- for Refrigeration application

 Introduction:  Desuperheater  What is Desuperheater?  Types of Desuperheater  Installation Process  Actual Working  Design Features  Benefits  Applications

 Desuperheater :

 What is Desuperheater?  Maniks are having thorough scope of desuperheater supply since most recent three decades. Maniks presented assortment of desuperheaters with exact temperature control for different applications in substance or oil and gas process plants where the accessible refrigerant is at superheated conditions. These Desuperheaters have elite, hand craft, simple to introduce and requires low upkeep.desuperheater

 Types of Desuperheater:  Desuperheating is the procedure by which superheated steam is reestablished to its immersed state, or the superheat temperature is decreased. Fundamentally there are two sorts of super heaters  Indirect contact write - The medium used to cool the superheated steam does not come into coordinate contact with it. A cooler fluid or gas might be utilized as the cooling medium, for instance, the encompassing air. Cases of this sort of desuperheater are shell and tube warm exchangers.  Direct contact write - The medium used to cool the superheated steam comes into coordinate contact with it. Much of the time, the cooling medium is an indistinguishable liquid from the vapor to be desuperheated, however in the fluid state. For instance, on account of steam desuperheaters, water is utilized.

 Installation Process: The Desuperheater Water Heater is introduced before the condenser and the oil separator. The refrigerant goes through the arrangement of tubes in the Desuperheater before entering the condenser. Regularly the Desuperheater Water warmer is outlined considering the high temp water prerequisite for the procedures. At the point when necessities of boiling water and refrigeration are not concurrent, a “Recirculation" type framework is given wherein high temp water is produced, put away and kept up in a protected tank. This heated water at that point can be used as and when required.

 Actual Working:  Desuperheater carries superheated steam into coordinate contact with water the steam is cooled through the vanishing it diminishes the temperature of the steam.  Maniks desuperheater is intended to work in a refrigeration framework so it utilizes smelling salts water inside to cool the refrigerant gas. At the point when refrigerant gas in a refrigeration framework is compacted in a compressor it passes however a condenser where it emits warmth and changes to a fluid state and after that it goes through an extension valve to an evaporator curl to retain warmth and change the refrigerant back to vaporous state for recompressing in the compressor to finish and the refrigeration cycle. This cycle is performed over and again in refrigeration frameworks.

 Design Features:  Maniks desuperheater is a very reliable and efficient product. The product features are listed below Maniks High productive atomization. Accurate and repeatable control liquid temperature. Tight stop variable shower unit. High extend capacity variable region shower unit. Erosion protection materials of determination. Ease of establishment. Low support highlights. High trustworthiness fixing game plan.

 Benefits:  Maniks desuperheater has different favorable circumstances, for example,  It is available in two types Ammonia and Freon  Economic product with best performance  There are no moving parts so requires less maintenance  The design is very simple and easy to understand  Ease in installation process  Available in compact size  Operates with very less pressure drop

 Applications:  There are different fields in which desuperheaters are utilized as a heat energy exchanger few of them are given beneath  HOTELS and HOSPITALS  PHARMACEUTICAL and CHEMICAL  DAIRY and FOOD PROCESSING  TEXTILE  ENGINEERING and AUTOMOBILE