Features of uPVC Column Pipes:
1)Corrosion-resistant:
uPVC column pipes are highly resistant to corrosion caused by the presence of water, minerals, and chemicals. This makes them ideal for use in water supply applications, even in aggressive environments.
2)High strength:
These pipes are designed to withstand high vertical loads. They have high tensile strength and can effectively handle the weight of the submersible pump and the water column above it.
3)Lightweight:
uPVC column pipes are lightweight compared to traditional metal pipes. This makes them easy to handle and install, reducing labor and transportation costs.
4)Smooth inner surface:
The inner surface of uPVC column pipes is smooth, which allows for efficient and uninterrupted water flow. It minimizes friction losses and ensures maximum performance of the borewell system.
5)Leak-proof joints:
The joints of uPVC column pipes are specifically designed to be leak-proof. They ensure a secure and reliable connection, preventing any water seepage or loss.
6)Highly durable:
uPVC column pipes are designed to have a long lifespan, typically lasting for over 25 years. Their durability ensures that they can withstand the rigors of underground installation and continuous water flow.
7)High impact resistance and tensile strength:
uPVC column pipes are able to withstand high impact forces and have high tensile strength. This makes them resistant to physical damage during installation and operation, ensuring their reliability and longevity.
8)High torque resistant:
These pipes have excellent torque resistance, making them suitable for applications where high torque is required, such as deep borewell installations with submersible pumps.
9)Rigid in nature with longer life over 25 years:
uPVC column pipes are rigid in nature, offering structural stability to the entire borewell system. Their long lifespan ensures a reliable and continuous water supply for various applications.
10)Inert to Chemicals:
uPVC column pipes are unaffected by the presence of chemicals, minerals, and other substances in the water.
11)Square thread possesses a very high load holding capacity:
The square thread design used in uPVC column pipes provides a high load holding capacity, allowing them to securely hold the weight of the submersible pump and the water column above it.
12)The “O” ring is made up of high efficient rubber, 100% leak proof with high flow rate:
The "O" ring used in the joints of uPVC column pipes is made of high-efficiency rubber, ensuring a 100% leak-proof connection. This also enables high flow rates, minimizing any loss of water pressure.
13)Non-Toxic, Odorless & Hygienic, so suitable for potable water supply:
uPVC column pipes are non-toxic, odorless, and hygienic, making them safe for transporting potable water. These pipes maintain the quality and purity of water without any contamination.
14)Non-corrosive, seamless, strong, and resilient:
uPVC column pipes are non-corrosive, meaning they are not affected by rust or other corrosion-related issues. They are also seamless, eliminating the risk of leakage. Their strength and resilience ensure a reliable and long-lasting performance.
15)Low installation cost:
uPVC column pipes have a lower installation cost compared to traditional metal pipes. Their lightweight nature, ease of handling, and simple installation process contribute to reduced labor and time requirements during installation.
16)No electrolytic deposition:
uPVC column pipes do not undergo electrolytic deposition, which means there is no build-up of deposits on the inner surface of the pipes. This leads to improved water flow efficiency and reduced maintenance requirements.
17)Easy installation & handling:
uPVC column pipes are lightweight and easy to handle, making them convenient to install. Their simple joining mechanisms further simplify the installation process, saving time and effort.
18)Very low friction losses:
uPVC column pipes have a smooth inner surface, minimizing friction losses during water flow. This allows for efficient water transportation and optimal performance of the borewell system.