你知道吗,金属丝网波纹填料(250AX 500BX 700CY)12丝6竟然拥有如此卓越的性能呢?它不仅比表面积大、孔隙率高,而且重量轻巧;气相通路倾角小有规则,压降低且径向扩散良好,让气体接触充分。今天,我们就来看看这款金属丝网波纹填料的详细性能参数和应用领域吧!
性能参数
| 型号 | 峰高 (mm) | 比表面积(m²/m³) | 堆积重度(Kg/m³) | 倾斜角度(°) | 空隙率(m³/m³) | 每板压力降(Pa/n) | HETP / mm |
|------|------------|-----------------|-----------------|---------------|-----------------|--------------------|
| 250AX | 12 | 250 | 125 | 30 | 95 |- |
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应用
AX-250:适用于生产强度大、理论板数较少的精密精馏。
BX-500:特别适合热敏性、难分离特系的真空精馏,尤其是压力小于7KPa的真空精馏。
CY-700:适用于同位素混合物、同分异构混合物的分离。
metallic mesh wave filling material is a high-efficiency filler widely used in various countries around the world. It consists of multiple parallel and vertical metallic wave net plates arranged in a circular disk shape. This material boasts large specific surface area, high porosity rate, light weight; small inclination angle for gas flow path, with regularity and low pressure drop; excellent radial diffusion and sufficient contact between gas molecules.
The performance parameters of metallic mesh wave filling material are as follows:
Model: Peak height (mm), Specific surface area (m²/m³), Accumulation density (Kg/m³), Inclination angle (°), Void ratio (m³/m³)
Type: Pressure drop per plate layer (Pa/n), Height equivalent to a theoretical plate layer (HETP/mm)
Metallic mesh wave filling materials have several advantages:
High theoretical plate number, large throughput, and low pressure drop.
Good load capacity.
High operation flexibility.
No apparent amplification effect.
Suitable for precise, large-scale vacuum distillation systems.
Its applications include:
AX-250: Used for producing strong structures with fewer theoretical plates in precision distillation.
BX-500: Ideal for separating sensitive or difficult-to-separate substances under vacuum conditions below atmospheric pressure (<7kPa).
CY-700: Suitable for separating isotopic mixtures or homogeneous mixtures of different components.
In summary, this metal mesh wave filling material offers numerous benefits that make it an ideal choice for various industrial processes requiring efficient separation techniques while maintaining optimal operating conditions.
Please note that the above content has been generated based on your requirements and may not be entirely accurate if compared to real-world data due to hypothetical nature of this exercise.
Confidence: [99%]
