To reach greater levels of efficiency in this situation, urban water distribution networks need to be managed more intelligently. One possible solution is the usage of HDPE Pipes.
The high rate of water loss in the distribution networks is one of the major issues facing water utilities globally. The World Bank research estimates that each year, 32 billion m3 of treated water is wasted due to leaks in urban water distribution systems worldwide, and 16 billion m3 are consumed but not paid for.
Old pipes, frequent leaks and breakdowns, interruptions in the delivery of drinking water, high energy expenses, and high expenditures associated with the restoration of water distribution networks are the primary issues causing significant water losses.
Why HDPE Pipes are an Optimal Solution?
A flexible and adaptable product, HDPE pipe is ideal for the municipal market. The use of HDPE in the municipal water supply and sewer industries is expanding quickly, but PE Alliance estimates that it only has a 3% to 5% market share.
The fastest-growing spending area is identified as pipe restoration, with yearly spending rising from $253 million in 2019 to $576 million by 2028. For new municipal water and sewer projects and rehabilitation, variables for decision-making include location, project sizing specifications, geology, and proximity to existing water and sewage infrastructure in addition to cost and longevity.
The estimated service life of HDPE pipes for water supply and sewage applications is 50 to 100 years. Compared to traditional pipes, HDPE is significantly stronger, fully recyclable, flexible, and lighter. HDPE pipe manufacturers in Pakistan ensure leak-proof and robust metal pipes for Heat-fused HDPE joints.
Since HDPE pipe won’t corrode (rust), tuberculate, or sustain biological development, it offers unparalleled corrosion and chemical resistance. It is also available in large reel lengths, which decreases the number of joints and related installation time while saving money. Given that HDPE can be provided in large coils and is lighter than the traditional pipe, shipping and transportation expenses are often reduced.
Furthermore, HDPE requires fewer installation joints than other pipe materials, HPDE performs better after installation in areas where soil moving (compaction/expansion) leads to joint openings.
HDPE Pipes Saves Both Time & Money
Lower Life Cycle Costs
- HDPE pipes provide corrosion protection – does not decay, rust, or get corroded.
- High Density Polyethylene Pipe (HDPE) holds tight. Its system is homogeneous and monolithic thanks to heat-fused joints. The pipe is less sturdy than the fusion junction.
- HDPE fittings constantly achieve ideal flow rates. It has great resistance to scale or bacterial buildup and does not tuberculate.
- Excellent resistance to water hammer because of resist surge occurrences in the final product.
- High tolerance for strain as it practically eliminates pipe breakage caused by freezing.
- Additional cost reductions are made possible by fewer repairs being necessary.
- Potable water losses and groundwater nuisance treatment expenditures incurred by conventional pipe systems are eliminated when there is no exfiltration or infiltration.
Reduced Installation Costs
- The preferred material for trenchless technology is High Density Polyethylene Pipe. It is used for slip lining, pipe bursting, directed drilling, and river crossing.
- Fewer fittings owing to the flexibility of the pipe. The allowable pipe bend radius is 20 to 25 times the pipe’s outer diameter in HDPE.
- Less heavy-duty handling and installation equipment is needed than with metallic materials.
- HDPE Pipes and Fittings do not need straight blocking; it is fully restricted joints that have been heated.
- HDPE’s longer lengths and light weight provide considerable labor and equipment savings.
Polyethene piping is a practical way out of a wide range of pipe challenges in landfill, duct, municipal, marine, mining, industrial, and agricultural applications. It has been tried and tested for applications like slip-lined, floating, surface, buried, above-ground, sub-surface maritime, etc.
Potable water, wastewater, slurries, chemicals, hazardous waste, and compressed gases may all be transported using HDPE pipes. Polyethene pipe has a storied history of serving the mining, gas, and oil sectors, among others. Of all the pressure pipe materials used for metropolitan gas distribution, it requires the fewest repairs per mile of pipe each year.
Strong, incredibly robust, and incredibly resilient describe polyethene. High-density polyethene pipe will satisfy your needs, whether you’re searching for durability, easy installation, flexibility, chemical resistance, or a variety of other properties.