Product Introduction
Sintered Fluidization Plates are precision-engineered components used in fluidized bed technology for industrial processes requiring efficient mass transfer, heat transfer, and chemical reactions. Made from high-quality stainless steel sintered wire mesh (304, 316L), these Sintered Fluidization Plates ensure uniform gas distribution, stable fluidization, and long-term operational reliability.
By preventing powder agglomeration, arching, or hardening, these plates enable smooth powder conveying, efficient fluidization, and controlled chemical processes. Their high strength, rigidity, and corrosion resistance make them ideal for demanding environments in industries such as alumina plants, coal powder injection systems, and blast furnaces.
Key Features
Uniform Pore Distribution: Stable airflow and pressure balance.
High Strength & Rigidity: Easy installation and low maintenance.
Excellent Heat & Mass Transfer: Improves process efficiency and reduces gas usage.
Durable Material: High temperature (up to 800°C) and corrosion resistance.
Operational Flexibility: Available in welded or removable designs, resistant to leakage and blockages.
Technical Specifications
Maximum Dimensions: ≤1200mm × 1000mm
Thickness: 2–12mm
Pore Size Range: 1–300 μm
Filter Media: Sintered stainless steel woven mesh
Material Options: Stainless steel 304, 316L (other alloys available on request)
Service Life: Long-lasting, reliable operation under harsh industrial conditions
Applications
Sintered fluidization plates are widely used for:
Powder Conveying & Fluidization: Alumina plants, coal powder injection systems, dense-phase conveying.
Heavy Industry: Energy, cement, chemical, machinery, glass production.
Environmental Protection: Hot gas purification, gas recycling, dust collection.
Specialized Equipment: Drilling rig dust collection boxes, gas/dust monitoring devices.
Available in square, circular, wedge, basket, cone, and cylindrical structures, these plates can be customized to meet unique process requirements.
