Smart-designed actuators enable smooth operation and high efficiency with a host of practical, automated features for flow and process control.
How have actuators changed over the years? The modern technocrats spend their time in research and simplifying solutions. And, we can see these ideas being realized in today’s fray of valve actuators.
Be it ball valve actuators or butterfly actuators, the low-loading applications deploy ultra-durable composite fiber materials for flow and process control. The durable and robust construction of these actuators ensures failsafe performance across a variety of applications. Features like multi-turn, wiggle, torque control, modulation, and speed control enhance the overall functionality of actuators.
In the past, we had handwheels and levers for controlling actuators and their operations in different systems. However, this turns impractical for a plethora of conditions. As a result, the accuracy-levels and efficiency took a serious hit. If bad controls affect the functioning of pneumatics, there’s no reason to not know why performance comes to a dismal low.
The teams of innovators and designers have contributed to developing high-end ball valves and gate valve actuators with an adequate list of features for controlling flow and processes, which include easy-to-use features without the need for fiddling or orientation differences. Also, we have seen how actuators could consume enough energy without delivering the actual kinetic energy that it must. Here, the smart actuators, equipped with automated features, ensure the highest energy efficiency levels approximately 60-70%. You can explore the market to find it.