Electric ball valve On-off and modulating
This electric ball valve is built with various features that make it perfect for tanks, farms, fueling, oil & gas and other similar applications. It is API 607 4th 1993 certified and Fire safe approved. It comes with a two-piece body style in size range from ½”-12″ (12mm-300mm), with the temperature range -50°f to 650°f (-46°c to 343°c). The pressure ratings for this valve are ASME class 150 and ASME class 300, covering PN 10 to PN40. Its end connections are as per ASME B16.34 class 150 and ASME B16.34 class 300, DIN PN16/PN25/PN40 and JIS 10K/20K standards. The body of this electric ball valve is made using stainless steel such as CF8/CF8M/CF3M and carbon steel (WCB) while the seat is made using PTFE or PEEK for resistivity from corrosion. Furthermore, this valve includes a built-in ISO 5211 direct mounting pad for easy automation with anti-static devices in between the ball stem and body along with blow out proof stem and pressure balance hole in ball slot. Additionally, it also provides TA-LUFT design approved with casting boss on body for draining purpose. Moreover, an electric actuator compatible with this valve can be purchased optionally which offers 50 Nm to 2000 Nm of torque output along with control options like ON-OFF type or Regulation type backed by 4–20 mADC/0–5 VDC/0–10 VDC power signals such as 12VDC, 24VAC, 24VDC 220VAC, 120VACand 380VAC 50/60Hz frequencies making it one of the most reliable products available in the market today!
Standard technical parameters
|Pressure||PN116-PN40||ASME B16.34 CLASS 150
ASME B16.34 CLASS 300
JIS B2001 20K
|Face to face||GB/T12221||ASME B16.10||DIN 3202||JIS B2002|
|End Flange||GB/T9113 JB/T79||ASME B16.5||DIN 2543-2545||JIS B2212
|Inspection Testing||GB/T13927||API 598||DIN 3230/3||JIS B2003|
|Fire safe||API 607||API 607 4 th1993||API 607 4 th1993||API 607 4 th1993|
|Body style||Two piece|
|Size range||½” – 12″ (12mm – 300mm)|
|Temperature range||-50°f to 650°f (-46°c to 343°c)|
|Pressure rating||ASME class 150、ASME class 300.
(PN10 to PN40 covered)
|End connection||ASME B16.34 class 150、ASME B16.34 class 300
|Body||Stainless steel（CF8、CF8M、CF3M）、 carbon steel (WCB)|
|Applications||Process, tank farms, fueling, oil & gas|
Built-in ISO 5211 Direct mounting pad easy automation
frie safe design approved
Anti-static devices for ball-stem-body
Blow-out proof stem
Pressure balance hole in ball slot
TA-LUFT design approved
Casting boss on body for draining
Output Torque 50Nm to 2000Nm
Control: ON-OFF type、Regulation type
Control signal: 4-20 mADC、0-5 VDC、0-10 VDC
Power: 12 VDC,24 VAC,24 VDC,220 VAC,120 VAC,380 VAC 50/60 Hz
1, CE certification of most units
2, Wiring directly to the terminal strip without interference from other components
3, Simple and unique manual override handwheel system
4, Lowest profile and lightest weight actuator on the market
5, Simple finger or screwdriver adjustment of travel limit cams without interference from other components
6, Highly visible valve status display on most units
Electric Ball Valve industry application
In the vast landscape of industrial automation, the Electric Ball Valve stands as a testament to technological advancement and robust engineering. This precision device, driven by an electrically powered actuator, is integral to myriad applications requiring precise control of fluid flow such as oil & gas, petrochemicals, water treatment, and HVAC systems.
In the oil & gas industry, safety and reliability are paramount. Our Electric Ball Valves, encased within explosion-proof housings, provide exceptional control over fluid flow while ensuring operational safety in potentially hazardous environments. The valve’s design minimizes fluid resistance, optimizing flow control and reducing energy usage.
In the realm of petrochemical processing, these valves play a vital role in controlling aggressive chemical fluids. Their robust construction and superior sealing capabilities ensure leak-proof operation, thereby maintaining the integrity of complex petrochemical processes.
Water treatment facilities benefit from the Electric Ball Valve’s ability to handle large volumes of fluids with minimal pressure drop. Their corrosion-resistant properties make them ideal for managing various types of treated and untreated water, contributing to efficient water management systems.
Finally, in HVAC systems, these valves offer precise control over heating and cooling mediums, contributing to energy efficiency and system performance optimization. Their compact design and low maintenance requirements make them a preferred choice for HVAC professionals.
Our Electric Ball Valves, backed by globally recognized certifications and rigorous quality control, reflect our commitment to delivering high-performing, reliable solutions across industries. As a leader in valve manufacturing, we continue to set benchmarks in product quality, innovation, and customer satisfaction.
Electric ball valve working principle
An electrically actuated ball valve is a type of control valve that utilizes an electric motor driven actuator to rotate a ball, which sits within the valve body. This ball has a hole or port through the middle, and its rotation within the body controls the flow of fluids or gases passing through it. Predominantly, electric ball valves are used in applications requiring precise flow control, such as in water treatment facilities, chemical processing plants, HVAC systems, and oil and gas pipelines.
The operation of an electric ball valves is straightforward yet ingenious. When the valve is in the open position, the hole in the ball aligns with the direction of the pipeline, allowing fluid or gas to pass through freely. When the electric actuator rotates the ball by 90 degrees, the solid part of the ball blocks the pipe, halting flow entirely. This swift, quarter-turn operation allows for fast opening and closing times, reducing the wear and tear on the valve components and extending the valve’s lifespan.
One significant advantage of electric ball valves over other types of valves is their precision and automation capabilities. The electric actuator can be programmed to rotate the ball to any angle, not just fully open or closed, allowing for precise control over flow rates. This automation also means the valve can be controlled remotely, increasing operational efficiency and safety.