What is 100y ceramic structured packing, and why is it essential for waste gas incineration systems? As a specialized high-performance packing material, 100y ceramic structured packing is specifically designed to optimize gas-liquid contact and mass transfer in incineration processes. Its unique material properties and structured design make it a cornerstone for industrial emission control, ensuring efficient pollutant destruction and stable system operation even under harsh conditions.
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Product Overview: Key Features and Advantages of 100y Ceramic Structured Packing
100y ceramic structured packing is engineered from high-purity alumina ceramic, typically with an Al₂O₃ content of 90% or higher, offering exceptional thermal stability and mechanical strength. Its structured design features regularly arranged wave plates supported by metal wire mesh, creating a uniform, high-porosity framework with a specific surface area ranging from 350 to 500 m²/m³. This structure ensures optimal gas distribution and intimate contact between flue gas and packing surfaces, accelerating chemical reactions and reducing residence time requirements. Additionally, 100y packing exhibits superior resistance to thermal shock (withstands temperature fluctuations between -200°C and 1200°C) and corrosion from acidic/alkaline waste gases, making it suitable for diverse industrial environments. The "100y" designation reflects its guaranteed service life of over 10 years, outperforming traditional random packing or plastic alternatives in durability and efficiency. In waste gas incineration systems, it effectively enhances combustion efficiency, minimizes energy consumption, and ensures compliance with strict emission standards, such as reduced VOCs and particulate matter release.
FAQ:
Q1: What makes 100y ceramic structured packing ideal for waste gas incineration?
A1: Its high thermal stability, corrosion resistance, and structured design enable efficient gas-liquid contact, accelerating pollutant combustion and ensuring long-term reliable operation.
Q2: How does the specific surface area of 100y packing impact incineration performance?
A2: With 350-500 m²/m³ specific surface area, it maximizes contact between flue gas and packing, enhancing reaction rates and reducing the need for excessive residence time.
Q3: Which industries commonly utilize 100y ceramic packing in incineration systems?
A3: Chemical, pharmaceutical, metallurgical, and waste management industries, where strict emission control and high-temperature resistance are critical.
