PE 100 Pressure Network Pipes
PE 100 PRESSURE NETWORK PIPES
- Polyethylene pipes are obtained from the raw material obtained after the polymerization process of ethylene gas obtained from petroleum. The number Pe 100 indicates the environmental stress (σ) value of the product, which is 10.0 MPa. This value started from 32 and studies on Pe 125 are continuing. Since an increase in this value indicates an increase in its strength, it means a thinning of the wall thickness for the same pressure class. This means saving raw materials and increasing the inner diameter value of the Pe 100 pipe. Improvements in these values increase market share as they offer a cost advantage over alternative products.
- Polyethylene is a recyclable product since it belongs to the thermoplastic product group. From an environmental perspective, when collected again, it can be used in second-class products.
- Since the welding ability of the polyethylene product is very high, the joining methods are various. Combining methods; butt welding method, electrofusion welding method, push socket method and extrusion welding method.
- The fact that polyethylene does not corrode, is not affected by chemicals, and has high abrasion resistance makes its lifespan advantageous compared to alternative products. It offers a minimum service life of 50 years.
- Networks may suddenly become unusable due to earthquakes. The earthquakes have shown that while polyethylene pipes can be used after earthquakes, rigid pipes have been completely disabled and new lines have been laid. In places where erosion occurs, Pe 100 pipe absorbs the opening by extending as a result of its 600% elongation ability. It solved the problem of lines having to be changed frequently in landslide areas.
- The ability to produce it at different pressures in accordance with the project has been effective in making the projects feasible as it saves raw materials.
- Polyethylene pipes (Pe100 and HDPE) are most commonly used in Scandinavian countries. The most important reason for this is that it is not affected by water turning into ice as it maintains its elastic properties down to -40 °C. While all steel pipes are split by ice, Polyethylene expands and absorbs the increase in volume.
- With the ease of crossing rivers, lakes and seas with polyethylene pipes (Pe100 and HDPE), project costs have decreased significantly. Many projects that could not be implemented have been completed with this product. Since the pipes are lighter than water, they were floated and brought to the route and sunk with concrete blocks.
- In pressure loss calculations, a lower energy pump is selected than in the hydraulic smooth curve, thus saving on initial investment and operating costs.
- Pe100 and HDPE Pipes, up to Ø140 mm in diameter, are produced in coils of 50-100 and 200 meters each, thus saving on fitting and welding costs.
PE100 Pressurized Network Pipes
PE 100 pressure network pipes are one of the cornerstones of modern infrastructure systems. These pipes are specifically designed for use in drinking water networks and are produced from high density polyethylene (HDPE). PE 100 pipes are known for their durability, long-lasting structure and resistance to environmental influences. In this article, I will detail the features, usage areas of PE 100 pressurized network pipes and the importance of these pipes in drinking water systems.
PE 100 pipe is one of the most superior classes of high density polyethylene material and the use of these pipes is It provides many advantages in terms of safety and efficiency in water networks. The inner surfaces of these pipes are extremely smooth, which allows water to flow within the pipe with little resistance and minimizes pressure loss. This feature reduces operating costs by saving energy in pumps and other equipment.
The chemical resistance of PE 100 network pipes is also noteworthy. These pipes have high resistance to various chemicals, acids and alkaline substances. This ensures that water is protected from chemical contamination when used in drinking water networks. Additionally, PE 100 pipes are resistant to UV rays and weather conditions, providing long-lasting performance in outdoor applications.
Installation and maintenance of PE 100 pipes is also very simple. These pipes can be easily joined using thermal welding or electrofusion welding techniques. These joining methods reduce the risk of leaks and increase the integrity of the pipeline. Additionally, the light structure of PE 100 pipes reduces labor costs during transportation and installation.
PE 100 pipes used in drinking water networks are available in various pressure levels and diameters. This allows the right pipe type to be selected according to the needs of different projects. For example, PE 100 pipes used in main transmission lines requiring high pressure may have thicker walls and higher pressure classes. In contrast, pipes used in local distribution networks may be in lower pressure classes and smaller diameters.
In terms of environmental sustainability, PE 100 pipes are an environmentally friendly option. These pipes are made from completely recyclable materials and have a low carbon footprint. Additionally, their long-lasting use and low maintenance requirements further reduce the environmental impact of these pipes.
As a result, PE 100 pressure network pipes offer reliability, efficiency and an environmentally friendly solution in drinking water systems. The advantages of these pipes optimize water management and increase the success of infrastructure projects. The role of PE 100 pipes in the construction and renewal of drinking water networks remains important in terms of both cost effectiveness and environmental sustainability.
PE100 Pressure Network Pipe Prices
PE100 pressurized network pipes are one of the basic components of infrastructure projects. These pipes are especially used in areas such as drinking water, wastewater and irrigation systems. Prices vary depending on a number of factors. Here are the main factors and pricing trends affecting the price of pressure network pipes:
- Material Properties: Pressure network pipes can be produced from various materials (e.g. PVC, HDPE, steel). The type of material directly affects the price. For example, high-density polyethylene (HDPE) pipes are generally more expensive than PVC pipes.
- Pipe Dimensions: The diameter and wall thickness of the pipe are important factors that determine the price. Pipes with larger diameters and thicker walls are generally higher because they contain more material.
- Production Standards and Quality: The standards and quality controls in which the pipes are produced have an impact on the prices of pe100 pressure network pipes. Pipes with higher quality standards and certifications may be more costly.
- Market Dynamics: Market dynamics such as raw material costs, demand and supply are important factors that affect prices. Economic fluctuations and changes in raw material prices may cause pipe prices to fluctuate.
- Regional Factors: The region where the pipes are produced or sold can affect prices. Shipping and logistics costs may cause price differences, especially for shipments to remote areas.
- Supplier and Brand Factor: Different suppliers and brands may vary in pricing. In competitive markets, supplier selection can be an important factor on price.
PE100 pressure network pipesPipe prices are usually calculated per meter, and the amount, type and features of pipes to be purchased determine the total cost. When calculating costs for projects, the long-term durability and maintenance requirements of the pipes should also be taken into account. Buyers are recommended to conduct extensive market research to select products that offer the best price/performance ratio for their project.
When evaluating the total cost, factors such as long-life use of pressure network pipes and low maintenance requirements should also be taken into account. This will help determine the most economical and efficient solution for projects.