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Biographie Molecular sieves


Molecular sieves use a desiccant process to remove water vapor from hydrocarbon streams. The process involves flowing hydrocarbon fluid over an adsorption bed to remove moisture. As a bed reaches saturation, switching valves direct the hydrocarbon gas to another bed while the first bed is regenerated with hot, reverse flowing gas.






Switching valves are key


From the article, here’s how important the switching valves are to this process. The performance of a molecular sieve unit is critically linked to the performance of the switching valves. The drying process itself requires tight sealing between the adsorption and regeneration streams to maintain efficiency. Mechanical reliability is also paramount since these units can run for years between turnarounds, while switching two to three times a day.


The valves must seal reliably, despite the presence of abrasive dust and constant thermal cycling between ambient feed and 500°F regeneration gas. Increasingly strict fugitive emission requirements make the design problem even more difficult because the valve must both seal and avoid packing leaks, even as it is constantly operated.


Historically, the industry has used rising Segment Ball Valve for molecular sieve service. This design employs a mechanical arrangement that first moves the ball off the seat, then turns the ball away from the seat as it opens. The valve closes by first twisting toward the seat, then jamming against it to achieve tight bidirectional shutoff. The RSBV design has two design issues. The mechanical stress on the stem is excessive, eventually warping the stem and creating seat leaks. More detrimental are the higher fugitive emissions associated with a rising stem design, which tend to be 100 times higher than with a rotary valve.






A modern solution


As operating units continue to extend times between turnarounds, industry has sought better performing valve alternatives. One design, the double eccentric C-ball valve, has emerged as the best choice. This design offers the same mechanically assured shutoff as an RSBV, with zero leakage bidirectional shutoff and low-wear eccentric motion, but has further advantages, as I explain: The double eccentric C-Knife Gate Valve has a much simpler and more rugged design than an RSBV. It also has no stem wear, and it utilizes true rotary motion to greatly minimize emissions. With the same face-to-face and flow coefficients as an RSBV, a double eccentric C-ball valve is a drop-in replacement.


The new valve design can operate in molecular sieve service for eight years or more without maintenance, and during that time it continues to meet fugitive emission requirements, without the need for packing adjustment.






Double eccentric c-ball design details


Double eccentric C-ball valves incorporate a C-shaped ball, which moves along two axes to achieve tight closure.


The C-ball utilizes double offset trunnions to create a camming motion that allows the valve to seal independent of process pressure. The camming effect also moves the C-ball away from the seat as the valve opens to minimize wear. The combination of fixed metal seats, mechanical sealing independent of process pressure, low wear, low emissions, and a very long service life make this type of valve ideal for molecular sieve switching service.


Double eccentric C-Ball Valves are available in sizes from ? inch to 42 inches, and pressure classes up to 4,500 pounds. End users are utilizing this technology for molecular sieve switching applications, and they are also deploying the valves in a variety of other severe service applications that demand reliable shutoff and long life.






Actuators are an integral part of instrumentation systems that power the machines that exist today. These devices make it possible for the machines to interact with their surroundings the way they do. In this article, we take a closer look at omnipresent technology.


An actuator is a machine, or rather a part of a machine used to convert externally available energy into motion based on the control signals. Much like how hands and legs enable humans to move around and perform actions, actuators let machines perform various mechanical movements. The topic for discussion for this article is actuators. We will explain what is an actuator, how actuators work, and what are the different types of actuators used in industrial and domestic applications.

From the perspective of systems engineering, functions of any engineering product can be classified into three distinct categories; the collection of input, processing and producing an output.

For electromechanical systems, the input is detected and measured by a device called a sensor. The task of a sensor is to sample the signals available to it and convert them into a form understandable by the system. The system then processes the information and decides how to respond. But how exactly does a system respond? The answer is, with the help of an Actuator. 
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Zuletzt Online 07.11.2022
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