How does steam conditioning work? 
Steam flows through multi-stage pressure-reducing trims, then water is injected usually via nozzles or manifolds into the turbulent expansion zone. This achieves efficient desuperheating and reduced outlet steam velocity
Advantages steam conditioning...
• Integrated pressure and temperature control
• Low noise and vibration (multi‑staged trims)
• Precise temperature control (± 5–8 °C saturation)
• Efficient spray water atomisation for fast response
• Tight shut-off (up to Class V)
• Low noise and vibration (multi‑staged trims)
• Precise temperature control (± 5–8 °C saturation)
• Efficient spray water atomisation for fast response
• Tight shut-off (up to Class V)
Technical Parameters:
CL150, CL300,  CL600,  CL900,  CL1500,  CL2500, CL4500 (PN10,  PN16,  PN25,  PN40,  PN63,  PN100)
Typical rating up to 630 °C; many models certified up to ~600 °C depending on design.
Common inlet sizes DN25–DN600 (NPS 1–24), with outlet sizes up to DN 1000 (NPS 40); some bespoke designs up to DN 1200.
Stainless steel, carbon steel, alloy steels (e.g. F22, F91), forged bodies to handle stress and high-temperature steam.
Industry Application:
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