Flood Barrier (2)

Flood Barriers to keep you safe.

Protect communities, infrastructure, and properties from flooding with Geodesign Barriers. Our self-anchoring flood barriers are made from durable steel, providing a strong and reliable defence against rising waters. With the ability to handle uneven surfaces and rough terrain, these barriers can withstand dam heights of up to 2.45 meters.

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Geodesign Flood Barriers: Engineered for the Toughest Floods

Geodesign Flood Barriers offer a comprehensive range of products engineered to address diverse flooding challenges. Our three distinct product series – Heavy Duty, Industrial, and Elemental – are optimised for all types of flood conditions.

Our flood barriers boast a robust steel structure and incorporate lightweight components with a sophisticated design. This enables fast and easy deployment in any desired line or formation, ensuring efficient and effective flood protection.

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European Patent
FM ANSI 2510
ISO 9001
US Patent
BSI Kitemark PAS 1188
Maximum Dam height 41 - 61 cm
Set up time 100 m / 5 persons 30 minutes
Footprint barrier 42 - 70 cm
Section Width (ctc) 91.4 - 100 cm
Barrier support Weight 1 - 4 kg

Available models:

E41

E61

Maximum Dam height 61 - 121 cm
Set up time 100 m / 5 persons 35 -70 minutes
Footprint barrier 57 - 146 cm
Section Width (ctc) 80 - 100 cm
Barrier support Weight 9 - 15 kg

Available models:

P61

P81

P101

P121

Maximum Dam height 122 - 245 cm
Set up time 100 m / 5 persons 60 - 180 minutes
Footprint barrier 180 - 370 cm
Section Width (ctc) 122 cm
Barrier support Weight 24 - 63 kg

Available models:

C122

C152

C184

C213

C245

Making the Right Choice: 

9 Key Criteria to Consider When Buying a Flood Barrier

When it comes to purchasing a flood barrier, there are many factors to consider. While each flooding event is unique, taking a comprehensive approach to understanding your specific situation can increase your chances of finding the right solution. With our 25 years of experience, we want to assist you in making an informed decision. To help you in this process, we have compiled a list of crucial criteria to consider:

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9 – key criteria – Quality labels

1. Quality labels.

Ensure that any flood barrier system you consider is certified by a trusted third party for reliability. A failing flood barrier can have catastrophic consequences, causing significant damage and endangering people and property.

Verify that the barrier system has quality certificates from a reputable third party. Flood operation activities and safety should always require certified products with rigorous testing and evaluation procedures as the standard.

9 – key criteria – Real references

2. Real references, from real flooding events.

When researching flood protection systems, it's crucial to look for real-world references that demonstrate the system's performance in contact with actual floodwater.

It's important to choose a system that has been proven effective in repeated flooding situations. Make sure to check for visible proof of the flood barrier withstanding floodwater, as products and systems displayed in controlled environments or on dry land may not be sufficient evidence of their capacity to withstand real flood situations.

9 – key criteria – FIlling materials

3. Does it require filling materials?

When it comes to flood systems that require filling materials such as sand, water, gravel, or air, it's important to consider all logistics involved to ensure full operational function.

This includes factors such as accessibility and handling of the filling material, which may require heavy machinery, manpower, pumps, and sufficient pumping capacity to supply the required amount of material in a timely manner to the designated flood area. Calculating these logistics and associated costs is crucial when comparing different flood solutions. In addition, it's important to note that materials like sand and water can become contaminated after a flood, and proper handling and disposal procedures must be followed to ensure responsible post-flood management.

9 – key criteria – Anchoring

4. Does it require anchoring?

It's important to consider the impact on your site if the flood barrier system needs to be anchored. This may involve additional costs or disruptions to the ground surface.

Additionally, it's essential to factor in the expenses of reinstating the ground surface after a flooding event. These considerations can help you evaluate the total cost and feasibility of a flood barrier system for your site.

9 – key criteria – Though conditions

5. Tough conditions.

It's crucial to assess whether a flood barrier system can withstand the challenges posed by tough terrain and real-world conditions. Uneven surfaces, steps, slopes, urban street furniture, overtopping, and floating debris are just a few of the obstacles that the system may encounter.

By taking these factors into consideration, you can ensure that the flood barrier you choose will perform effectively in the face of adversity.

9 – key criteria – Total cost

6. Total Life cost.

When buying flood barriers, consider the price in relation to the expected lifespan, and the impact of usage, sunlight, water, and temperature. The cost of deploying, installing, and maintaining the barrier, including filling materials, spare parts, repairs, training, deployment equipment...

...and personnel, should also be factored into the total cost of flood protection. This helps you make a cost-effective investment in flood protection.

9 – key criteria – Quick deployment

7. Quick deployment.

When it comes to flood barriers, a well-designed setup is essential for a smooth and easy set-up and take-down process. A quick installation time is critical to ensure that the flood protection is in place before flooding occurs, and it can also help to conserve resources.

However, it's important to note that some systems may look straightforward but can be cumbersome in practice due to various connections and small parts that need to be assembled into a coherent barrier. Therefore, it's crucial to select a flood barrier system that has been carefully thought out and designed to ensure a hassle-free setup process.

9 – key criteria – Contaminated water

8. Handle contaminated water

When floods occur, flood defenses may become exposed to contaminated water. This can pose a challenge for flood barriers that rely on materials like sand or water, as they may become contaminated as well.

Additionally, some plastic-based systems cannot be effectively cleaned if they come into contact with contaminated water and may need to be replaced entirely. To ensure that you are well equipped to handle such situations, it is crucial to choose a flood barrier that can effectively manage and mitigate the impact of contaminated water.

9 – key criteria – Maintenance

9. Post-flood
maintenance

There are certain costs associated with maintaining and handling flood barrier systems to ensure that they are ready for the next flood. Activities such as system inspections, removal, and clean-up can pose significant challenges if the design of the system does not facilitate easy access and maintenance.

For example, clogged fabrics that cannot be reused or sealed tubes that are difficult to dry out from contaminated water can make post-maintenance time-consuming and costly. Additionally, it's important to consider repair, replacement, and proper disposal of damaged parts.

To make an informed decision, it's recommended that you ask the supplier for more details or preferably references from other users of the system. By doing so, you can ensure that the system you choose is reliable and cost-effective in the long run.

fraser-coast-regional-council-logo-vector

"Amazingly simple product that was easy to assemble and bring down and saved our CBD (Central Business District) from flooding."

- Ken Diehm, Chief Executive Officer, Fraser Coast Regional Council, Australia

Home owner

"We decided to stay at home as we have full confidence in the barrier. It stood, rock solid on the new purpose built road surface.”

- Bob Herrick, Local resident, Ironbridge UK

Navigating the Flood Barrier Market: A Guide to Your Options

When it comes to flood barriers, the market offers a wide range of options. However, regardless of which type you choose, all flood barriers share the ability to hold back water in various ways and to varying degrees without being dislodged by the pressure exerted by the water.

These methods can generally be classified into four distinct concepts, each with its own strengths and limitations. By understanding these concepts, you can make an informed decision when selecting a flood barrier:

Filling material

The concept behind these types of flood barriers is to use a filling material such as sand, water, gravel, or stones to provide weight and create a flood defence system that stays in place. To install this type of barrier, you need vehicles to transport the filling material to site, where it is placed within the barrier's structure. If water is used as the filling material, it's important to have access to a water source prior to a flood event.

VS.

No filling

These types of flood barrier systems are designed to create an anchoring force that is stronger than the pushing force of floodwater. As a result, no additional filling material, such as sand or water, is required to hold the barrier in place.

Anchored

In order to withstand the pushing forces of floodwater, some flood barrier systems require additional anchoring beyond their own construction. This is typically accomplished by fixing the barrier to the ground using various methods.

VS.

Freestanding

The design and/or weight of the system are such that it has sufficient anchoring power to remain stable and in place without the need for additional anchoring.

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Flood Barriers: Understanding Their Unique Characteristics and Uses

There are many types of flood barriers available on the market, each with its own unique form and operational characteristics. By considering the four different concepts presented - filling material vs. no filling material and freestanding vs. anchored - we can explore the various flood barriers available on the market in more detail. Below is a brief description of some of the flood barrier types:

Sand-or-water-filled-gabions

Sand/water filled Gabions

Filling material & freestanding

Gabions are cellular barriers that can be connected to form a flood barrier line. They are typically constructed with permeable materials like geo-fabric and reinforced with frames made of wire mesh and pins. To provide stability against floodwaters, gabions are filled with materials such as sand, water, or gravel stones. These systems are called gravity dams because they rely on the weight and shape of the filling material for stability.

  • The height of the system can be increased during use, making it flexible and adaptable to changing flood conditions.
  • However, installing gabions can be time-consuming because it requires a large amount of filling material.
  • Additionally, heavy machinery such as lorries and water pumps are needed to provide the filling materials.
  • After a flood event, disposing of large volumes of contaminated filling material can be challenging.
  • Moreover, clogging of the fabric material can make it difficult to clean, and the gabions may not be reusable.
Water-filled-tubes

Water filled tubes

Filling material & freestanding / anchored

These flood barriers consist of large, prefabricated tubes made of reinforced PVC plastic. The tubes are connected to each other to form a flood barrier line. Because they rely on the weight and shape of the filling material, these systems are called gravity dams and can provide stability against floodwater.

Installing the system requires machinery such as lorries and water pumps to fill the tubes with sand, water, or another suitable material. Water-filled tubes are generally suitable for long lengths of protection close to a water source.

  • One advantage of these systems is that they require relatively small storage space.

  • However, they must be deployed close to a water source, which can limit their use in some areas.

  • These systems are highly susceptible to vandalism or damage by sharp objects.

  • Additionally, any tears or punctures can rapidly lead to failure of the whole system, which can compromise its effectiveness.

  • Finally, the tubes require relatively flat surfaces for deployment, which may not be feasible in all locations.

Ancored-Vertical-Wall

Ancored Vertical Wall

No filling & Anchored

These flood barriers are made up of rigid, self-supporting elements that interlock to form a continuous wall. The elements are typically prefabricated and jointed, with an L-shaped structure that utilises the weight of the floodwater to create an anchoring force. However, additional anchoring may be required to prevent movement, which could involve ground investigation and/or pre-installation. This anchoring can make these systems less versatile compared to freestanding systems. The front edge of the system is designed with a seal to prevent seepage.

  • One advantage of these systems is their relatively small footprint on the ground.

  • However, the need for ground anchoring can make the preparation of the flood protection process similar to demountable systems.

  • These systems are not suitable for use on uneven ground.

  • Finally, the longer deployment time needed for anchoring in the ground may be a disadvantage in some situations.

Freestanding-Vertical-Wall

Freestanding Vertical Wall

No filling & Freestanding

These flood barriers consist of rigid self-supporting elements that are connected to form a continuous flood barrier wall, similar to anchored vertical walls. The L-shaped structure uses the weight of floodwater over the front edge of the system to provide stability and create a seal towards the ground.

However, it's important to note that:

  • These barriers may not be suitable for natural surfaces like grassland or arable land, as seepage under these systems can be significant, especially in uneven terrain due to their rigidity.

  • These barriers are best suited for diverting water flows rather than withholding water due to the high seepage underneath the system.

  • While they are quick and easy to deploy, it is essential to consider their limitations.

  • They may not work for higher flood levels, and they are not suitable for uneven ground.

  • Despite being cheap and easy to deploy, the high leakage underneath the rigid elements must be taken into account when selecting the right flood protection system.

Freestanding-A-Frame-Metal-Barrier

Freestanding A-Frame Metal Barrier

No filling & Freestanding

Frame barriers are a modular flood barrier system consisting of rigid frames covered with impermeable materials. They are freestanding and use the weight of the water for stability, making them self-anchoring. This engineered construction allows them to withstand floodwater and do well in uneven terrain. Assembling them is easy and follows a logical step-by-step procedure, and no parts are heavier than what two persons can carry.

Key features of frame barriers:

  • Modular barrier made of rigid frames and impermeable materials.

  • Freestanding and self-anchoring, using water weight for stability.

  • Engineered construction that withstands floodwater and works well in uneven terrain.

  • Easy assembly with logical, step-by-step procedure.

  • Lightweight parts that are easy to carry.

Anchored-Pop-Up-Plastic-Canvas

Anchored Pop Up Plastic Canvas

No filling & Anchored

These barriers are designed to protect against floodwater and are composed of free-standing sections made of flexible and impermeable plastic. The system is anchored to the ground for stability, and the floodwater itself is used as filling material. Stability is achieved through the weight of the water acting on a long skirt located in front of the system. During critical moments, operatives are required to ensure that the floodwater enters the system correctly.

  • Using floodwater as filling material.

  • Requires manual labour during critical moments.

  • Comes in fixed lengths.

  • Risk of collapsing if floodwater overtops
    construction.

  • Not very flexible.

Water-filled-containers

Water filled containers

No filling & Freestanding

These flood barriers consist of water-filled containers that are cellular in structure and can be linked together to form a line of defence against floodwater. They are often made of impermeable materials such as polyester, polyethylene, and plastic, and achieve stability through their shape and weight of the filling material. However, they are prone to sliding when overtopped. These gravity dams require machinery such as lorries and water pumps for installation, and the mobilisation and deployment process is affected accordingly. Minor leaks can usually be repaired in service. The system has a rigid bottom and is not suitable for uneven terrains.

  • Made of impermeable materials such as polyester, polyethylene, and plastic.

  • Achieves stability through the shape and weight of the filling material.

  • Prone to sliding when overtopped.

  • Requires machinery for installation.

  • Not suitable for uneven terrains and has a rigid bottom.

Don't delay – contact our experts today for a tailored consultation.

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What do you want to know about Geodesign Barriers?

What Specific Knowledge is Required to Use the Flood Barriers?

Using Geodesign Flood Barriers effectively doesn't require a specialized professional background. To ensure competent deployment, we recommend that at least two members from the responsible authority undergo proper training in temporary flood protection, in addition to receiving product-specific instruction.

The beauty of the Geodesign Flood Barrier system lies in its simplicity. Our comprehensive instruction manual is designed so that individuals without specialized training can assemble the barrier correctly. The assembly process is manual, eliminating the need for tools or heavy machinery. Additionally, there are no loose parts that require complex mounting onto the steel structure.

In essence, the combination of straightforward instructions and the system's design makes it accessible for users with various levels of experience, ensuring reliable and efficient setup during crucial times.

What Underlay Can the Flood Barriers Be Placed On?

The Geodesign Barrier system is designed to be versatile and adaptable, capable of being deployed effectively on a variety of surfaces that provide sufficient friction. These include tarmac, various sizes of gravel, grass, clay, and even mud.

Given that both urban and rural environments often present challenges like uneven terrain and solid obstacles, the system's flexibility is a significant advantage. It can be used effectively on almost any type of ground surface. The system's ability to build corners and connect to walls allows it to protect almost any building or infrastructure asset, regardless of its location. It also handles shifts in level, such as curbs, steps, or uneven ground, with ease.

In cases where the underlay is smooth concrete, which provides less natural friction, an anchor pin is used to help stabilize the support. This ensures that the barrier remains secure and effective even on less ideal surfaces.

In summary, the Geodesign Barrier system is highly adaptable, making it suitable for a wide range of terrains and surface types, ensuring reliable flood protection in diverse conditions.

How Much Water Pressure Can the Flood Barrier Resist?

Geodesign Flood Barriers are engineered to be highly stable and withstand significant water pressure. They maintain stability all the way to the top, offering maximum protection at their designated water depth. These barriers are designed to be stable at 100% full static load, and they also incorporate a structural factor of safety that accounts for added dynamic loads caused by lateral currents and waves.

The barriers have undergone rigorous testing and are certified according to Kitemark BS 851188-2 standards. They have been proven to resist a Designated Maximum Water Depth (DMWD) of 1.00 meter. This certification ensures that they meet stringent safety and performance criteria.

Additionally, the barriers are FM approved, meaning they comply with the high standards set by FM Global, a leading property insurance and risk management organization. This approval signifies that the barriers are reliable, effective, and capable of withstanding the pressures and challenges posed by flood conditions.

In summary, Geodesign Flood Barriers are robustly designed and thoroughly tested to resist high water pressure, ensuring effective flood protection in demanding scenarios.

Is There Any Risk of Damage, Theft, or Vandalism?

Geodesign Flood Barriers are designed with durability in mind. Their underlying structure is made of high-strength steel, which significantly reduces the risk of damage from floating debris and makes them less susceptible to vandalism. Sharp objects such as knives or any floating debris are unlikely to cause severe damage that would compromise the barriers' functionality.

However, despite their robustness, we still recommend that the flood barrier setup be monitored throughout the duration of the flood. This is important not only to stay alert and ensure a successful flood fighting operation but also to minimize the potential risk of vandalism. The level of surveillance may vary based on the location and circumstances, but generally, it’s advisable to have someone responsible for inspecting the barrier regularly. This person should ensure that any necessary repair work is carried out promptly and effectively, maintaining the barrier's integrity throughout its deployment.

In summary, while Geodesign Flood Barriers are built to withstand harsh conditions and resist damage, ongoing vigilance and maintenance are still crucial for optimal performance and security.