Customization: | Available |
---|---|
Application: | Ceramics Industry, Polishing Material, Refractory Material |
Form: | Structured Packing |
Suppliers with verified business licenses
Audited by an independent third-party inspection agency
Product Description
Products Introduction of Ceramic Structured Packing
Ceramic Structured Tower Packing consists of many packing units of similar geometric design. Corrugated sheets placed in parallel form cylindrical units called corrugated tower packing. These are a form of highly efficient packing with separating efficiency several times higher than that of loose packing. They have the quality of low-pressure drop, increased operating elasticity, minimum amplifying effect, and maximum liquid treatment compared to random tower packing.
Because of ceramic unique structure, good hydrophilic performance, its surface can form a very thin liquid film of turbulent airflow tilt and tortuous channels can promote the air but not stop match the metal filler air can make the ceramic packing, and its corrosion resistance, high temperature resistant performance of metal filler can't compared. Surface structure has good wetting property, can accelerate liquid flow, make the packing delay fluid volume to a minimum. To reduce the chance of overheating, aggregation, and coking. This product is made of high quality chemical porcelain clay raw material processing and become, resistant to high temperature and high pressure, good chemical stability and high strength, is an ideal carrier to support various types of catalysts.
Product Parameters
Chemical Analysis of Ceramic Structured Packing
Composition |
Value |
SiO2 |
≥72% |
Fe2O3 |
≤0.5% |
CaO |
≤1.0% |
Al2O3 |
≥23% |
MgO |
≤1.0% |
Other |
2% |
Index |
Value |
Specific gravity(g/cm3) |
2.5 |
Water absorption (wt%) |
≤0.5 |
Acid resistance (wt%) |
≥99.5 |
Loss in burn (wt%) |
≤5.0 |
Max. operating temp.(ºC) |
800 |
Crush strength (Mpa) |
≥130 |
Moh's hardness(Scale) |
≥7 |
Spec. |
Specific surface (m2/m3) |
Bulk density (kg/ m3) |
Void ratio (%) |
Obl. angle |
Pressure drop (mm Hg/m) |
Theo. plate (m-1) |
Hydraulic diameter (mm) |
Liquid load (m3/m2h) |
Max. factor m/s (Kg/m3)-1 |
125Y |
125 |
320 |
90 |
45 |
1.8 |
1.8 |
28 |
0.2-100 |
3.0 |
250Y |
250 |
420 |
80 |
45 |
2 |
2.5 |
12 |
0.2-100 |
2.6 |
350Y |
350 |
470 |
78 |
45 |
2.5 |
2.8 |
10 |
0.2-100 |
2.5 |
450Y |
450 |
520 |
72 |
45 |
4 |
4 |
7 |
0.2-100 |
1.8 |
550Y |
550 |
620 |
74 |
45 |
5.5 |
5-6 |
6 |
0.18-100 |
1.4 |
700Y |
700 |
650 |
72 |
45 |
6 |
7 |
5 |
0.15-100 |
1.3 |