replaced by usingmanufacturer‘s spare parts. Ensure that al l sealing surfaces areclean and the O-rings or flat seals fit perfectly. We recommend theuse of O-ri ngs/seals at al l t imes.O-rings m ade from continuousstrips which were glued together must not be used.
Assembly of the pump takes place in reverse order of dismantling.The drawing combined w ith t he i ndividual part s i ndex s hould beused as a guide. All screws must be t ightened during assembly asoutlined in the instructions. General instructions in this respect areoutlined in the table below ”bolt tightening torque” and specialpoints are stated in the installation instructions.
Table „Bolt tightening torque“Thread Torque (Nm)
A4-70 / 1.4462M 5 4M 6 7M 8 17
M 10 35M 12 60M 16 150M 20 290
7.5.2 Special points relating to components for re-assembly
7.5.2.1 Mechanical sealIn principle, we recommend to use new manufacturer‘s spare partsfor mechanical seals. In this respect it should be noted:
To ac hieve perf ect perf ormance, i t i s i mportant t o ens ure t hat allparts are immaculately clean and that greatest care is taken duringthe f itting of t he m echanical s eal. P rotectors of the movingsurfaces must not be rem oved unt il immediately before fitting thepart. The s urface of t he s haft m ust be perf ectly clean andundamaged.
In principle to assist with the fitting of the bellows mechanical seal,the i nside of t he bel lows t o avoid any dam age to the mechanicalseal should be wetted with soapy water (do not use oil).
Attention: Fitting of t he bel lows m echanical s eal at themotor end.
To avoid damage t o t he rubber bel lows by a k eyway or s haftrecess, the shaft stub should be c overed w ith a t hin s heet of f oil(approx. 0.1...0.3 mm thick). Push the rotating uni t over f oil coverand place into fitting position. Then remove the foil.
7.5.2.2 Impeller assembly
Instructions and proc edures are out lined i n Appendix ”Impellerdismantling/fitting”. Paragraph 7.4.3 outlines appropriate size.
7.5.2.2.1 KRT D-Wear plate
The clearance between impeller 230 and w ear plate 135 m ust beset t o 0. 4 +0. 2 m m (m easured approx . 5 cm from the vane tip).Use screws 914.12 and 914. 24 f or i nitial adj ustment and re-adjustment of the clearance.
7.5.2.3 Checking seals/oil level
After as sembly t he m echanical s eal part/oil chamber should betested for leaks.Procedure:(Appendix 1 ”General pump outline” Fig. 9).
The oil inlet tapping should be used to test for leaks.Securely screw the testing device into the oil inlet opening.
Test media: Compressed airTest pressure: max. 0.5 barTest duration: 2 min.
Make s ure t hat t he pres sure does not decrease during the test.Afterwards, the oil level is to be checked (compare para. 7.2.4).
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7.5.2.4 Motor / electrical connections
Ensure prior to re-assembly of explosionproof motors that all thespecial poi nts out lined i n paragraph 7. 4.4 were observed.All motors must be tested electrically in line with paragraph 6.1, 6.2and 7.2.
7.6 Stockkeeping of spare parts
Always quote the following data when ordering spare parts:
This data can be t aken f rom the data plate ( appendix ”Generalpump diagram” Fig. 1)
7.6.1 Recommended stock of spare parts for atwo-year operation in accordance with VDMA24296(applicable for continuous operation)
PartNo.
Part description Number of pumps(including stand-by pumps)2 3 4 5 6 8 10
andmore
80–1 Part motor - - - 1 1 2 3834 Cable entry 1 1 2 2 2 3 40%818 Rotor - - - 1 1 2 3230 Impeller 1 1 1 2 2 3 30%502 Wear ring 2 2 2 3 3 4 50%433.01 Mechanical seal
motor side2 3 4 5 6 7 90%
433.02 Mechanical sealpump side
2 3 4 5 6 7 90%
321.01/322
Grooved ballbearingmotor side
1 1 2 2 3 4 50%
320/321.02
Grooved ballbearingpump side
1 1 2 2 3 4 50%
Set of sealsmotor
4 6 8 8 9 10 100%
Set of sealshydraulic
4 6 8 8 9 10 100%
Pump type:e.g. KRTF100-240/172X1G-190Works-No./Identity-No.Motor-No.
fill in
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H3) SPARE PARTS LIST
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OPERATION & MAINTENANCE MANUAL
a) Spare Parts to be supplied under the current contract:
(UNAVAILABLE AT THIS TIME)
f inalization and approval. List is being prepared by Alstom in Paris, and will be included in this chapter after
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STOCKAGE OF SPARE PARTS
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7.5.2.4 Motor / electrical connections
Ensure prior to re-assembly of explosionproof motors that all thespecial poi nts out lined i n paragraph 7. 4.4 were observed.All motors must be tested electrically in line with paragraph 6.1, 6.2and 7.2.
7.6 Stockkeeping of spare parts
Always quote the following data when ordering spare parts:
This data can be t aken f rom the data plate ( appendix ”Generalpump diagram” Fig. 1)
7.6.1 Recommended stock of spare parts for atwo-year operation in accordance with VDMA24296(applicable for continuous operation)
PartNo.
Part description Number of pumps(including stand-by pumps)2 3 4 5 6 8 10
andmore
80–1 Part motor - - - 1 1 2 3834 Cable entry 1 1 2 2 2 3 40%818 Rotor - - - 1 1 2 3230 Impeller 1 1 1 2 2 3 30%502 Wear ring 2 2 2 3 3 4 50%433.01 Mechanical seal
motor side2 3 4 5 6 7 90%
433.02 Mechanical sealpump side
2 3 4 5 6 7 90%
321.01/322
Grooved ballbearingmotor side
1 1 2 2 3 4 50%
320/321.02
Grooved ballbearingpump side
1 1 2 2 3 4 50%
Set of sealsmotor
4 6 8 8 9 10 100%
Set of sealshydraulic
4 6 8 8 9 10 100%
Pump type:e.g. KRTF100-240/172X1G-190Works-No./Identity-No.Motor-No.
fill in
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GENERAL ARRANGEMENT DRAWINGS
WITH PARTS LIST
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General arrangement drawing
Motor: 40-2505 2...23 2 5 4...29 4 80-2504 6...12 6 80-315
100-240/250 100-315 150-251 150-315 200-280/281 200-315
OW 382 436-00
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Z1
Z
D 150-251D 150-315D 100-315
(only D 150-251)
Cable entryH07RN-F 12x5H07RN-F 12x2,5
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s=0.
2±0.
1 m
m
Part-No. Part description
23-7 Impeller body
69-14 Leakage detector
80-1 Submersible motor
81-17 Butt joint
81-39 Clamp
81-51 Shim
81-59 Stator
99-17 Desiccant
101 Pump casing
113 Intermediate casing
131 Inlet ring
135 Wear plate
162 Suction cover
163 Discharge cover
230 Impeller
321 Radial ball bearing
322 Radial roller bearing
330 Bearing bracket
410 Profile joint
411 Gasket
412 O-Ring
Part-No. Part description
421 Radial shaft seal ring
433 Mechanical seal
441 Seal casing
500 Ring
502 Casing wear ring
503 Impeller wear ring
529 Bearing sleeve
550 Washer
561 Grooved pin
811 Motor casing
818 Rotor
834 Cable duct
852 Screwed coupling
900 Screw
901 Hexagon head bolt
903 Screwed plug
914 Socket head cap screw
920 Nut
930 Safety device
931 Lockwasher
932 Circlip
S 40-250321.02
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Installation plan - mechanical seal
Motor: 5 2...17 2 40-250, 80-2505 4...16 4 100-240, 100-250
Part No. Part description433 Mechanical seal515 Clamping ring
29
H, C2 ••••G, GH, C1
•••• Standard Standard-Varianten
G, GH, C1 ••••
433.02
515
433.01
0W 309130-00
(Balg-mechanical seal)
(Balg-mechanical seal)
GLRD „HJ“
433.02
515
433.01
0W309130-05
(Mechanical seal withcovered springs)
(Balg-mechanical seal)
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Installation plan - mechanical seal
Motor: 5 2...23 2 80-315/100-315/150-3155 4...29 4 200-280/200-2814 6...12 6 D 150-251/150-315/200-315
Part No. Part description433 Mechanical seal515 Clamping ring932 Circlip
•••• Standard Standard-Varianten
G, GH, C1 ••••
0W309131-00
932.03(∅ =55)515 (∅ =33)
433.02
433.01
H, C2••••
433.02
0W309131-05
∅
(Balg-mechanical seal)
(Balg-mechanical seal)
(Mechanical seal withcovered springs)
AHS-MRW00SEO.OM.109.08
REVISION: C Rev. Date: 18.04.2011
page: 78 of 81
H4) SPECIAL TOOLS LIST
- Not applicable
AHS-MRW00SEO.OM.109.08
REVISION: C Rev. Date: 18.04.2011
page: 79 of 81
H5) LIST OF SUPPLIERS HYTEC Industrie 28 av des Béthunes BP19060 95071 CergyPontoise CEDEX T: +33 1 34 30 84 37
AHS-MRW00SEO.OM.109.08
REVISION: C Rev. Date: 18.04.2011
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J) AS BUILT DRAWINGS
REFERENCE DESCRIPTION
AHS MRW 00 SEO NF 100 DOMESTIC SEWAGE SYSTEM - PROCESSING NOTICE
AHS MRW 00 SEO SP 100 DOMESTIC SEWAGE SYSTEM - FLOW DIAGRAM
AHS-MRW00SEO.OM.109.08
REVISION: C Rev. Date: 18.04.2011
page: 81 of 81