What is Tremie Pipe and It’s Use in Underwater Concreting

Underwater construction projects require techniques and equipment to ensure the integrity and strength of concrete. One such essential equipment is the tremie pipe, an innovative solution that has revolutionized underwater concreting. But what exactly is a tremie pipe, and how is it used in construction projects? Dive into the world of pipes and discover their importance in creating strong, reliable underwater structures.

Key Takeaways on Tremie Pipe

• Tremie is a tool used in the tremie method of underwater concreting.
• The tremie method is a reliable and effective way to place concrete, utilizing key components such as a conical hopper and tremie pipe for proper concrete placement.
• Regular cleaning & storage of tremie is essential for optimal performance when using them in bridge/pier construction, diaphragm walls, or foundations.

Understanding Tremie

Smooth concrete flow and prevention of cement washout due to turbulent water contact are vital for underwater concreting projects. This is where pipes come into play. Employed for pouring concrete underwater in various applications, such as:

• basements
• diaphragm walls
• piling works
• caissons
• underwater foundations

Tremie enables the tremie method of underwater concreting. The major aim of pipe extending is to place the concrete mix in its final position on the floor with minimal disruption, and the tremie seal serves to prevent the intermixing of water and concrete in the tremie pipe.

Pipes are equipped with:

• A screw thread with an O-ring seal to adjust the length of the tremie pipe extending during the pour
• A foam rubber ‘pig’ to plug the tremie pipe while introducing the first batch of concrete
• A wide funnel at the top of the tremie pipe for efficient pouring of concrete

The tremie method of underwater concreting includes using concrete anti-washout admixtures to enhance the cohesion of concrete and minimize the washing out of finer particles of fine aggregate, as well as the discharge opening submerged in the placed concrete to regulate the flow of concrete.

Materials and Sizes

The construction material of a tremie pipe is crucial during selection. Usually made from polyethylene, tremie pipes are suitable for underwater concrete projects. However, avoid aluminum alloy pipes as they can chemically react with concrete.

Tremie pipes come in various sizes to fit different project needs. Common sizes include 12” diameter by 4-foot long and 8” diameter by 4-foot long. The diameter range of 20-30 cm is important for effective concreting. The standard length of a tremie pipe is 300mm, allowing concrete to be pumped directly to the site while preventing water ingress.

Components and Accessories

Several components and accessories are necessary for the effective operation of pipes. These include hoppers, clamps, collars, and torpedo groovers. The hopper is located at the top of the tremie pipe, facilitating batch loading of the concrete or enabling pumping of the concrete into the tremie pipe.

Tremie Concrete Clamps and Collars are also crucial accessories.

• Manufacturers construct Tremie Concrete Clamps from stainless steel, designing them to fit an 8-inch or 12-inch trunk.

• Tremie Collars are made from steel and include connecting chains to secure them to the concrete tremie pipe.

• These products come in two sizes: 12” diameter and 8” diameter.

Another essential accessory is the torpedo groover, a tool used to cut straight control joints in concrete.

The Tremie Method for Underwater Concreting

The tremie method specifically places underwater concrete or in water-saturated conditions. It was mentioned before during the process of concreting. This method yields a more reliable strength of the product, ensuring that underwater structures are built to last. The technique ensures that concrete flows continuously from the bottom of the pipe to its final position underwater with minimal disturbance. One of the key components in the tremie method is the conical hopper on the top portion of the tremie pipe, which facilitates batch loading of the concrete or enables pumping of the concrete into the tremie.

Keep the lower and upper ends of the tremie pipe immersed in fresh concrete during pouring. This is crucial to pour concrete underwater and prevent cement washout. It ensures the rising concrete displaces water from the upper surface and curbs cement washout. This method ensures proper concrete placement and avoids washout, making the tremie method highly effective in concreting projects.

Process and Techniques

The tremie method follows a sequence of steps including  concrete placement, flow control of concrete, tremie pipe seals and a continuous flow.

1. Tremie comes in three configurations: constant length, different sections, and telescope.
2. These pipes are designed to be raised during concreting, disassembled into different sections, or simply telescoped dynamically.

Successful underwater concreting requires careful control of the concrete flow rate. Adjust the height of the tremie pipe to manage this. To ensure proper concrete placement, firmly position the tremie pipe at the bottom surface. Start with a small amount of concrete to displace water effectively.

Maintain a continuous flow of concrete through the tremie pipe to prevent water ingress. If the tremie method needs lateral movement, lift the tremie pipe, plug it, and begin a new pour at the new position. Use multiple tremies in parallel to manage areas exceeding the capacity of a single tremie. Ensure a suitable concrete mix with high flowability for easy placement and consolidation in projects.

Guidelines and Best Practices

Following guidelines and best practices when using the tremie method for underwater concreting ensures optimal results. Key practices include ensuring an appropriate mix consistency, avoiding blockages, and proper tremie pipe lifting. Essential specifications include selecting and designing the tremie, creating an appropriate concrete mix, preventing blockages and a continuous concrete flow.

Specific guidelines for the concreting process include:

• Placing the tremie pipe firmly on the bottom surface.
• Keeping the lower end of the tremie pipe immersed in fresh concrete.
• Monitoring the concrete level in the tremie pipe to ensure a continuous flow and prevent blockages.

After completing the concrete placement, slowly withdraw the pipe while a continuous flow to prevent void formation. Adhering to these guidelines and best practices ensures effective use of the tremie method, minimizing disturbances during concrete placement and ensuring the quality and strength of structures.

Types of Underwater Concreting Methods

Despite the popularity of the tremie method for underwater concreting, awareness of other techniques is critical. Some of these methods include the Hydro Valve Method, the Bagged Concrete Method, and the Skips Method. Each of these methods has its own advantages and disadvantages, making it crucial to choose the most suitable technique for a specific construction project.

Understanding the differences between these underwater concreting methods and the tremie method can help construction professionals make informed decisions regarding the most appropriate technique to use. To gain further insight into each of these methods, we will now explore the pumping technique, hydro valve method, and preplaced aggregate concrete method in more detail.

Pumping Technique

The pumping technique for underwater concreting is a method for the installation of concrete below the waterline using concrete pumps. This technique involves transferring the concrete to the desired location underwater via pumping, belt conveyor, or skips. The end of the pipelines is then inserted deeply into the water to ensure proper placement of freshly placed concrete.

Unlike the tremie method, the pumping technique for underwater concreting does not necessitate a tremie pipe to establish a seal before the initial pour of the concrete. This technique is highly effective for underwater concreting, as it allows for precise control over the concrete flow and minimizes the risk of air pockets forming in the concrete. Moreover, it is suitable for a wide range of construction projects, including bridge and pier construction, diaphragm walls, and underwater foundations.

Hydro Valve Method

The Japanese originated the Hydro Valve Method of underwater concreting, and the Dutch developed it in 1969. This method uses a flexible hose that hydrostatically compresses to dispense underwater concrete. The concrete weight counteracts the friction inside the tremie pipe and the hydrostatic pressure, causing the concrete to move slowly in the watertight tremie pipe and preventing segregation.

The Hydro Valve Method offers several advantages in underwater concreting projects. It is a dependable and effective means of pouring underwater concrete, providing precise control over the concrete flow and minimizing the risk of air pockets forming in the concrete. This method has been successfully used in various construction projects, highlighting its versatility and effectiveness.

Preplaced Aggregate Concrete

The Preplaced Aggregate Concrete method is another underwater concreting technique that involves placing aggregate in form of plastic tubes and injecting concrete from the bottom to the top. The maximum aggregate size allowable for this method is 40 mm, and the capacity of the bags utilized in the bagged concrete method ranges from 10 to 20 liters.

This method has several benefits, including its speed and efficiency, as well as its ability to mitigate the risk of contamination. The preplaced aggregate concrete method typically achieves 70 to 100 percent of the strength of conventional concrete. Its use in construction projects highlights its potential as an alternative to the tremie method for specific applications.

Applications and Uses of Pipes

Tremie is versatile and widely applicable in construction and related industries. Their primary purpose is to facilitate the placement of underwater concrete for various projects, including:

• Piling works
• Basements
• Diaphragm walls
• Caissons
• Pouring concrete below ground level

Pipes are commonly employed for pouring underwater concrete in bridge and pier construction, diaphragm walls, and underwater foundations. In the following subsections, we will explore the role of pipes in these specific applications.

Bridge and Pier Construction

Pipes are integral to bridge and pier construction projects, facilitating the underwater concrete placement for these structures. Pipes enable concrete to be placed precisely at the desired location underwater, permitting the construction of foundations, piers, and other underwater structures. They are particularly beneficial in deep placements where tremie pipe buoyancy is a factor.

The use of pipes in bridge and pier construction ensures the quality and strength of the resulting structures, making them an indispensable part of the underwater concreting process. By employing tremie pipes, construction professionals can overcome the challenges of placing underwater concrete and create strong, durable foundations for bridges and piers.

Diaphragm Walls

Diaphragm walls are reinforced concrete structures and foundation systems typically employed for deep excavations. The construction process involves:

1. Excavating a trench
2. Pouring concrete into the trench
3. Utilizing tremie pipes to facilitate the placement of underwater concrete for the construction of diaphragm walls

Pipes enable a continuous and consistent concrete flow through long steel tremie pipe, ensuring proper placement and consolidation.

By using tremie pipes in the construction of diaphragm walls, construction professionals can ensure the quality and strength of the retaining structures and foundation systems. This makes an essential component of the underwater concreting process for diaphragm walls, helping to overcome the challenges associated with deep excavations and ensuring the long-term stability of these structures.

Underwater Foundations

Builders widely employ tremie in underwater foundations for various purposes, including:

• Piling works
• Basements
• Diaphragm walls
• Caissons
• Other underwater concrete structures

Use gravity feed from a hopper through a tremie pipe to place concrete precisely at the desired underwater location. This ensures the quality and strength of the resulting structures. To pour underwater concrete effectively, use the right equipment and techniques.

Tremie pipes in underwater foundation construction highlights their versatility and effectiveness in various underwater concreting applications. By employing tremie pipes in these projects, construction professionals can create strong, durable underwater foundations that meet the demands of various structures and environments.

Maintenance of Tremie Pipes

Maintenance ensure the optimal performance of tremie pipes. Regularly inspect tremie pipes for defects. Clean and store them correctly to prevent blockages and other performance issues.

The following subsections will offer tips and advice on common tremie pipe issues and for optimal performance.

Preventing Blockages in Tremie Pipe

Blockages, a common issue with tremie pipes, can notably affect the efficiency of underwater concreting operations. To prevent blockages, maintain a consistent mix and avoid overfilling the hopper. Use a torpedo groover. Ensure the mouth is submerged 1-1.5 meters in freshly poured concrete. This prevents water ingress, ensuring high-flowable concrete.

Regular inspections of tremie pipes prevent blockages, ensuring smooth concrete projects. Following these strategies maintains efficient construction. Proper maintenance will help to avoid costly delays and ensure the quality and strength of the resulting structures.

Cleaning and Storage of Tremie Pipe

Proper cleaning and storage are other crucial aspects tremie pipes. Here are some steps to follow:

1. Flush the tremie pipes with water.
2. Store the tremie pipes in a dry place.
3. Inspect PVC or plastic materials such as tremie tubes and dispose of items that cannot be cleaned.
4. Wash the pump exterior with detergent and water.

Construction professionals can ensure their effectiveness in underwater concreting projects by properly cleaning and storing tremie pipes. Regular maintenance prevents blockages, and contamination, ensuring tremie pipes stay vital for underwater concreting.

Summary of Tremie Pipe

In conclusion, tremie pipes are essential for underwater concrete, providing reliable placement. Understanding the method, components, and best practices is crucial. Proper maintenance ensure effectiveness. Construction projects benefit from their successful utilization. Tremie pipes contribute to the creation of durable structures. Their role in underwater concreting cannot be overstated. Embracing tremie pipes enhances construction efficiency and quality.

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Frequently Asked Questions About Tremie Pipe

What is a tremie pipe?

A tremie is a rigid metal or plastic with a diameter ranging from 20 – 30 cm, used for pouring concrete below ground or water level, often underwater. It is commonly used in piling works, basements, diaphragm walls, caissons, and foundations.

How does a tremie pipe work?

A tremie pipe operates submerged in concrete, displacing water as fresh concrete rises. It prevents mixing and maintains the cement content, ensuring quality by keeping concrete and water separate during placement. This method safeguards structural integrity by avoiding dilution of the concrete mix with water. It’s a crucial technique for ensuring the strength of poured structures.

What is tremie concrete used for?

Builders use tremie concrete, a self-compacting, segregation-resistant mixture, to pour foundations like piles and diaphragm walls. They also use it to ensure the product’s strength by avoiding cement washout caused by turbulent water contact with the concrete.

What are the requisites of the tremie pipe?

The diameter should preferably be 200 mm for all diameters within 600 mm, and 150-200 mm for aggregate sizes of 20-25 mm.

What is the main purpose of tremie pipes in construction?

Tremie pipes are a crucial tool for construction, enabling smooth flow of concrete and protecting it from washout due to turbulent water contact

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