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Edinburgh Airport

SDS Limited Stand: N140
Edinburgh Airport
SDS installs Scotland's largest stormwater attenuation system

OVERVIEW

It is essential that, during heavy rainfall, stormwater drains as quickly as possible from the new 75,000m² concrete pavement area created as part of the Stands Development. Due to their location away from the main airport terminal, passengers will be transported by bus to and from the stands. With aircraft operations, service vehicles and passengers on foot, effective flood-free drainage across the entire pavement area is essential to ensure the airport can continue to operate efficiently and without interruption.

SDS was tasked to effect the fast and efficient removal of surface water from the site and to ensure its safe dispersal to natural water receptors. As well as mitigating anticipated flooding issues as a consequence of the airport’s expansion, this involves minimising the airport’s impact on the environment, while satisfying the environmental demands of the West Edinburgh Strategic Design Framework (WESSDF).

WHAT WE DID

Surface water, predicted to run off the newly-created impermeable surface at flows of up to 3,000 l/s, must not be allowed to discharge into receiving natural water bodies surrounding the airport at a rate that could cause environmental damage or flooding. Instead, it is collected via a gravity network of heavy-duty slot drains and a 660m-long run of 1,500mm diameter pipes, before being fed, via a single 1,500mm pipe, to the SDS GEOlight® attenuation system.

Installed approximately 20 metres to the south of the new stands area, the GEOlight® tank, measuring 72 metres long, 32m wide and 3.25m deep, is designed to hold back almost 7,000m³ of surface water during heavy storms. A number of oil interceptors are positioned along the gravity network to clean the water before it enters the GEOlight® tank.

A pumping station carefully controls the amount of water leaving the tank so that discharge into the Gogar Burn, which runs along the airport perimeter and eventually into the River Almond, is limited to 110 l/s, the maximum flow rate permitted by the Scottish Environmental Protection Agency (SEPA).

In time for winter 2019 and anticipated freezing weather conditions, Careys have constructed a system to hold surface water collected in the SDS GEOlight® tank if a sensor detects that it is contaminated with Glycol anti-freeze. The polluted water would then be diverted into specially-designed storage tanks, where it would be collected and correctly disposed of.

RESULTS

Selecting the right design for a tank of such large proportions was the first challenge to overcome. Given the size, the only potential solutions were either a concrete tank or modular crate storage. Installing a concrete tank would, however, have posed significant civil engineering challenges. With a tight programme, specifying SDS modular storage offered the advantage of both buildability and speed.

SDS worked on the tank design with consulting engineers Amey to optimise the strength and durability of the tank during its design life. With good ground conditions of sandy clay, Careys was able to prepare the excavation, measuring nearly 100m x 50m at ground level, ready for SDS to install the tank.

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