Culvert Replacement for SFWMD S-124 Structure

culvert replacement

Culvert Replacement Project forSFWMD S-124 (Gated)

CLIENTS:

Arcadis

South Florida Water Management District

LOCATION:

Sunrise, Florida

ESTIMATED CONSTRUCTION COST:

$3,000,000

PROJECT DESCRIPTION / ENGINEERING SCOPE OF WORK:

Culvert Replacement Project for SFWMD S-124 (Gated)

Ross Engineering provided civil engineering culvert replacement services on an existing South Florida Water Management S-124 culvert replacement project in the city of Sunrise Florida. The culvert replacement of the existing S-124 structure has the new structure proposed approximately 150 feet north of the existing structure. With this new proposed location, the road was extended north on both sides of the canal. The road is proposed with a 12 inch compacted sub-base and 12 inches of compacted limestone. A general permit has been identified by the Broward County EPD which requires water quality treatment to be applied to the limits of construction, excluding the canal right-of-way.

Project Drawing PDF Files

S-124 Culvert Replacement Paving, Grading and Drainage

Ross Engineering, Inc. was the civil engineer of record for the S-124 culvert replacement project located 13 miles west of Ft. Lauderdale on the L-35A borrow canal north of the junction of the borrow canal and the North New River Canal in Broward County. The structure is within the Ft. Lauderdale Field Station service area in Broward County (Section 5, Township 50, Range 40), and is owned and operated by the SFWMD. It is part of the C-13 and North New River basins. In addition to the civil culvert replacement design drawings, Ross Engineering and King Engineering were responsible to complete a very detailed hydraulic design report using information from the District’s DB-Hydro database to statistically model the new structure using historical flow and stage data, both instantaneous and daily. A levee road ramp was designed with compensating treatment for water quality volume handled in retention swales on the east side of the canal. The hydraulic design report for the culvert replacement concluded that three 8’x6’ CIP box culverts were sufficient to pass the required 550 cfs of discharge under extreme event conditions. A by-pass flow-way was designed to allow for construction in the wet season under equally severe conditions.

The S-124 culvert replacement structure functions together with S-125 on the C-42 Canal, S-38C on the L-36 Canal, and S-36 on the C-13 Canal to maintain an optimum water surface elevation in the C-13 Basin and to maintain a stage in the L-35A borrow canal to reduce seepage discharges from Water Conservation Area 2B (WCA-2B) through the L-35A levee. S-124 functions as the divide between the C-13 and North New River basins. It is normally closed to maintain a high stage on the L-35 borrow canal to reduce seepage losses from WCA-2B. When closed, seepage from WCA-2B and runoff from the North New River Basin (approximately 3,041 acres) discharge into the C-13 Canal which has an open connection to the L-35A borrow canal via the C-42 Canal. Under flood conditions, S-124 opens to discharge excess water into the North New River Canal. Outflows into the North New River either discharge to tide via G-54 when capacity is available, or is pumped into WCA-3A via the G-123 pump station. Culvert replacement project was a big success for SFWMD.

Client:
South Florida Water Management District
ARCADIS (Prime)
Jockey Prinyavivatkul, Project Manager
2081 Vista Parkway
West Palm Beach, Florida 33411
Tel 561.697.7000
Jockey Prinyavivatkul

Key Staff:
Robert J. Ross, P.E. , Sr. Engineer
Georgio Tachiev, P.E. PhD, Sr. Hydrologist
Agustin Maristany, P.E., QA/QC Engineer (King Engineering)

Engineering Services: June 2009 – December 2009
Engineering Services Design Fee: $ 145,000

culvert replacement
culvert replacement
culvert replacement

Culvert Replacement Project forSFWMD S-124 (Gated)

South Florida Water Management District

For more on the design of highway culverts visit the US Department of Transportation Federal Highway Administration website.