ABJ Series - IMI Critical · IMI CCI / ABJ Proven experience, superior technology and quality...
Transcript of ABJ Series - IMI Critical · IMI CCI / ABJ Proven experience, superior technology and quality...
ABJ Series
Product Guide
Engineering GREAT Solutions
Start production of AB200 series valve
Changed name from Gadelius K.K. to ABB Gadelius K.K. when aquired by ABB.
Launch of production of various control valves (AB100), desuperheating equipment, and control equipment for automatic boiler control system at Tokyo and Kamata.
First turbine bypass valve (AB6100) delivered to domestic customer
First nuclear valve delivered
Factory moved to Kobe
Factory moved from Nagata to Seishin
Production of feedwater regulator begins
IMI CCI / ABJ
Proven experience, superior technology and quality products
From the first product launch of our feedwater regulator valve over 75 years ago, IMI Critical Engineering Japan continues to innovate new solutions for a wide range of applications in fossil, geothermal, incineration, biomass and nuclear power plants.
Built on our long history of innovation, our people are energised and driven to continuously improve and develop new products with superior technology, advanced manufacturing equipment and use of new materials. We search for new technologies, equipment and materials that increase the limits of the capabilities of our products to meet the ever demanding process conditions of modern power plants.
Our people put passion in everything they do and this is the cornerstone of our quality standard. It is the passion in their work that drives continuous improvements to deliver an even better defect-free product. A job is not done unless it is done right! Our people rigorously manage the quality control system through all processes including sales, design, production, assembly, inspection and shipment.
We take pride in our products being supplied to an ever-increasing international market. At IMI Critical Engineering, we aim to make technology work for you.
IMI Critical Engineering Japan
Address:6-2-2 Takatsukadai, Nishi-ku, Kobe651-2271 Japan
History of IMI Critical Engineering Japan
1939 1951 1957 1969 1977 1985
A wide range of applications
Power Plants: Conventional, Thermal, Cogeneration,
Geothermal, Incineration, and Nuclear
Categories Model Type of Product Size Rating
Control Valves
AB100 Severe duty globe NUC, Fossil 3/4” - 18”
Class 150 - 4500AB160 General duty globe nuclear 3/4” - 8”
AB130 3-Way 3/4” - 8”
AB170 Angle 3/4” - 18”
AB200 Fossil3/4” - 8” Class 150 - 600
AB260 Nuclear
AB300 Severe duty globe 3/4” - 10”Class 900 - 4500
AB370 Severe duty angle 3/4” - 4”
Desuperheaters
AB5000 Mechanical spray nozzle Water: 10 T/H Class 150 - 2500
AB5100 Multi nozzle spray valve Water: 20 T/H Class 150 - 1500
AB5300 Atomise steam nozzle Water: 24 T/H Class 150 - 1500
AB5400 Mechanical spray nozzle Water: 150 T/H Class 150 - 300
AB5600 Variable orifice type Water: 100 T/H Class 150 - 2500
PRDS Turbine Bypass ValveAB6350 Small CHP, globe 2” - 8” Class 150 - 2500 special
AB6500 Power, angle 3” - 22” Class 150 - 4500
Drive UnitDU Box type 330-8660 Nm -
CU Simple cylinder 63-350 mm dia -
Start production of globe type turbine bypass valve (AB6300)
Renamed as ABB K.K.
Start production of AB300 series valve
Integrated into ABB Industries K.K.
Start production of AB5100 series desuperheater
Changed Name from ABB Gadelius K.K. to ABB K.K.
Start production of angle type Turbine Bypass valve (AB6500)
IMI CCI acquires ABB K.K.
A wide range of designs and materials to suit your application
1992 1993 1995 1996 1998 1999 2000 2005
AB100Special design
application
Valve Model:
Suitable for control of all fluids used in thermal or nuclear power generation. Valves designed to specified conditions can also be supplied.
IMI CCI / ABJ
Product Guide: Valves
AB200Low-mediumapplication
AB300High dutyapplication
Valve Size:
Leakage Class / Rating:
Body Style / Material:
Design Features: The AB200 was developed specifically for low-medium pressure applications with pressure rating upto ANSI Class 600. Comprising of standardised components in order to reduce costs, the AB200 is a superior product that is also economical in line with low-medium end application requirements.
The highly advanced AB300 is the result of our relentless pursuit of developing valves with premium performance without implying premium pricing. We offer various standard trim as well as specalised trims corresponding to exacting customer specifications. The modular design concept is offered with flexible connection sizes.
3/4” ~ 18” 3/4” ~ 8” 3/4” ~ 12”
FCI/70-2 Class IV, V, VIANSI Class 150 ~ 4500
Globe, Angle (AB170), 3-Way (AB130)Carbon steel, Alloy steel, Stainless steel
FCI/70-2 Class IV, VANSI Class 150 ~ 600
FCI/70-2 Class IV, V, VIANSI Class 900 ~ 4500
GlobeCarbon steel, Alloy steel, Stainless steel
Globe, Angle (AB370)Carbon steel, Alloy steel
Stroke:
Max. Air Supply:
Options:
Action:
Product Guide: Actuators
Pneumatic Series CValve Model: Pneumatic Series D
Suitable for control of all fluids used in thermal or nuclear power generation. Valves designed to specified conditions can also be supplied.
General design application spring opposed diaphragm
(For AB200/AB300)
Special design application spring opposed diaphragm (For AB100/AB300/PRDS)
Standard Size:
Stroke:
60 in2, 100 in2, 160 in2 60 in2, 100 in2, 160 in2, 280 in2, 400 in2
19 mm - 76 mm 12.7 mm - 102 mm
Direct (fail open) or Reverse (fail close) Direct (fail open) or Reverse (fail close)
5,170 kg 14,200 kg
Top mounted handwheel Maximum/minimum lift stops
Top or side mounted handwheel Maximum/minimum lift stops
5.5 BarG 7.0 BarG
Hydraulic Pneumatic piston - double acting
Electric motor
Numerous trim options for the AB100 and AB300 control valves are available to fit with the many application needs in handling tough fluid flow conditions. Please contact our sales representative for support in selecting the right solution.
IMI CCI / ABJ
Product Guide: Trim OptionsAB100/AB300 Series
Trim Symbol:
Trim Name:
Trim Size:
Cv Range:
Body Size:
Fluid:
Trim Feature:
Flow Direction:
Leakage Class:
Rangeability:
Max. Allowable P:
Max. AllowableTemp.:
Characteristics:
Applications:
MIC/SCAS
Small cascade
MIC #0 to #11
0.05 - 9.9
up to 2”
All
Un-balanced
Under-seat
5
50 : 1
W:150 bar, S:250 bar
565 deg C
Modified Linear
Modified cascade
1” - 2”
14.9 - 53
1 1/2” to 6”
All
Un-balanced
Under-seat
5
50 : 1 ~ 70 : 1
W:150 bar, S:250 bar
565 deg C
Modified EQ%
2” - 6”
21 - 200
from 3” to 8”
Liquid
Balanced, un-balanced
Over-seat
4 or 5
40 : 1
W:150 bar
427 deg C
Per application
Hycon unbalanced, Balanced, Soft-seat
1” - 10”
per application
from 2” to 18”
Liquid
Balanced, un-balanced
Under-seat
4, 5 or 6
per application
per application
260 deg C
Per application
High pressure drop liquid such as pump recirculation valve
High pressure desuperheater control water control valve
Reheater or superheater spray control
High pressure drop liquid such as pump recirculation valve
High pressure desuperheater control water control valve
Reheater or superheater spray control
Service where flashing & cavitation exist
Feedwater control HP/IP blow down valve
Used to prevent cavitation or reduce noise
Feedwater start-up control valve
Condenser recirculation valve
Design:
Remarks: A series of labyrinth grooves give the cascading effect
Larger capacity above SCAS trim
Available in each design & hybrid Hycon by application
MCAS GAD HCU/HCB-S
A multitude of trim options, both standard and specialised, have been developed for various applications in which the AB100 and AB300 control valves can be utilised.
Trim Symbol:
Trim Name:
Trim Size:
Cv Range:
Body Size:
Fluid:
Trim Feature:
Flow Direction:
Leakage Class:
Rangeability:
Max. Allowable P:
Max. AllowableTemp.:
Characteristics:
Applications:
HCU/HCB
1” - 10”
per application
from 2” to 18”
Liquid
Balance, un-balance
Under-seat
4 or 5
per application
per application
2 1/2” - 14”
49 - 1940
from 2 1/2” to 18”
All
Balance
Over-seat
4 or 5
40 : 1 ~ 50 : 1
140 bar
2 1/2” - 14”
55 - 1940
from 2 1/2” to 18”
All
Un-balance
Under-seat
5
40 : 1 ~ 50 : 1
140 bar
Tandem multi-hole
4” - 14”
68 - 1810
from 4” to 16”
All
Balance
Over-seat
5
40 : 1 ~ 50 : 1
140 bar
Used to prevent cavitation or reduce noise
Boiler feedwater pump min. flow
Recirculation valve
General purpose in most liquids and gases for both modulating and on-off
Low noise application for steam service both temp. above 260 deg. C and high P
HP/LP turbine bypass control valve
Auxilliary steam control Valve
Soot blower steam control valve
Low noise application for steam control valve service both temp. above 260 deg. C and high P
HP/LP turbine bypass control valve
Auxilliary steam control Valve
Design:
Remarks: Available in each design & hybrid Hycon by application
Over 260 to 550 deg. C, metal piston ring is available (BSV-P)
Retainer clamp for large size body
USV/BSV-R/P USH/BSH-R/P TADV/H
Hycon balanced, Unbalanced
Unbalanced/Balancedsingle V-port
Unbalanced/Balanced single multi-hole
260 deg C BSV-R 565 deg C USV/BSV-P
260 deg C BSH-R565 deg C USH/BSH-P
565 deg C565 deg C
Per application Modified EQ% Modified linear Modified linear
IMI CCI / ABJ
Product Guide: Trim OptionsAB200 SeriesA multitude of trim options, both standard and specialised, have been developed for various possible applications in which the AB200 control valves can be utilised.* These figures are applicable if the body does not exceed 600 class rating
Trim Symbol:
Trim Name:
Trim Size:
Cv Range:
Body Size:
Fluid:
Trim Feature:
Flow Direction:
Leakage Class:
Rangeability:
Max. Allowable P:
Max. AllowableTemp.:
Characteristics:
Applications:
MIC/CAS
Cascade
Mic #0, 2, 4, 7, 9, 11
0.05 - 9.9
up to 2”
All
Un-balanced
Under-seat
5
50 : 1
110 bar*
427 deg C*
Modified linear
Modified cascade
1” - 2”
14.9 - 53
1 1/2” - 6”
All
Un-balanced
Under-seat
5
50 : 1 - 70 : 1
W:150 bar, S:250 bar
427 deg C*
Modified EQ%
Unbal. single plug
3/4, 1, 1 1/2
10 - 80
up to 2”
All
Un-balanced
Under-seat
5
30 : 1
110 bar*
427 deg C*
Unbal. single V port
2” - 8”
45 - 600
up to 8”
All
Un-balanced
Under-seat
5
30 : 1
110 bar*
427 deg C*
Modified para
High pressure drop liquid such as pump recirculation valve
High pressure desuperheater control water control valve
Reheater or Superheater spray control
High pressure drop liquid such as pump recirculation valve
For relatively bigger Cv
General purpose
Pressure control of before fuel flow Cv
Cooling water control valve for LP gland steam
Pressure reducing
Boiler feedwater valve
Process steam valve
Design:
Remarks: A series of labyrinth grooves give the cascading effect
MCAS USP USV
Modified para. small EQ%
No cavitation condition
A multitude of trim options, both standard and specialised, have been developed for various possible applications in which the AB200 control valves can be utilised.* These figures are applicable if body does not exceed 600 class rating
Trim Symbol:
Trim Name:
Trim Size:
Cv Range:
Body Size:
Fluid:
Trim Feature:
Flow Direction:
Leakage Class:
Rangeability:
Max. Allowable P:
Max. AllowableTemp.:
Characteristics:
Applications:
USH
Unbal. signal multi port
2” - 8”
39 - 550
up to 8”
All
Un-balanced
Under-seat
5
50 : 1
11 MPa*
427 deg C*
Modified EQ%
Bal. signal multi port
2” - 8”
39 - 550
up to 8”
All
Un-balanced
Over or Under-seat
4 or 5
50 : 1
11 MPa*
260 deg C*
Modified para.
Bal. signal V port
2” - 8”
45 - 600
up to 8”
All
Balanced
Over-seat
4
30 : 1
11 MPa*
260 deg C*
Modified para.
2” - 8”
25 - 220
2” to 8”
Liquid
Balanced
Over-seat
4 or 5
30 : 1
11 MPa*
260 deg C*
Modified linear
Low noise application for steam service both temp. above 260 deg. C and high P
LP heater level control valve
Condenser recirculation valve
For control valve velocity and on/off valve
Fuel oil flow control valve Deaerator level control valve
LP heater level control valve Condenser make up valve
Strage tank level control valve
Condenser spill over control valve
Flash and cavitation exist service
HP/LP heater level
Condenser recirculation valve
Design:
BSH BSV Flare Hole
Steam Piping:
Mounting:
Rangeability:
Min. Set Temp:
Control Accuracy:
Atomising Steam:
Required Water Pressure:
Max. Water Capacity:
Detecting Distance:
DSH Inlet Straight Pipe:
Drain Recirculation
Application:
Body Material:
Design Features:
Type/Model:We manufacture a wide range of desuperheating equipment that correspond to all specifications ranging from high capacity to low capacity applications. Our desuperheaters are optimised for usage in combination with a wide range of control valves and various other control devices. This range of desuperheating equipment is appropiate for applications requiring narrow turn down and high superheated temperature.
AB5100 Multi-Nozzle
AB5000 Mechanical
Type
AB5400 V-MA Type
IMI CCI / ABJ
Product Guide: Mechanical spray type* If cooling water pressure is less than 0.5 bar, please ask IMI CCI for detailed information on process application
To be mounted between flanges and welded to the header, eliminating the need for support
Allowable Temp. Differences (standard):
To be varied the number of nozzle to provide optium desuperheating for any operating conditions
To be varied the number of nozzle to provide optium desuperheating for any operating conditions
4” or more
Horizontal/Vertical
2:1 - 3:1
Sat. + 15 deg. C
400 deg. C
within 10 deg. C
No
line pressure + 3 bar
10 ton/h
Valve: 10D; Bend: 5D
No
A105. F11
6” or more
Horizontal/Vertical
3:1 - 20:1
250 deg. C
within 6 deg. C
No
line pressure + 3 bar*
12 ton/h
Valve: 10D; Bend: 5D
No
WC6
12 m (depends on applications)
Superheater, Reheater spray condenser dump
Sat. + 8 deg. C or Sat. + 15 deg. C
12 m (depends on applications)
Turbine extraction, process steam
6” or more
Horizontal/Vertical
3:1 - 10:1
Sat. + 10 deg. C
250 deg. C
within 6 deg. C
No
line pressure + 5 bar
150 ton/h
Valve: 10D; Bend: 5D
No
WC6, F11
12 m (depends on applications)
Turbine extraction, process steam
Product Guide: Steam energy type
Steam Piping:
Mounting:
Rangeability:
Min. Set Temp:
Control Accuracy:
Atomising Steam:
Required Water Pressure:
Max. Water Capacity:
Detecting Distance:
DSH Inlet Straight Pipe:
Drain Recirculation
Application:
Body Material:
Design Features:
Type/Model:This range of desuperheating equipment achieves a very stable state of desuperheating by adopting a structure that utilises the kinetic energy of steam and attains the appropiate spray for wide turndown and accurate control applications.
AB5600 Variable Orifice
AB5300Atomising Spray
AB5700High Temp Variable
Orifice
To be capable of speeding up the evaportaion and absorption of cooling water by the powerful preheating atomisation
Same desuperheating method as AB5600, but it is durable for more high pressure and high temperature.
4” or more
Horizontal/Vertical
5:1 - 15:1
Sat. + 8 deg. C
380 deg. C
within 5 deg. C
line pressure + 15 bar
line pressure + 2 ~ 6 bar
24 ton/h
Valve: 10D; Bend: 5D
No
A105, F11
2” - 30”
Vertical
40:1
Sat. + 6 deg. C
380 deg. C
within 3 deg. C
No
line pressure + 3 bar
100 ton/h
6 m
Valve: 10D; Bend: 5D
self-recirculation
All purpose
WCB, WC6, WC9
10 m (depends on applications)
Turbine extraction, turbine bypass, process steam
3” - 20”
Vertical
40:1
Sat. + 6 deg. C
610 deg. C
within 3 deg. C
No
line pressure + 3 bar
100 ton/h
6 m
Valve: 10D; Bend: 5D
self-recirculation
F22, F91
High pressure and temp. application
Allowable Temp. Differences (standard):
The flow plug changes its position corresponding to the flow rate a big turbulence is created immediately along the plug
IMI CCI / ABJ
Product Guide: PRDS Valves(Pressure Reducing Desuperheating System)
Valve Model: AB6500Angle Type
AB6350Globe Type
2” x 4” ~ 8” x 18”
FCI/70-2 Class IV, V ANSI Class 150 ~ 2500 Special
Carbon steel, Alloy steel
Self introducing steam atomising many nozzles reduces fluid evaporation for temperature control
3” x 8” ~ 22” x 32”
FCI/70-2 Class V ANSI Class 150 ~ 4500
Carbon steel, Alloy steel
Using forged body material and pilot trim, flexible both inlet and outlet connection size
Valve Size:
ANSI Class/Rating:
Body Material:
Design Feature:
IMI CCI PRDS ValvesThe superior PRDS technology combines the dual functions of pressure reduction and desuperheating in one valve body. We offer various types of the PRDS to accomodate free valve selection that corresponds to various applications and piping layout.
Features PRDSClose control of pressure and temperature: Flexible plant systemisation and good conditioned steam will save energy and reduce cost in your control system.
Piping arrangement simplified: Reduces components, shortens pipeline and eliminates auxiliary steam line saving energy and cost.
Easy maintenance: Fewer components and a virtually wear-free valve seat and plug extend maintenance intervals.
Environment improved: Noise generated may be attenuated and valve vibration is eliminated to ensure safe operation and a quieter environment.
Superior RangeabilitySuperior rangeability is required under today’s extreme operating conditions. Turbine bypass applications operate at both start-up and full plant load scenarios. PRDS is designed for full load needs special consideration for minimum flow conditions to ensure proper atomisation.
Steam assisted atomisation provides for small particle formations at low flows. Utilisation of a small percentage of the main steam allows droplet formations at low pressures of 50 to 150 microns. Traditional designs utilise the dP low pressures which can result in droplet size ranging from 150 to 1000 microns.
Advanced TechnologyComputer Aided Engineering (CAE) tools such as Finite Element Analysis (FEA) are utilised by IMI CCI engineers in product design.
Coupled with IMI CCI’s long experience with specific applications, this results in products that meet and exceed user’s requirements.
Droplet size test stand for steam assisted atomisation design
Finite element analysis of spray water nozzle thermal shock
All the benefits of IMI CCI’s proven technology combined with a full compliment of features
Tight Shut Off
Class V with graphite balance seal
IMI CCI / ABJ
AB6350 Valve
IMI CCI / ABJ
Linear Modified Equal Percentage Equal Percentage
Compact Design
Reduce bonnet height
Easy Maintenance
Quick change with graphite seal
Compact Design
Body face to face is minimised
Compact Design
Enlarged flow area
Compact Design
Increased Cv of multiport
Compact Design
Increased flow area of nozzle ring to avoid choke flow and increase body size
Longer Life Time
Spray nozzle with stainless sleeve for longer life time
Accurate temperature control and shorter sensor distance
Steam atomising spray
Valve Performance Characteristics (% Cv vs. % Stroke)Valves are custom characterised to accommodate a wide range of variables.
AB6350 Valve Dimensions and Valve Capacity (Cv)
Product drawings and dimensions
Product Specification
Body TypeGlobe
Design StandardASME B16.34 / ASME sec. VIII Div.1
Body MaterialASTM WCB, WC6, WC9
Flow DirectionFlow to Open
Bonnet TypeBolted bonnet
Valve Size2”, 3”, 4”, 5”, 6”, 8”
Pressure RatingsASME 150 - 2500
End connectionsButt-weld, Flange
TemperatureMax. 565 deg.C
Leakage ClassANSI class IV and V
Seat TypeQuick change
Spray NozzleSteam atomising
ActuationMulti-spring diaphragm, Piston, Electric, Hydraulic
Seat TypeQuick change
Atomising Spray Nozzle
Water droplets are reduced to 20 -
150 um for quick evaporation
Compact
Pressure reduction and
desuperheating are done in one
valve
Low Noise
Combination of multiport cage and diffuser plate option reduces noise
Tandem Trim
Size of actuator can be reduced and leakage Class V is acheivalbe
Bonnet Design
Depending on rating, pressure seal bonnet and
bolted bonnet are available
Angle Design
Angle design is suitable for turbine bypass valve of power station
IMI CCI / ABJIMI CCI / ABJ
AB6500 Valve
Linear Modified Equal Percentage Equal Percentage
Valve Performance Characteristics (% Cv vs. % Stroke)Valves are custom characterised to accommodate a wide range of variables.
Body Size A B C D E3” 380 250 295 295 2184” 460 300 360 245 4406” 580 380 450 300 5508” 680 450 530 340 620
B D
C
EF
A
AB6500 Valve Dimensions and Valve Capacity (Cv)
Note: refer to the specific drawing in accordance with each specification
Specifications
Mody MaterialASTM A182 F11, F22, F91
Body StyleAngle
Bonnet StyleBolted bonnet (up to Class 1500)Pressure seal bonnet (Class 2500 and over)
Actuator TypeDiaphragm, piston, hydraulic, electric
Seat Leakage ClassANSI FCI 70-2 Class IV & V
Spray Nozzle TypeSelf-introducing steam atomising type
Temperature SettingSaturated temperature +6 deg. C or more
Temperature Detector Distance6 m from outlet connection or more in accordance with specification
Body Size Inlet Pipe Size Outlet Pipe Size Standard Cv Reduced Cv Full Travel3” 3” 8” 60 45, 36 45 mm4” 4” 10” 100 60, 75 51 mm6” 6” 14” 200 120, 150 63.5 mm8” 8” 18” 320 190, 240 76 mm
IMI CCI / ABJIMI CCI / ABJ
Product Guide: Drive Unit
Technical Data:
Pneumatic Drive Unit:
Type:
Action:
DU
90 degree angle
0.02 - 0.1 MPa, 4-20 mA,
- input signal
- supply air pressure
- air consumption
- linerarity
- hysterisis
-fully rotating angle
-characterstic
Size & Stroke:
Max. 5 bar
Approx. 15 NL (balance position)
2% of full stroke (linear charasteristic)
2%
+3, -0 degree
Linear
Square (increasing signal) / Square (decreasing signal)
Model Rated Toraq (nm)DU-35SHL 330DU-50SHL 990DU-60SHP 1560DU-80SHP 2340
DU-100SHP 3670DU-120SHP 6180DU-130SHP 7010DU-200SHP 8660
Accessories:
standard
optional
Positioner (P/P or I/P) Air regulator with filter Auto-manual change-over valve
Air locking valve, Limit switch Solenoid valve Position stansmitter Booster relay Space heater Pressure switch Anchor bolts
Auto-manual switch valve: We can select, auto, manual open, manual position lock, manual close.
Hand pump lever: To open or close cylinder by rotating this hand pump after setting auto-manual switch valve.
New model
Easy to Strip Down
Old model
IMI CCI’s new drive unit does not have a large hand wheel. Manual operation of the new drive unit is done by auto-manual switch valve and hand pump.
By removing the hand wheel, we are able to save space for installation.
Top cover
Side cover A
Side cover B
By removing the large hand wheel,
stripping down the drive unit becomes
very easy. By removing only the top
cover and two side covers, we can strip
down the drive unit as shown below.
Air pump
IMI Critical Engineering Lakeside, Solihull Parkway Birmingham Business Park Birmingham B37 7XZ United Kingdom
Tel: +44 (0)121 717 3700 Fax: +44 (0)121 717 3701
www.imi-critical.com
Americas
IMI CCI Brazil Sao Paulo Brasil
Tel: +55 11 2691 3361
IMI CCI Houston Texas USA
Tel: +1 832 467 7200
IMI CCI RSM California USA
Tel: +1 949 858 1877
Asia-Pacific
IMI CCI Australia MelbourneAustralia
Tel: +61 3 9213 0800
IMI CCI Japan Kobe Japan
Tel: +81 78 322 1220
IMI CCI Korea Paju-si Korea
Tel: +82 31 980 9800
IMI CCI Malaysia Kuala Lumpur Malaysia
Tel: +60 3 6412 3500
IMI CCI Singapore Singapore
Tel: +65 6653 7000
China
IMI Critical Engineering Greater China ShanghaiPR China
Tel: +86 21 3973 8000
Europe
IMI CCI Austria Wien Austria
Tel: +43 1 869 27 40
IMI CCI Brno Brno Czech Republic
Tel: +420 511 188 288
IMI CCI Italy Milano Italy
Tel: +39 02 4345 8611
IMI CCI Sweden Säffle Sweden
Tel: +46 533 689 600
IMI CCI Switzerland Balterswil Switzerland
Tel: +41 52 264 9500
IMI CCI United Kingdom Manchester UK
Tel: +44 (0)161 655 1680
India
IMI CCI Bangalore Bangalore India
Tel: +91 80 4030 3500
IMI CCI SriCity Andhra Pradesh India
Tel: +91 85 7639 8000
Middle East and Africa
IMI Critical MEA Dubai United Arab Emirates
Tel: +971 4 807 3111
IMI CCI South Africa WitbankSouth Africa
Tel: +27 13 697 3305
Other
01067.01-19en