Steel Sheet Pile Cofferdam Construction: Key Procedures and Best Practices

1. Construction Preparation

① Inspection and Classification

• Transport new and used steel sheet piles to the site.

• Conduct detailed inspections, measurements, and classification, labeling each pile accordingly.

② Repair and Modification

• Straighten bent, damaged, or improperly locked sheet piles using cold bending, hot forging, welding, or cutting.

• For insufficient lengths, weld additional sections of the same type—first butt welding, then reinforcing with steel plates.

2. Installation of Steel Sheet Pile Cofferdam

① Guide Frame Setup

• Precisely measure and drive two sheet piles, then weld steel brackets.

• Place two additional sheet piles on the brackets to form a stable guide frame (removed and reinstalled after completion).

② Pile Driving

Equipment:

• 10-ton floating crane

• 60T hydraulic vibratory pile hammer

• Transport barge (modified from three standard barges)

• 40T crawler crane

Driving Method:

• Install three sides of the rectangular cofferdam first, then the final side after alignment.

• Advantages: Faster installation, minimal alignment errors, and easier closure.

Driving Sequence:

• Start upstream, then proceed downstream for closure.

Verticality Control:

• Two workers monitor alignment using plumb lines from 50–100 meters away.

3. Cofferdam Sealing

① Dredging

• After closure, remove sediment using divers and high-pressure water jets.

• A slurry pump extracts loosened mud from the basin.

② Rock Filling and Concrete Sealing

• After reaching design elevation, fill with 50 cm of crushed stone (max. 20 cm diameter).

• Pour a 1.5 m thick underwater C25 concrete seal in one continuous operation using tremie pipes (3.0 m effective radius).

4. Installation of Internal Bracing

① Setup After Sealing

• Begin dewatering and install wales and bracing once concrete reaches 50% strength.

② Key Principles:

• “Brace first, dewater later”—install supports layer by layer during dewatering.

• First, dewatering is critical; ensure sufficient pumps for rapid water removal.

• Reinforce corners with steel sections due to complex stress distribution.

③ Monitoring

• Focus on deformations in wales, bracing, and sheet piles.

• If excessive movement occurs, halt dewatering, refill the cofferdam, and reinforce before resuming.

Case Study: Main Pier Foundation Construction

Project Overview:

• Design: 16 × φ250 cm piles, 52 m deep.

• Challenge: Steep riverbed with 12 m water depth variation.

Innovative Solutions:

• Modified double-wall steel cofferdam with rectangular, asymmetrical high-low cutting edges.

• Installed using a guide frame barge.

• Step-like concrete pouring with partition plates to reduce material usage.

Construction Steps:

1. Fabricate a cofferdam on-site.

2. Install using guide barges.

3. Stabilize and set steel casings.

4. Form a drilling platform for pile construction.

5. After pile testing, dewater, trim piles, and build the cap.