Uni Klinger Thermostatic steam traps, in general, operate based on the temperature difference between steam and condensate. These traps use a thermostatic element, often a bimetallic or wax-filled element, to open and close a valve.
A steam trap is a mechanical device designed to discharge condensate and non-condensable gases without letting steam escape.
Moisture separation is a critical aspect of maintaining the efficiency and longevity of steam systems. When water droplets are present in steam, they can lead to equipment corrosion, reduced heat transfer efficiency, and even damage to downstream components.
Chemical processing will have specific challenges in terms of equipment’s used in plant and they must be designed & manufactured to suit the process and from materials that will not harm the product and environment and to help the engineers to run the plant efficiency.
Graphite is a crystalline form of the element carbon. It consists of stacked layers of graphene. Graphite occurs naturally and is the most stable form of carbon under standard conditions.
Pressure Relieving Devices (PRD) are essential components utilized in refineries, chemical plants, and similar facilities to prevent over pressurization of pressure vessels and equipment.
Thermostatic steam traps operate based on the principle that condensate (liquid water formed from condensed steam) has a lower temperature than live steam.
Steam traps plays an important role in various industrial processes by efficiently removing condensate and non-condensable gases (majorly air) from steam systems. However, right selection of steam trap for a specific application can be a complex task.