This lets Nair’s team direct film growth inside the fiber or on its inner or outer surfaces through different reagent and solvent permutations. Using tiny pores in MOF films inside the bore of the fibers as selective Carbon Molecular Sieves they then separated hydrogen or propylene from propane. ‘We have a demonstrated path to “scale down” MOF membranes to hollow fibers, in a manner that we can now look to “scale up” by an in-parallel replication of the process to many fibers bundled together into a module,’ Nair explains.
What are Pneumatic Solenoid Valves?
Pneumatic solenoid valves are electromechanical devices that control the flow of air or process gas. They are mostly used for controlling pneumatic actuators such as cylinders, turbines (pneumatic motors), diaphragms, and tubes. Pneumatic Valve and actuators form auxiliary air circuits. These devices are used to control plant equipment.
Other pneumatic solenoid valves are used as an integral part of some pieces of equipment or processes. Examples are compressed air systems, vacuum systems, ventilation systems, and air-operated equipment.
Pneumatic solenoid valves are commonly seen in many industrial and manufacturing plants. One of their main benefits is being remote controlled by sending low-power electric signals over large distances. These electric signals are easily handled by the plant‘s control system. A control panel or unit distributes signals that manipulate the valve at unattended locations in the process area. Pneumatic solenoid valves are employed in a wide range of industries such as oil and gas, power generation, chemical, and plastics.
Angle Seat Valve in the fields of medicine, pharmaceuticals, food, and beverage are preferred because of their clean operation. They are much cleaner than hydraulic solenoid valves which mainly use oil. They can be sealed to prevent any product from being trapped within its internal cavities. This, in turn, lessens the risk of product contamination.