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News Release from: James Walker Townson | Subject: Comflex double-expansion joint
Edited by the Engineeringtalk Editorial
Team on 29 October 2007
Expansion joints handle extreme
environment
JWT replaced two of the existing metallic expansion joints with fabric joints produced to survive the extreme gas and cyclic conditions.
James Walker Townson has produced and installed new expansion joints and steelwork at England's Didcot gas turbine power station, while overcoming tight and demanding conditions The project involved conditions such as temperatures of up to 585C, pressures from + 7000Pa to -5000Pa, base load gas velocity of 125m/s and daily peak cyclic loading that led to the metallic bellows starting to crack after a few years
In 2002 Siemens asked JWT to produce temporary fabric expansion joints that would allow continued electricity production with minimum downtime until the next major outage.
The four temporary expansion joints performed perfectly well for over three years and while the new project called for two of them to replaced when the metallic expansion joints underneath them continued to decay, with bellows parts found in the exhaust duct, the other two have now been operating for over four years.
JWT replaced two of the existing metallic expansion joints with fabric joints produced to survive the extreme gas and cyclic conditions.
The remaining two continue operating with the temporary joints awaiting a decision on the future of the turbines themselves.
The temporary joint mounting flanges had been designed to withstand the cyclic conditions using JWT's stepped configuration against finite element calculations to give over 5000 life cycles.
This design flexes to accommodate temperature differences, whereas conventional flanges are stressed and distorted by such differentials and can fail prematurely.
As the flanges had operated well within their design life it was decide to leave them in their existing position and use them for the new design.
Although JWT's flexible elements withstand the full gas temperatures, insulation pillows are integral to providing additional thermal protection and help extend joint life by ensuring cooler running.
They are made from various layers of insulation, providing flexibility but with the material staying where pushed and not springing back.
Cyclic operations are normally a real problem for insulation pillows, with every cycle pushing or stretching the material into position, but JWT overcame this problem by providing a split-pillow design.
Each half is constructed as an individual pillow.
These pillows move toward each other as the system warms up and touch during operation.
The materials are never compressed or stretched as they operate in their natural relaxed state, which prevents tearing as a result of lateral movement.
Fabric joints must operate under minimal stress to ensure maximum material life, but conventional multi-layered fabric joints only accommodate limited axial and lateral movements.
An arch configuration can help but not enough to accommodate Didcot's design conditions.
To overcome this problem James Walker Townson provided its Comflex double-expansion joint with a pantograph control mechanism.
Each joint is mounted almost vertically, with its outer part set on a central carrying frame and the inner part on the stepped flange.
Axial movement is accommodated in each joint by it pivoting at the central frame and is transferred to each joint equally by a set of pantograph control mechanisms.
The materials are not compressed as in a conventional joint as they are just pivoting in their natural state.
The project was made more complex as all new steelwork had to be manufactured small enough to be taken into the duct through a man access door and all components had to be assembled and welded together inside the duct.
A six-man team met the 28-day project schedule. Request a free brochure from James Walker Townson ...
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