Post on 06-Apr-2017
Non-corrosive products for the Power market
• Headquarter in NL, founded in 1952.• Worldwide presence, production
facilities and sales all over the world. • More than 700 employees in 16
Production Locations with approx. 80.000 m² size in 13 countries.
• Approx. 1.500.000 hours production
capacity per year.• Capability of 200.000 h/a to do
Installation projects. • 15 stationary and 5 onsite winding
machines.
Introduction
Characteristics of FRP
• Little to no maintenance is required
• A long product life span, up to 50 years
• High-performance insulation
• Abrasion and corrosion resistant
• Lightweight (1.8 g/cm3)
• High Chemical Resistance
• Delivery time • GRP replaces expensive alloys like Hastelloy, Super Duplex, Ni, as well as steel
rubber lined components.• Able to work with temperature limits of approximately – 50°C to 125°C
Fire retardance
• Fire retardant resins are tested according the ASTM E 84 (Steiner tunnel test) and have class 1 flame rating of 25 or less.
• Normal FRP is classified as : DIN 4102 B2 and ASTM E84 class 2• Bigger wall thickness and 9 x higher heat transfer factor means that the liquid will
not heat up as fast in a steel tank and it will take much more time that the liquid will start to boil. Boiling liquid is a major problem during an inferno.
• Because of the thicker wall and higher safety
factor (7-10 in case of FRP and 1,5 -2 to steel)
a FRP tank will stay longer.• The mechanical properties of steel reduces
fast above the 260 °C. ( SS -40% at 260 °C).
The tank will have a uncontrolled collapse.
What to store
Fiberglass Components are corrosion and chemical resistant, so that you can store different types of (aggressive) fluids such as:
- Flue gases- Lime slurry- Water- Caustic Solutions
- Hydrochloric Acid- Sulphur Acid- Phosphoric Acid- Acid solutions- Other Acids- Brines
- Salt solutions- Chlorides- Caustic Liquides- Fuels- Fertilizers- Starch solutions- Vegetable oils
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SERVICES
• Design
• Engineering
• Production
• Field fabrication & installation
• Installation
– Heavy lifting
– Scaffolding
– Lifting with jacking systems
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DESIGN / ENGINEERING
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Crane study for caterpillar crane CC 2800 1. Installation of crane and position
2. Applied lifting utilities3. Lifting and guiding process of the clean gas
duct/ Fix point saddle
The largest caterpillar crane ever used in the build-up of a cooling tower
DESIGN / ENGINEERING
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• Chimney Liner• Chimneys• Ducts • Storage tanks• Absorber• Spray headers• Recirculation pipes• Process piping• Cooling water pipes
PRODUCTS
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CHIMNEY LINER
• Engineering and Design• Production of the single cans (Cylinder
of 6m lenght) with state of the art onsite winding equipment.
• Assembly of elbows.• Transport of the cans and elbows to the
chimney.• Lifting of cans up to the level of the
chimney opening.• Lifting up to the discharge on top of the
chimney with lifting jack systems piece by piece.
• Lamination of the connections between the single cans.
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CHIMNEYS
• Engineering and Design• Production of the single cans (Cylinder
of 6m lenght) with state of the art onsite winding equipment.
• Assembly of manageable straight spools of 18 – 24 m if installation from top down.
• Transport of the cans or manageable straight spools of 18 – 24 m to the place of the installation.
• Lifting of cans or manageable straight spools.
• Lamination of the connections between the single cans.
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DUCTS
• Engineering and Design• Production of the single cans (Cylinder
of 6 – 9 m lenght) with state of the art onsite winding equipment.
• Assembly of elbows and manageable straight spools of 18 – 24 m.
• Transport of the spools and elbows to the place of the installation.
• Lifting of the spools and elbows to final position.
• Lamination of the connections between the single cans.
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STORAGE TANKS
• Engineering and Design• Production in shop as long as the
diameter is < 6,0 m• Production of the single cans (Cylinder
of 6 m lenght) with state of the art onsite winding equipment when diameter is > 6 – 30 m.
• Transport of the spools to the place of the installation.
• Lifting of the spools and elbows to final position.
• Lamination of the connections between the single cans.
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ABSORBER
• Engineering and Design• Production in shop as long as the
diameter is < 6,0 m• Production of the single cans (Cylinder
of 6 m lenght) with state of the art onsite winding equipment when diameter is > 6 – 30 m.
• Transport of the spools to the place of the installation.
• Lifting of the spools and elbows to final position.
• Lamination of the connections between the single cans.
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SPRAY HEADERS / PIPING
• Engineering and Design• Production in one of our shops• Transport of the spools to site.• Lifting of the spools to the final position.• Lamination of the connections between the
spools.
PRODUCTION
PRODUCTION
Variable mould
Step-less variation of mould diameter
- 1 mould for 4 – 7,5 m
- 1 mould for 7 – 12,5 m
- 1 mould for 12 – 21 m
Mould diameter can be changed within a day
No (new) mould investment for each product
Economical advantage for projects that require a wide
variety of (large diameter) products i.e. tanks
ASSEMBLY
ASSEMBLY
TRANSPORT
ERECTION IN CHIMNEY
HEAVY LIFTING
• Project: IOS II / Kozienice• Diameter: 10,1 m H=120m
REFERENCES
• Alstom Power – ESKOM Kusile Power Plant (South Africa)• 6 x duct with D=8.9m, L=250 m
REFERENCES
• Babcock-Noell – Turow (PL)• 3x chimney liner and ducts with
D = 5.3 m, L = appr. 700 m
REFERENCES
• Israel Electric Company• 4x chimney liner with D = 7.0 m, H = 250 m
REFERENCES
• Mitsubishi Hitachi Power Systems Europe GmbH – Kozienice (Poland)
• Sprayheaders and recirculation piping
REFERENCES
Power Plant Neurath BoA 2/3Clean gas duct Absorber to cooling tower (2 lines) - Diameter 10,0 m / Length 150m + 30m Elbow- Turnkey incl. Engineering, Prefabrication, Transport, Lifting, Installation, Supervision and Quality control.- Horizontal on site winding machine.- Project scope M€ 20
REFERENCES
REFERENCES
• Eemshaven & Rotterdam (the Netherlands)• 2 Chimney liner 7 x 120 meter