| Grade |
Applications |
Characteristics |
| C |
- Purification of drinking water.
- Treatment of sewage water.
- Purification of oils and fats, plasticizers, and other chemicals.
- Decolorization and deodorization of wastewater.
- Removal of organic matters in the wastewater.
|
- Powdered.
- Saw dust based.
- Average pore diameter 2.0 nm.
|
| M |
- Decolorization of starch sugars, sugars, glutamic acids,organic acids, and other chemical intermediates.
|
- Powdered.
- Saw dust based.
- Purified.
- Average pore diameter 2.0 nm.
|
| A |
- Decolorization of starch sugars, sugars, glutamic acids,organic acids, and other chemical intermediates.
|
- Powdered.
- Saw dust based.
- Purified.
- Average pore diameter 2.0 nm.
|
| P |
- High purification of pharmaceuticals and other chemicals.
|
- Powdered.
- Saw dust based.
- Highly purified.
- Average pore diameter 2.0 nm.
|
| |
| CARBORAFFIN |
- Decolorization and refinery of sugars, sweeteners, MSGs, and chemical intermediates.
- Purification of solvents for dry cleaning and other organic solvents.
|
- Zinc chloride activated carbon.
- Powdered.
- Saw dust based.
- Average pore diameter 3.0 nm.
|
| KYOURYOKU |
- Decolorization/purification/separation of industrial chemicals,food stuffs,and dry cleaning solvent.
|
- Zinc chloride activated carbon.
- Powdered.
- Saw dust based.
- Purified.
- Average pore diameter 3.0 nm.
|
| SEISEI |
- Purification of pharmaceuticals.
- Refinery requiring high purity.
|
- Zinc chloride activated carbon.
- Powdered.
- Saw dust based.
- Highly purified.
- Average pore diameter 3.0 nm.
|
| TOKUSEI |
- Purification of pharmaceuticals.
- Refinery requiring high purity.
|
- Zinc chloride activated carbon.
- Powdered.
- Saw dust based.
- Extremely purified.
- Average pore diameter 3.0 nm.
|
| Grade |
Particle Size (mm) |
Applications |
Characteristics |
| KL |
0.250-1.700 |
- Decolorization and purification of various solvents.
- Chromatographic separation of multicomponent solutions.
|
- Granular.
- Wood based.
- Excellent adsorption of larger sizes of molecules.
- Able to be reactivated by caustic soda and organic solvents.
|
| |
WH2c
W2c |
0.500-2.360
0.300-0.850 |
- Purification of water for food processing and beverage uses.
- Filtration of drinking water in purification plants.
- Pretreatment for protecting ion-exchange resins.
|
- Granular.
- Coconut-shell based.
- WH2c---pH conditioned.
- W2c---pH not conditioned.
|
WH5c
W5c |
0.500-2.360 |
- Deodorization of raw water for drinking.
- Treatment of sewage and waste water.
|
- Granular.
- Coal based.
- WH5c--- pH conditioned.
W5c-- pH not conditioned. |
| |
| WH2x |
3.350-4.750 |
- Purification of water for food processing and beverage uses.
|
- Pelletized.
- Coconut-shell based.
- Washed.
- Low metal content.
|
| |
X7000H
X7100H |
0.500-2.360 |
- Treatment of sewage, industrial wastewater, and domestic wastewater.
|
- Spherical.
- Coal based.
- Easy to fill in and remove from adsorbing towers.
- Superior fluidity in slurry.
- 7000H--- pH not conditioned.
- 7100H--- pH conditioned.
|
XS7000H
XS7100H |
0.500-1.400 |
| |
| WHA |
0.500-2.360
0.250-0.500
0.212-0.106 |
- Removal of residual chlorine and trihalomethane from tap water.
|
- Granular.
- Coconut-shell based.
- Impregnated.
- Antibacterial.
|
| MAC-W |
0.710-2.360 |
- Removal of mercury in wastewater.
|
- Granular.
- Coconut-shell based.
- Impregnated.
- High effective adsorption of dilute mercury.
|
