Added to quote
Your quote has no products.
Quick product entry
IMI Remosa
Butterfly Valve
High‑performance butterfly valves engineered for precise flow control, fast shut‑off and reliable operation in high‑temperature, erosive FCC applications.
Custom‑engineered for FCC power recovery applications with proven reliability across global installations.
Designed for extreme conditions with high‑grade materials that resist erosion, wear and temperatures up to 960°C.
Fast‑acting shut‑off in under 0.4 seconds to protect turbines and ensure safe, dependable operation.
Features
IMI Remosa butterfly valves are engineered for precise flow control, isolation and protection in FCC power recovery applications. Built for demanding, high‑temperature and erosive environments, they use high‑grade materials and advanced erosion‑resistant linings to ensure long service life. The valves can be customised from 8 inches to 150 inches and are designed to meet customer specifications without major structural changes.
Their fast‑acting design achieves shut‑off in under 0.4 seconds, helping safeguard turbines during critical operating conditions. The hard‑faced seat and nickel alloy shaft improve durability, while finite element analysis supports structural strength and reliability. With hundreds of installations worldwide and approval from key FCC process licensors, the design is well proven.
IMI also provides complete package solutions that integrate valves, actuators and hydraulic power control units, giving operators precise throttling, remote operation and reliable performance in extreme conditions.
If you want this adapted to a specific page layout, tone or technical depth, just say the word.
Key features
Designed specifically for FCC power recovery train use
Customisable sizes from 8 to 150 inches
High‑temperature capability up to 960°C (1760°F)
Pressure rating up to 5.5 bar and above
Fast‑acting shut‑off time under 0.4 seconds
Hard‑faced seat and seat area for wear resistance
High‑performance nickel alloy shaft construction
Erosion‑resistant lining and high‑end alloy body
Finite element analysis applied to validate strength
Supports automatic throttling and remote operation
Specifications
Design Codes
ASME VIII Div. 1 & 2
ASME B31.3
Certification
PED
SIL2
CRN
CU-TR
Port Size (")
8 to 140
Material
Carbon Steel
Stainless Steel
Low Alloy Steel
Temperature Limits (°C)
0 to 950
Maximum Working Pressure (barg)
4
Fluid Types
Gas
Resources
By downloading, you confirm that you accept our Terms and Conditions. Please refer to them for full details on usage.
