Ceramic saddles, ceramic saddle ring, ceramic saddle tower packing, ceramic tower packing, ceramic random packing
Size & Specification:
Product Name | Size mm | Diameter*Height*Thickness mm | Surface Area m2/m3 | Void Space % | Bulk Density kg/m3 | Number/ m3 | Packing factor |
Intalox saddle ring | Φ16 | 16×12×2 | 450 | 70 | 710 | 382000 | 1311 |
Φ25 | 25×19×3 | 250 | 74 | 610 | 84000 | 617 | |
Φ38 | 38×30×4 | 164 | 75 | 590 | 25000 | 389 | |
Φ50 | 50×40×5 | 142 | 76 | 560 | 9300 | 323 | |
Φ76 | 76×57×9 | 92 | 78 | 520 | 1800 | 194 |
Ceramic Saddles are divided into two different types of products according to their properties, KPK-CIS-A is often used in the field of Chemical and Petrochemical industries, and KPK-CIS-B is mainly used in environmental areas such as RTO(Regenerative Thermal Oxidizers) equipment. But both of them are the most frequently used high-performance packing and exhibit advantages for most applications in comparison with other shapes. Their smooth surface imparts a high chemical resistance and provides Ceramic Intalox saddle rings (Ceramic Saddles) with a high level of stability. Due to their simple form, ceramic saddles can be produced at a relatively low cost.
Chemical composition:
SiO2 | Al2O3 | Fe2O3 | CaO | MgO | K2O+Na2O | Other |
>73% | 17-23% | <1.0% | <0.5% | <0.5% | 2-4% | <0.1% |
Physical properties:
Index | Value |
Specific gravity(g/cm3) | 2.3 |
Water absorption (%) | <0.3 |
Acid resistance (%) | >99.6 |
Max operating temp.() | 1100 |
Porosity (%) | <1 |
Mohs hardness(scale) | >6.5 |
Thermal conductivity(w/m.k) | 0.9-1.0 |
Specific heat(j/kg) | 850-900 |