Murphy Installs the UK's Longest Secant Piling at Deephams STW

Installing reputedly the UK’s longest ever secant piling, to form the perimeter of a sewage treatment works’ inlet pumping station shaft being built in North London, has cut temporary works costs by 20%, plus slashed a valuable five weeks off the construction programme. 

The challenging shaft design, resulting from the use of 29m long piling, has triggered further innovative construction solutions saving yet more time and cost.

“Our latest target is to capitalise on the ten day Christmas shutdown through early completion of a crucial concrete ring beam support needed in the shaft,” says Gavin Symonds contracts manager for contractor J. Murphy & Sons. “By allowing the concrete to fully strengthen while we enjoy the break, shaft excavation can restart day one on our return to site.”

Construction by Murphy of a new pump station and inlet works, at Deephams Sewage Treatment Works in Edmonton, will make the nearby River Lee cleaner and healthier for aquatic life and also improve the riverside environment. The location and design of the new £35M plus inlet works has been restricted by a low level sewer it needs to connect into.

The obvious construction choice for a large, 18.5m diameter shaft founded 24m deep in water-bearing Thanet Sands, was to use diaphragm walling - and Murphy tendered on that basis. Once on site, the team looked again at the constricted location and reconsidered the construction method.

The only other option - secant piling - would demand 29m long male piles driven both through adjoining females either side, plus into the variable strength clays and gravels, to found in the cohesionless sands.

Assuming the female piles were formed of standard 20N/mm2 concrete, boring the males to such considerable depth - and to the required 1 in 200 verticality tolerance - was initially considered tough going and risky.

“Installing such a deep secant-piled shaft wall is pushing the boundaries of what is acceptable in the UK,” explains David Beadman, director for Murphy’s geotechnical consultant Byrne Looby Partners. “Around 19m depth would be considered the absolute limit.”

Also on board was the contractor’s own piling division with experience of working in Ireland where use of lower strength concrete for female secant piles is often successfully adopted. Armed with this confidence, the team opted to trail blaze a UK first and halve the concrete strength of the 24m long female piles to just 10N/mm2, so considerably easing drilling of the longer males.

The relevant British Standard, BS8110, does allow such lower strengths for unreinforced concrete – as the female piles are – though, as Beadman points out; “UK practice tends to adopt a typical 20N strength for such piles.”

As a bonus, Murphy hired a brand new £2M Bauer BG40 piling rig. With its impressive 40tm torque, use of the rig at Edmonton was correctly predicted to considerably ease the drilling operation. It has proved a worthwhile addition, with the original 17 week piling programme cut by five weeks.

To help ensure such long piles would keep within the required verticality, a hefty concrete guide wall was laid to 5mm accuracy and the total 76 pile shaft perimeter set out on two radii.

As the 1.2m diameter males are drilled through adjacent females, creating a total 320mm overlap, the slightly larger concrete mass of the female being cut into on the inside of the pile circle creates a possibility of pushing the descending male out of alignment. This could result, as Beadman puts it; “with the pile popping out of the circle so destroying the shaft’s required waterproofing”.

To remove this risk, engineers have adopted the novel approach of setting out the radius of each male pile exactly 65mm inside that of the females. This places each male pile on a straight line between adjacent females.

Innovative also is the 10N concrete mix design, which demands a balancing act between conflicting needs. The shaft’s secant pile perimeter is technically all temporary works, as a structural 600mm thick internal concrete lining will later take over ring compression forces.

But the piles’ deadweight is still needed to act as floatation resistance in the wet lower ground strata, and the females’ 10N concrete is both a real minimum and maximum strength. Additionally, the piles have to resist the surrounding ground’s high sulphate content - a demand pointing to extensive use of sulphate resisting cement.

The mix adopted blends these two requirements. Sulphate resisting cement is not used, but over 90% of the conventional cement is replaced by a secret mix of granulated blast furnace slag and admixtures.

With all the piling due to be complete by last week, Murphy’s Gavin Symonds reflects on the success of the contractor choosing secant piling over diaphragm walling.

“Not only has piling, at around £1.2M, proved 20% cheaper, but it has also saved us an estimated six weeks on the diaphragm walling tender programme,” he says. “Plus the piling itself has been completed five weeks faster than we planned.”

Contributing to this claim was the decision to bring in a second set of pile casings to maximise rig use. While one pile was being concreted, the BG40 was starting to drill a second bore.

This simple addition to the site’s arsenal increased pile rates from four and a half to eight a week, and saved near three weeks alone. Symonds calculates the basic financial gains of such a move: “The £9000 hire cost of the casings, set against taking the rig off hire three weeks early saving us £84,000, illustrates the obvious win-win solution,” he argues.

Similar innovation resulted when solving the conflict of an up to 4.2t pile rebar cage, 29m long, having to remain stable in its founding medium of waterlogged sands. It could not be allowed to move while either being surrounded by pile concrete or during follow-on casing removal.

The simple solution was to weld a flat steel plate across the bottom of each reinforcement cage to act as a steady base – and it worked.

With piling complete, and shaft excavation starting, Symonds is keen to dig out the upper 11m of material before the site’s Christmas shutdown. At this level the secant walls will need their first internal support.

But, instead of installing conventional temporary steel walling supports, Murphy is opting to cast a narrow 2m wide section of permanent concrete lining around the shaft to act as a ring beam.

Concern over achieving, at this excavation stage, the required concrete finish on the lining – plus the need to easily incorporate the beam into the main lining as it is later cast upwards from the shaft bottom – will result in the beam being formed only half the lining’s full 600mm thickness. It is this beam that needs to fully cure over the Christmas break, offering Murphy a running start in the New Year.


Posted 02 December 2010

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