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The WKT Cast Steel CF8M 48” 150LB RF Flange Triple Offset Metal-To-Metal Butterfly Valve With Gear Box is a premium industrial valve crafted from CF8M material, ensuring exceptional durability and corrosion resistance. This valve is designed to meet the highest standards of quality and functionality, making it a reliable choice for various applications. With a nominal diameter of 48” (DN1200) and a full bore design, it ensures smooth and efficient flow of fluids, minimizing pressure drop and maximizing performance.
1. Triple Offset Design: A very special triple offset design lowers the operating torque by giving eccentricities along three major axes, axial, radial, and angular. This more than ever enhances sealing performance as minimal friction would exist during its operation. Such smooth valve movements would gradually wear even less over time.
2. Corrosion-Resistant CF8M Material: This valve is made of stainless steel of the CF8M grade; it promises excellent resistance to corrosion and, therefore, a long life even with high moisture in the air. Being resistant to oxidation and wear, this valve can prove to be dependable in high-demand applications.
3. Full Bore : Since the valve is designed with a full bore, the pressure drop through the valve is kept at a minimum, allowing for maximum fluid flow efficiency and less energy wasted by the system in overcoming the pressure drop through the valve. Especially suitable for high-flow applications with low resistance.
4. Control Precisely: An in-built gear box enables the operation of the valve to be very smooth and precise, even with large-sized valves such as the 48” model. In return, it gives easy operation where control for the operator is achieved, and the physical effort to open and close the valve is greatly reduced.
5. Flange Connection: The valve shall be supplied with an RF (Raised Face) flange connection meeting ASME/ANSI B16.47 flange standards. This allows for easy installation, leak-free sealing and compatibility with many existing piping systems.
6. Pressure Rating: Designed to operate under a nominal pressure of 150LB and very demanding pressure conditions, this valve offers stability and good performance in all applications.
-Improved Sealing Performance: Zero leakage under pressure results from the triple offset design associated with a metal-to-metal seal. It highly qualifies the valve for places that require high sealing assurance, like in the chemical, petrochemical, and power generation industries.
-Torque of Operation: The new three-eccentric design makes the valve eliminate the operating torque that was formerly felt during translation to open and close. This creates a smoother operation with reduced wear, hence a longer life for the valve. At the same time, it reduces friction to a minimal level at which the valve can operate, therefore realized energy savings and minimized maintenance costs.
-Versatility in Various Sectors: Owing to its excellent design and the materials used in its manufacture, this valve can find utility in various industrial sectors including petrochemicals, natural gas, power generation, and water treatments. Because it can stand extreme temperatures and pressures, it finds applicability in high-demand as well as challenging applications.
-Cost Efficiency: The sturdy built of the valve provides long-term cost savings due to a reduction in maintenance and minor repairs that are required. Hence, it proves to be a cost-efficient solution for industries that prefer reliability and optimal performance.
-Compliance with Industry Standards: The valve is designed according to the standard of API609, tested and inspected pursuant to API598, assuring its conformity with international industrial rules and regulations as well as ensuring reliable performance.
1. Natural Gas System: This valve may predominantly be applied in the petrochemical refineries; that is, it has the capability to control the flow of liquid at high temperatures, and under high pressure, which makes the process safe and efficient.
2. Power Generation: A valve is capable of controlling both steam and water flow at the power plant. It makes the production of electrical energy more efficient.
3. Water Treatment: This valve can also regulate the flow of water at the treatment plants; here, reliable sealing and minimum leakage are primary concerns.
4. High-Temperature, High-Pressure Systems: The valve's ability to withstand high temperatures and pressures makes it suitable for extreme industrial environments, including those in steam and gas turbines.
1. Installation: Ensure that the valve is installed according to the manufacturer’s instructions and that of the flange. Check alignment with the piping system. Confirm that all bolts are fitted tightly to avoid leakage.
2. Flow Direction: The valve shall be installed such that flow direction corresponds to flow direction of the pipeline, thus direction marked by an arrow on the valve body.
3. Initial Operation: Open the valve slowly by turning the gear box. his will prevent any sudden changes in pressure inside the system and also enable smooth operation of the valve.
4. Maintenance: It is recommended that periodic maintenance checks be done to ensure efficient valve operation. Considered wear and tear on the seal and that the gear box operates freely. Replace worn-out parts.
5. Safe Shutdown: In an emergency, the valve can quickly be closed by turning the gearbox in the opposite direction. This will ensure immediate stoppage of flow, making the system safe.
1. Does it apply for high-temperature services?
Yes, it does. The valve is engineered to be used under high temperatures and is applied in industrial sectors such as petrochemicals and power generation.
2. How frequent should it be overhauled?
Although it requires periodic inspections, such a valve is overdesigned and thus will generally require less frequent maintenance as compared to conventional valves.
3. What is the material of the valve?
It is of CF8M stainless steel material that is known for corrosion resistance and long-lasting durability.
4. How does the triple offset design benefit the valve's performance?
The triple offset design reduces not only operating torque but also increases sealing performance; this extends the lifespan of the valve because it reduces friction and wear.
"We have installed the WKT triple offset butterfly valve in our refinery, and it has performed remarkably. It is easy to operate. It comes with robust design features. Therefore, it assumes a very critical part. Within our liquid control system." - Dr. Alex Wu, Refinery Manager.
"We trust WKT valves because of their consistent quality and reliability. This triple offset butterfly valve greatly reduced maintenance costs. A gear box is there; operation becomes effortless." - Ms. Emily Liu, Power Plant Engineer.
Make your investment today with the WKT Triple Offset Metal-To-Metal Butterfly Valve with Gear Box. It assures you of high-level performance with extended service life and user-friendliness in your industrial applications. For more details or to request a quotation, do not hesitate to reach out to us directly.
The WKT Cast Steel CF8M 48” 150LB RF Flange Triple Offset Metal-To-Metal Butterfly Valve With Gear Box is a premium industrial valve crafted from CF8M material, ensuring exceptional durability and corrosion resistance. This valve is designed to meet the highest standards of quality and functionality, making it a reliable choice for various applications. With a nominal diameter of 48” (DN1200) and a full bore design, it ensures smooth and efficient flow of fluids, minimizing pressure drop and maximizing performance.
1. Triple Offset Design: A very special triple offset design lowers the operating torque by giving eccentricities along three major axes, axial, radial, and angular. This more than ever enhances sealing performance as minimal friction would exist during its operation. Such smooth valve movements would gradually wear even less over time.
2. Corrosion-Resistant CF8M Material: This valve is made of stainless steel of the CF8M grade; it promises excellent resistance to corrosion and, therefore, a long life even with high moisture in the air. Being resistant to oxidation and wear, this valve can prove to be dependable in high-demand applications.
3. Full Bore : Since the valve is designed with a full bore, the pressure drop through the valve is kept at a minimum, allowing for maximum fluid flow efficiency and less energy wasted by the system in overcoming the pressure drop through the valve. Especially suitable for high-flow applications with low resistance.
4. Control Precisely: An in-built gear box enables the operation of the valve to be very smooth and precise, even with large-sized valves such as the 48” model. In return, it gives easy operation where control for the operator is achieved, and the physical effort to open and close the valve is greatly reduced.
5. Flange Connection: The valve shall be supplied with an RF (Raised Face) flange connection meeting ASME/ANSI B16.47 flange standards. This allows for easy installation, leak-free sealing and compatibility with many existing piping systems.
6. Pressure Rating: Designed to operate under a nominal pressure of 150LB and very demanding pressure conditions, this valve offers stability and good performance in all applications.
-Improved Sealing Performance: Zero leakage under pressure results from the triple offset design associated with a metal-to-metal seal. It highly qualifies the valve for places that require high sealing assurance, like in the chemical, petrochemical, and power generation industries.
-Torque of Operation: The new three-eccentric design makes the valve eliminate the operating torque that was formerly felt during translation to open and close. This creates a smoother operation with reduced wear, hence a longer life for the valve. At the same time, it reduces friction to a minimal level at which the valve can operate, therefore realized energy savings and minimized maintenance costs.
-Versatility in Various Sectors: Owing to its excellent design and the materials used in its manufacture, this valve can find utility in various industrial sectors including petrochemicals, natural gas, power generation, and water treatments. Because it can stand extreme temperatures and pressures, it finds applicability in high-demand as well as challenging applications.
-Cost Efficiency: The sturdy built of the valve provides long-term cost savings due to a reduction in maintenance and minor repairs that are required. Hence, it proves to be a cost-efficient solution for industries that prefer reliability and optimal performance.
-Compliance with Industry Standards: The valve is designed according to the standard of API609, tested and inspected pursuant to API598, assuring its conformity with international industrial rules and regulations as well as ensuring reliable performance.
1. Natural Gas System: This valve may predominantly be applied in the petrochemical refineries; that is, it has the capability to control the flow of liquid at high temperatures, and under high pressure, which makes the process safe and efficient.
2. Power Generation: A valve is capable of controlling both steam and water flow at the power plant. It makes the production of electrical energy more efficient.
3. Water Treatment: This valve can also regulate the flow of water at the treatment plants; here, reliable sealing and minimum leakage are primary concerns.
4. High-Temperature, High-Pressure Systems: The valve's ability to withstand high temperatures and pressures makes it suitable for extreme industrial environments, including those in steam and gas turbines.
1. Installation: Ensure that the valve is installed according to the manufacturer’s instructions and that of the flange. Check alignment with the piping system. Confirm that all bolts are fitted tightly to avoid leakage.
2. Flow Direction: The valve shall be installed such that flow direction corresponds to flow direction of the pipeline, thus direction marked by an arrow on the valve body.
3. Initial Operation: Open the valve slowly by turning the gear box. his will prevent any sudden changes in pressure inside the system and also enable smooth operation of the valve.
4. Maintenance: It is recommended that periodic maintenance checks be done to ensure efficient valve operation. Considered wear and tear on the seal and that the gear box operates freely. Replace worn-out parts.
5. Safe Shutdown: In an emergency, the valve can quickly be closed by turning the gearbox in the opposite direction. This will ensure immediate stoppage of flow, making the system safe.
1. Does it apply for high-temperature services?
Yes, it does. The valve is engineered to be used under high temperatures and is applied in industrial sectors such as petrochemicals and power generation.
2. How frequent should it be overhauled?
Although it requires periodic inspections, such a valve is overdesigned and thus will generally require less frequent maintenance as compared to conventional valves.
3. What is the material of the valve?
It is of CF8M stainless steel material that is known for corrosion resistance and long-lasting durability.
4. How does the triple offset design benefit the valve's performance?
The triple offset design reduces not only operating torque but also increases sealing performance; this extends the lifespan of the valve because it reduces friction and wear.
"We have installed the WKT triple offset butterfly valve in our refinery, and it has performed remarkably. It is easy to operate. It comes with robust design features. Therefore, it assumes a very critical part. Within our liquid control system." - Dr. Alex Wu, Refinery Manager.
"We trust WKT valves because of their consistent quality and reliability. This triple offset butterfly valve greatly reduced maintenance costs. A gear box is there; operation becomes effortless." - Ms. Emily Liu, Power Plant Engineer.
Make your investment today with the WKT Triple Offset Metal-To-Metal Butterfly Valve with Gear Box. It assures you of high-level performance with extended service life and user-friendliness in your industrial applications. For more details or to request a quotation, do not hesitate to reach out to us directly.
Nominal Diameter: 48”(DN1200)
Bore: Full Bore
Nominal Pressure: 150LB
Material: CF8M
Operation:Gear Box
Design Standard: API609
Test/Inspection: API598
End Connection: RF FLANGE
Flange standard: ASME/ANSI B16.47
Top Flange: ISO5211
Nominal Diameter: 48”(DN1200)
Bore: Full Bore
Nominal Pressure: 150LB
Material: CF8M
Operation:Gear Box
Design Standard: API609
Test/Inspection: API598
End Connection: RF FLANGE
Flange standard: ASME/ANSI B16.47
Top Flange: ISO5211