FLEXISADDLE® Ceramic Random Media

Size Crush Strength Piece Count Bulk Density Void Space
0.75 in 153 lbs
69 kg
4,900 pcs/ft3
172,970 pcs/m3
44 lbs/ft3
705 kg/m3
69%
1 in 211 lbs
95 kg
2,100 pcs/ft3
74,100 pcs/m3
42 lbs/ft3
673 kg/m3
70%
1.5 in 200 lbs
90 kg
575 pcs/ft3
20,300 pcs/m3
39 lbs/ft3
625 kg/m3
74%
2 in 200 lbs
90 kg
320 pcs/ft3
11,700 pcs/m3
34 lbs/ft3
545 kg/m3
76%
3 in 1087 lbs
487 kg
59 pcs/ft3
2,080 pcs/m3
33 lbs/ft3
529 kg/m3
77%
 

LPD® (Low Pressure Drop) Ceramic Random Media

Size Crush Strength Piece Count Bulk Density Void Space
1 in 290 lbs
132 kg
1,350 pcs/ft3
47,700 pcs/m3
40 lbs/ft3
641 kg/m3
71%
1.5 in 300 lbs
136 kg
310 pcs/ft3
16,300 pcs/m3
36 lbs/ft3
600 kg/m3
75%
 

GR (Glazed Resistant) LPD® Ceramic Random Media

Size Crush Strength Piece Count Bulk Density Void Space
1 in 300 psi
2.1 MPa
1,350 pcs/ft3
47,700 pcs/m3
40 pcs/ft3
641 kg/m3
71%

Random Media

Our random heat transfer ceramic media has been used at thousands of installations worldwide. It is available in various sizes, materials and designs to solve the toughest environmental needs.

FLEXISADDLE® Ceramic Random Media 

FLEXISADDLE random packing’s shape is the most widely used random heat transfer media on the market today. Its unique form provides a highly effective surface area and a low resistance to the air flow for mass and heat transfer optimization. Due to its high quality, FLEXISADDLE Random Packing provides the greatest value for any application worldwide.  

LPD® (Low Pressure Drop) Ceramic Random Media

Provides a high open area and aerodynamic design, resulting in 20% lower pressure drop and up to 40% reduced particulate retention compared to standard saddle media. Lower pressure drop savings offers the RTO designer reduced fan costs or smaller unit designs. Meets ASTM 515 specifications for porcelain packing.

GR (Glazed Resistant) LPD® Ceramic Random Media 

Engineered to resist intense forms of alkali attack, resulting in longer life and higher resistance to thermal cycling damage. Our formulation exhibits outstanding strength retention after thermal shock cycling, with a remarkable 0% reduction in strength compared to typical random media. Can be manufactured in LPD® geometry that results in over 20% lower pressure drop than standard random media.

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