Evaporative Cooling

Why use Turbine Air Inlet Evaporative Cooling?
 Structured Media Technology
 
 PreCooler News


January 2008
Munters have received various larger orders mainly for Asia and the Middle East for Alstom and Siemens projects, in particular for V 94.2A and V94.3A, GT13E2 and GT 26 machines.

December 2007
Munters have finished the last (out of 12) fogging installations for ENEL, Italy on V94.3A. The fogging systems increase the output of the 12 units by more than 200 MW and thus also give ENEL a higher flexibility in their operations.

January 2007
Munters have received a contract for coolers for 6 large GE turbines with deliveries in 2007/ 2008.



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1x Frame 6 gas turbine
1x Frame 6
3x ABB GT 93 E2
3x ABB GT 13 E2
2x ABB GT 8
2x ABB GT 8
  • Low initial cost (EUR 10-20 / additional kW)
  • Increased Power Output - typically between 8-20 % (Increase in cooling of 0.5-1% /°C for gas turbines, 0.05 % /°C for steam turbines)
  • Increased thermal efficiency (reduced heat rate 0.2 % /°C)
  • Reduced NOx emissions (0.8-1.5 % /°C cooling)

    • Why use Evaporative Cooling?
    Fogging Technology
     

    Evaporative Cooling gas turbine
    3x GE LM 6000 sprint
    Pumpskid
    Pumpskid SMEC OMPA
    9xENEL V94.3A
    9xENEL V94.3A

  • Very low pressure loss
  • Short installation period
  • Can be retrofitted to almost any gas turbine
  • "Seamless" adaptation to achieve targeted cooling effect
  • Average droplet size below 15 micron
    •   
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