BROOKFIELD, CT - When Lynden Pindling International Airport in the Bahamas began a three-phase $400 million expansion and renovation, Stantec engineers came on board to design the airport's new stormwater management systems.
The airport presented significant challenges for stormwater management. The large site featured an exceptionally flat terrain and a high level of groundwater - about six feet below the finished grade and about three feet below the existing ground. The site offered little opportunity for infiltration or for conveying stormwater in piped systems.
For the airport's landside areas, the engineers found their solution in two CULTEC underground stormwater systems. The RechargerÂ® 180 HD unit is 36 inches wide by 20.5 inches high, with a chamber storage capacity of 3.45 cubic feet per linear foot. It provided the largest storage volume and was the best fit in the given depth-restriction scenario.
"CULTEC allowed us to select from nine chamber sizes to accommodate the flat topography and high groundwater, solving our onsite issues," said Stantec Project Engineer Patrick Clark who designed the landside stormwater systems.
Designed with HydroCADÂ® modeling software, CULTEC systems can handle at least six inches of runoff over the entire drainage area or a rain event of one-inch intensity for a duration of six hours, as required by the Bahamas' stormwater regulations. HydroCAD already included the Recharger 180 HD parameters, so the engineers only needed to specify the six-inch layers of backfill stone above and below the chambers for both systems.
The two specified CULTEC systems offered a combined 42,068 cubic feet of storage. The storage volume was about 35.37 cubic feet per installed chamber, including the storage capacity of the stone. While the systems function independently to distribute and balance stormwater runoff, they are also interconnected in the event that any one system reaches capacity or overflows through the outlet control structure.
Moreover, CULTEC systems are connected to several open swales and retention ponds distributed throughout the site to allow for excess storage capacity. The open detention ponds are drained with deep drainage wells for rapid dewatering and provide for infiltration and evaporation.
The use of underground stormwater systems helped solve yet another project challenge. The hard durable rock needed for the installation would have to be imported to the Bahamas. According to CULTEC's Vice President Fred Dotson, the company's systems use less stone than other comparable systems on the market, lowering the overall installation costs.
Both CULTEC systems were installed using the company's unique internal manifold, which allows manifolding to take place at any point within the stormwater system, thereby condensing the system while decreasing the required footprint. The custom manifold allowed for maximum design flexibility and eliminated the need for costly fabricated pipe manifolds. According to Clark, the advantages of the internal manifold capability contributed to the engineers' decision to select CULTEC systems for the project.
At Lynden Pindling International Airport, CULTEC systems work together with open swales, retention ponds, and deep drainage wells to handle large amounts of runoff onsite. According to Clark, the underground systems not only solved the issues of high-level groundwater and flat terrain but also permitted the use of space above the systems for parking areas.
For more information about CULTEC products, please call (203) 775-4416 or visit www.cultec.com..
In 1986, CULTEC introduced its ContactorÂ® and RechargerÂ® HDPE septic and stormwater chambers and helped begin a revolution toward the use of plastic construction products. Since then, several product developments and strategic alliances have made CULTEC a cutting-edge R&D-based manufacturer. CULTEC chambers can be used as subsurface retention or detention systems and as replacements for ponds, concrete structures or pipe and stone installations.
CULTEC manufactures nine different chamber sizes ranging from 8.5" - 32" to accommodate almost any site parameter. The chambers' perforated sidewalls and fully open bottoms promote maximum infiltration capability and allow for the transfer of high volumes of water at a low velocity. The units can be installed singularly or in series in single- or multi-layer beds.
In addition, CULTEC developed its own in-line side portal manifold system, which eliminates the need for a conventional pipe header system, and water quality unit for maintaining CULTEC chamber systems. CULTEC products meet H-25 wheel load requirements, have a 10-year warranty and are currently modeled in HydroCADÂ®, Bentley Systems, Inc.'s PondPackÂ®, BOSS International's StormNETÂ®, and Streamline Technologies' ICPRÂ®.
CULTEC's technical staff offers free design assistance including preliminary calculations and job-specific CAD details. A free CULTEC StormGenie(TM) -- AutoCADÂ® Plug-In for designing CULTEC systems and a free HydroCAD CULTEC custom edition are also available from the company. In addition, CULTEC products can contribute to the U.S. Green Building Council's credits, under the LEED rating system, when the project is designed per LEED requirements.
Catalyst Marketing Communications, Inc.