The Advantages of Polyethylene Pipes in Modern Construction

Introduction

Did you know that, in modern construction, up to 60% of the cost comes from construction materials? That’s why selecting the highest quality and most cost-effective materials for your projects is crucial. Materials should be strong, durable, and able to withstand the test of time.

One material has emerged as a game-changer—polyethylene pipes (PE). This versatile plastic material offers many advantages that have revolutionised the way we build. So, if you’re curious how a special type of plastic pipe redefined modern construction, read on to find out!

Advantages of Polyethylene Pipes

Durability and Longevity

PE pipes are renowned for their exceptional resistance to corrosion and long lifespan. They are highly resistant to various chemicals, moisture, and microbial growth. That’s why PE pipes are widely used in industries where durability and longevity are critical, such as water distribution, natural gas and oil transportation, sewage systems, agricultural systems, geothermal systems, and more. 

PE pipe systems will last well over 100 years with no pitting, cracking, corroding, or any other of the typical failure problems of incumbent pipe systems. With fully welded joints, PE provides a leak-free solution.

Flexibility and Ease of Installation

One of the most game-changing characteristics of polyethylene pipes is their flexibility, which simplifies installation processes, resulting in reduced labour costs and installation time. They can be easily bent to accommodate curves and contours without needing additional fittings. This flexibility also allows smoother construction around obstacles like buildings and trees, reducing planning and execution time. 

Plus, they can be easily adapted on-site to accommodate sudden changes in the project’s design, making PE pipes an excellent choice for all projects and constructions.

Chemical Resistance

PE pipes are chemically inert materials that do not react with most chemicals. This prevents the material from breaking down even when in contact with dangerous substances. 

They have non-porous surfaces that don’t absorb or allow the penetration of chemicals, preventing chemical leaching into the pipe material. That’s why industries that use potentially corrosive chemicals, such as chemical processing, water and wastewater treatment, and irrigation systems widely use PE pipes.

Safer installation

With open-cut type projects, HDPE does not require wide trenches since workers weld the pipe joints above ground, versus in the trench for other systems. Not needing to have workers in trenches means the job is much, much safer.

Cost-Effectiveness

PE pipes offer several cost-saving advantages compared to other materials like steel and concrete. Their lightweight and flexibility help reduce costs in transportation. HDPE can even have the lowest lifecycle cost of all pipe materials. In most cases, it also has the lowest installed cost because trenchless is typically only 50 – 75% of the cost of open cut installations. Open cut project costs are often lower as well because HDPE does not require wide trenches since workers weld the joints above ground, versus down in the trench with socket ring jointed pipe systems. 

Environmental Benefits

PE pipes offer several eco-friendly aspects, making them a sustainable choice in modern construction. They are highly recyclable and have an overall reduced environmental impact. Used parts can be collected, processed, and recycled into new PE products, minimising waste disposal. 

PE pipes long lifespan, between 50-100 years, means minimised replacements, reducing the disturbance to ecosystems and landscapes, and reduced material consumption along with other associated energy consumption in production, transportation, and installation. Selective shutoff capabilities, enabling offtakes or repairs etc. on specific sections of the line, reducing down time or supply disturbance.  

Modern Construction Applications

PE pipes are versatile and can be used for various industries and applications. Let’s look at the most common applications of PE pipes in modern construction.

Plumbing Systems

PE pipes are most commonly used for residential and commercial plumbing systems. They are flexible enough for various designs and configurations, and their corrosion resistance ensures potable water's safe and reliable transport. They are often used for trunk water supply mains, distribution networks, and in-house plumbing. Their ability to absorb rather than transmit water hammer in pipe systems is astonishing.

More and more, people are beginning to recognise that water is ‘the’ precious resource. Join the thousands of municipalities that protect our water and lower their costs by using HDPE, the leak-free system! 

Learn More about Polyethylene Pipes in Water Systems

Gas Distribution

PE pipes are widely utilised in gas distribution systems because they can safely convey gas over long distances without the risk of leaks and issues related to corrosion. Their corrosion resistance and ability to withstand pressure fluctuations make them ideal for natural gas transportation for homes, businesses, and industrial facilities.

Geothermal Heating and Cooling

PE pipes, specifically high-density polyethylene (HDPE), are used in geothermal heating and cooling systems, where heat liquid is circulated through the ground to extract or dissipate heat. Resistance to decomposition, oxidation, and flexibility are crucial for this industry, all of which PE pipes have.

Comparison with Other Pipe Materials

PE pipes are one of the standard pipe materials used in modern construction, along with Copper, PVC, and Steel.
Let’s discuss how PE pipes compare to each material in cost, durability, flexibility, and ease of installation.

Cost

• PE: The most cost-effective pipe material, especially in larger-diameter pipes.

• PVC: cheaper than copper and steel but may be slightly more expensive than PE pipes. 

• Steel: Expensive due to material and labour costs. Requires cement lining internally, and corrosion resistant coatings and electrical corrosion prevention systems externally. Subject to rust.

• Copper: The most expensive among these materials due to the high cost of copper.

Durability

• PE: Resistant to corrosion and are known for their longevity. Impact absorbing. Less subject to damage due to inadvertent dig ups. More easily repaired than all other pipe types.

• PVC: Durable and resistant to corrosion and chemicals but may not be as strong as steel or PE in specific applications. Increase in brittleness and decrease in impact resistance over time. 

• Steel: Very durable and strong, suitable for higher-pressure applications. However, they can corrode over time if not adequately protected.

• Copper: Highly durable, has excellent corrosion resistance, and can last many years.

Flexibility

• PE: Very flexible and can be bent without specialised fittings.

• PVC: Rigid and less flexible than PE.

• Steel: Rigid, not flexible, and requires precise fittings and joints for installation.

• Copper: Relatively rigid but can be bent to some extent with the right tools.

Installation

• PE: lightweight and easy to handle, making them easy to install. It can be joined using various methods, such as heat fusion etc. HDPE (PE) is also ‘the’ Trenchless pipe. Preferred system for use with directional drilling under waterways, environmental and culturally significant areas, live services, road, rail. PE Pipe is fused above ground and pulled into the drilled hole with little surface construction required. It is so flexible and tough that it can be bent around curves and pulled through excavations 5 metres below the surface and still maintain its integrity for a 1 kilometre single, trenchless pull.

• PVC: Easy to install due to their lightweight nature and wide availability of various fittings.

• Steel: Heavy and more challenging to install than plastic pipes.

• Copper: Requires specialised fittings and soldering for installation, which can be more labour-intensive.

Challenges and Considerations

While PE pipes are widely used in modern construction due to their advantages over other materials, you should still consider their limitations and challenges when using them. Here are some challenges that you will encounter when handling PE pipes.

Temperature Limitations

Environmental effects, especially temperature, can be challenging when handling PE pipes. They are sensitive to sudden changes in temperature and may deform or become brittle in high or low temperatures. They have a high thermal contraction factor which needs to be designed for when used for above ground systems.

Joining Methods

PE pipes have several joining or welding methods, like butt fusion, electrofusion, and mechanical fittings. Each has its own unique use, but can impact the performance of the PE pipe system unless correctly performed. It’s crucial to learn and perform these methods correctly to ensure leak-free joints.

Load-Bearing Capacity

PE pipes are flexible and lightweight, and it should be noted that they provide a lesser external load-bearing capacity than more rigid materials like ductile iron. Before starting a project involving PE pipes, consider the weight of building structures or traffic loads above the pipes when designing the system. Also design for the effect of heavy backfill materials at larger depths and the need for side support material compaction.

Frequently Asked Questions (FAQ):