Our Engineers Want to Help You!

Connect with our Team
Loading...
Schroedahl Type DKM Small Desuperheater to Control the Temperature of Superheated Steam or Gas

Schroedahl Type DKM Small Desuperheater to Control the Temperature of Superheated Steam or Gas

Schroedahl Type DKT Steam-Atomizing Desuperheater

Schroedahl Type DKT Steam-Atomizing Desuperheater

Schroedahl Type DKH High-Pressure / High-Temperature Steam Cooler for Extreme Conditions

Product Features

  • Special design for higher pressures and higher temperatures
  • The DKH injection cooler works like the DKV type, with controlled nozzle technology (pressure atomization via controlled nozzle technology)
  • Spray head with integrated high-performance nozzles and excellent atomization
  • No additional control valve required
  • Selectable control characteristics for precise temperature control
  • Tightly closing metallic seat
  • Large permissible water vapor pressure difference delta p up to 100 bar / 1450 PSI
  • High control accuracy over the entire control range
  • High operational reliability by using simple components, minimal wear and tear
  • Excellent control accuracy over the entire control range
  • Special materials available

Applications

  • For the special demands place on temperature control in power plants and in the process industry

Nominal Diameter: DN 150-1200 / NPS 6-48

Pressure Class: PN 250-400 / Class 150-2500

 

Request a Quote
Availability: In stock
SKU
SH01000W

Product Features

  • Special design for higher pressures and higher temperatures
  • The DKH injection cooler works like the DKV type, with controlled nozzle technology (pressure atomization via controlled nozzle technology)
  • Spray head with integrated high-performance nozzles and excellent atomization
  • No additional control valve required
  • Selectable control characteristics for precise temperature control
  • Tightly closing metallic seat
  • Large permissible water vapor pressure difference delta p up to 100 bar / 1450 PSI
  • High control accuracy over the entire control range
  • High operational reliability by using simple components, minimal wear and tear
  • Excellent control accuracy over the entire control range
  • Special materials available

Applications

  • For the special demands place on temperature control in power plants and in the process industry

Technical Data

Nominal diameter DN 150–1200 / NPS 6-48
Pressure class PN 250–400 / Class 1500–2500
Temperature (max.)

Up to 650°C / 1200°F

Housing material 1.0460 / A105
1.5415
1.7335 / A182F12CI.2
1.7383 / A182F22CI.3
1.4903 / A182F91
Housing type Forged
Media Superheated Steam, Gas
Flanges EN 1092-1, ASME B16.5, ISO 7005, JIS, JPI
Actuators Pneumatic, Electric, Hydraulic, Handwheel (for manual operation)
Number of stages (max.) 1
Number of controlled stages (max.) 1
Operating range (max.) 1:100 (water)

Function

Desuperheating (cooling) the steam can simply be achieved by injecting water into the steam flow. When injected, the water is evaporated by means of the desuperheater nozzles. Thereby the water absorbs heat and consequently the temperature of steam is reduced. The desuperheater type DKH is designed so that even at low injection water quantities an efficient spray of very fine droplets (mist) is obtained.

The nozzles in the sprayhead are designed to give the injection water a high velocity and a radial rotating movement under all conditions. This achieves a very fine atomization and consequently a rapid evaporation of the water.

The temperature sensor sends a control signal to the actuator, bringing the control spool into a stroke position corresponding to the characteristic curve. The cooling fluid is now admitted to the
injection nozzle and is accelareated at the nozzle insert.

In the nozzle chamber, the cooling medium is accelerated and rotated by means of a swirl insert, so that a spray of the finest atomization is produced when it exits into the steam line. Our high quality atomization of the cooling liquid is the basis of a good mixing from cooling fluid and steam at all load conditions. The position of the valve seat, just before the spray head, provides a tight shut-off in the closed position, so that dripping is prevented (the piston is lapped into the seat!). The small number of moving parts results in a reliable operation of the valve.