不锈钢波纹板填料丝网精织12线6面250AX 500BX 700CY
金属波纹网填料,作为全球范围内广泛应用的高效填料,其独特之处在于由众多平行并列的金属波纹网片精心编织而成,形成了一个圆盘状的结构。这种设计赋予了它一系列卓越的性能:比表面积巨大、孔隙率极高以及轻巧的重量;气相通路倾斜角度微小且有序,压降显著下降;在径向扩散方面表现出色,不仅气体接触充分,而且能有效促进物质交换。此外,它们还具备良好的稳定性和耐用性。
性能参数:
型号:250AX、500BX、700CY
峰高(mm):12、6.5、4.5
比表面积(m²/m³):250/500/700
堆积重度(Kg/m³):125/250/350
倾斜角度:30°/45°
空隙率(m³/m³):95%/90%/85%
每板压力降(Pa/n):10-40 Pa, 40 Pa, 67 Pa
HETP/mm:100,200,400 mm (或333 mm)
理论板数(m⁻¹):2.5~3 m⁻¹,4~5 m⁻¹,8~10 m⁻¹(或1.5~2.0 m⁻¹)
F因子(m/s(Kg/m³)0.5):2.5~3.0 kg/m² s^(-1)(Kg/m³)^(0.50), 1.9 kg/m² s^(-1)(Kg/m³)^(0.50), 1 kg/l s^(-1)
优点:
metallic mesh wave filler has many advantages:
High theoretical plate number and large throughput.
Good loading capacity with low pressure drop.
Operates with good flexibility.
No significant amplification effect observed.
It meets the requirements of precision large-scale high vacuum distillation devices for difficult separation materials such as heat-sensitive materials and high-purity products.
应用场景:
AX series (e.g., AX–250):
Used in production requiring high intensity and relatively fewer theoretical plates for precise distillation.
BX series (e.g., BX–500):
Suitable for vacuum distillation of sensitive or difficult-to-separate substances under pressures less than 7 kPa.
CY series (e.g., CY–700):
Ideal for separating isotopic mixtures or isomeric mixtures due to its ability to handle complex molecular structures effectively while maintaining the integrity of the substance during processing.
This type of metallic mesh wave filler offers a wide range of applications in various industries where precise control over temperature gradients and material flow is crucial.
In summary, metal mesh wave fillers are versatile tools that provide efficient separation solutions across various industries through their unique structure and properties.
The use of these fillers allows manufacturers to optimize their processes by minimizing energy consumption while maximizing purity levels.
Furthermore, this technology ensures consistent results even when dealing with challenging substances that are typically difficult to separate.
Overall, metal mesh wave fillers offer a reliable solution for achieving accurate separations in both research laboratories and industrial settings.
By leveraging these advanced technologies we can improve our understanding of chemical reactions at a molecular level leading to better product quality as well as reducing waste generation during manufacturing processes.
Therefore it's no surprise why metal mesh wave fillers have become an essential component in modern chemical engineering practices worldwide.
With advancements in materials science researchers continue to explore new ways to enhance performance capabilities making them more versatile adaptable durable cost-effective sustainable alternatives suitable for future generations needs
The versatility adaptability durability cost-effectiveness sustainability efficiency performance capabilities make them highly sought after innovative solutions among scientists engineers chemists industry professionals policymakers regulatory bodies academics worldwide
