Boiler Systems
Precision Feeding & Pressure Integrity for Industrial and Utility Boilers
Boilers are the thermal heart of industrial infrastructure. Whether in power generation, process industries, or waste-to-energy plants, combustion stability and pressure control define operational efficiency, safety, and emissions performance. Rotary Air Locks serve as critical interface components between material storage, feeding systems, and combustion chambers, maintaining pressure isolation while ensuring controlled, uninterrupted solid fuel handling.
What This Industry Demands
Multi-fuel variability in particle size, density, and moisture content
High-temperature ash discharge under continuous thermal load
Pressure retention requirements across feeding and combustion interfaces
Low tolerance for feed pulsation which affects flame stability
Strict emissions and safety compliance standards
Where We Apply in Boilers
Pulverized Coal Systems
Stable volumetric fuel discharge with pressure isolation between bunker and mill, preventing false air ingress and supporting uniform flame profile for optimized combustion efficiency.
CFBC (Circulating Fluidized Bed Combustion) Systems
Reinforced heavy-duty construction with abrasion-resistant liners for coal feeding, bed material handling, ash recirculation, and limestone injection under continuous high-temperature operation.
Waste Heat Recovery Boilers (WHRB)
High Temperature and Abrasive Series ensuring pressure integrity and controlled dust discharge in WHRB circuits to protect heat recovery efficiency and draft control.
Biomass & Waste-to-Energy Systems
Reinforced rotor geometry with heavy-duty drive compatibility for stable feeding of variable-density biomass and waste-derived fuels, ensuring combustion consistency and emission control.
In boiler systems, precision air-locking directly impacts combustion stability, fuel efficiency, emission compliance, explosion risk mitigation, and equipment lifespan. Air leakage leads to flame instability, excess air imbalance, higher fuel consumption, increased NOx emissions, fan overload, and reduced system efficiency.
How We Engineer for This Duty
Heavy-duty housings with replaceable wear liners for continuous boiler duty
High-temperature seal configurations and outboard bearing protection
Reinforced rotor tips with optimized clearance control
ATEX / flameproof compatibility for explosive dust environments
Continuous-duty drive systems for 24/7 boiler operation
Need Boilers-Specific Guidance?
Share your operating conditions and we will match the right series, sealing setup, and duty configuration for your process.
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