¡Û JEC Activated Carbon
[Liquid treatment Activated carbons] Grade | Applications | Characteristics | C | Purification of Drinking Water. Sewage treatment. Oil and fat refining, plastics, and other chemicals. Dechlorination of wastewater. Removal of organics from wastewater.
| Dirty. There is dust. Average pore diameter 2.0 nm
| M | Chlorine decomposition of starch sugar, sugar, glutamic acid, organic acids, and other chemical intermediates. | Dirty. There is dust. Purification
Average pore diameter 2.0 nm
| A | Degradation of starch sugar, sugar, glutamic acid, organic acids and other chemical intermediates. | Dirty. There is dust. Refined Average pore diameter 2.0 nm
| P | High purification of pharmaceuticals and other chemicals. | Dirty. There is dust. Very Refined Average pore diameter 2.0 nm
| Z | Sugar, sweeteners, MSG and chemical intermediates. Dry-cleaning and purification of other organic solvents.
| Activated Carbon Chloride powder. Dust saw standards Average pore diameter 3.0 nm.
| KYOURYOKU | Industrial chemicals, food, dry cleaning solvents can also be used | Zinc chloride activated carbon. dirty. There is dust. Refined. Average pore diameter 3.0 nm
| SEISEI | Purification of medicines. Corrective action requiring high purity.
| Zinc chloride activated carbon. dirty. There is dust. Very Refined. Average pore diameter 3.0 nm
| TOKUSEI | Cleansing agent for medicines. Correction operations that require high purity.
| Zinc chloride activated carbon. dirty. There is dust. Extremely Refined. Average pore diameter 3.0 nm
|
Grade | Particle Size
(mm)
| Applications | Characteristics | KL | 0.250-1.700 | Dechlorination and purification of various solvents Chromatographic
separation of multi-component solutions.
| Fine. Wood based. Larger sized
molecules and excellent adsorption. It can be
reactivated with caustic soda and organic solvents.
| WH©üc W©üc
| 0.500-2.360
0.300-0.850
| Water purification
for food processing and beverage applications.
Drinking water
filtration in refined plants.
Pretreatment for
ion exchange resin protection.
| It is fine. Core shell based. WHC2C --- pH
control? W2C --- pH is not conditioned.
| WH5c W5c
| 0.500-2.360 | Decomposition of
Drinking Water.
Sewage and waste
treatment water.
| Zinc chloride
activated carbon. Dirty. There is dust. Average pore
diameter 3.0 nm
| WH©üx
| 3.350-4.750 | Water purification
for food processing and beverage use.
| Of awareness. Core shell based. Washed. Low metal content.
| X7000H | 0.500-2.360 | Treatment of
sewage, industrial wastewater and domestic wastewater.
| Olded.
Coal based.
The adsorption
tower can be easily filled and separated.
Excellent fluidity
of the slurry.
7000H --- pH
condition not established.
710H --- pH
adjusted.
| XS7000H
XS7100H
| 0.500-2.360 | WHA | 0.500-2.360
0.250-0.500
0.212-0.106 | Removal of residual
chlorine and tromolamine from tap water.
| Fine. Core shell based. Premise. Of antimicrobial.
| MAC-W | 0.710-2.360 | Remove mercury from
wastewater | Fine.
Core shell based.
Premise.
Highly effective adsorption of dilute mercury.
|
[Gas treatment Activated carbons]
Grade | Applications | Characteristics | DO-2 | Purification of Drinking Water. Sewage treatment. Oil and fat refining, plastics, and other chemicals. Dechlorination of wastewater. Removal of organics from wastewater. | Dirty. There is dust. Average pore diameter 2.0 nm | DO-5 | Chlorine decomposition of starch sugar, sugar, glutamic acid, organic acids, and other chemical intermediates. | Dirty. There is dust. Purification Average pore diameter 2.0 nm | DO-11 | Degradation of starch sugar, sugar, glutamic acid, organic acids and other chemical intermediates. | Dirty. There is dust. Refined Average pore diameter 2.0 nm |
Grade | Particle Size (mm)
| Applications | Characteristics | G©üc | 2.360-4.750
0.850-1.700
| Purification of air
and various kinds of gas. Decomposition of
industrial gas and odor gas
| Fine. Core shell based.
| G©üx
| 3.350-4.750 | Purification of air
and various kinds of gas. Decomposition of
industrial gas and odor gas
| Awareness. Core shell based. Washed
| S©üc
| 3.350-4.750
2.360-3.350
| Recovery of various
evaporated organic solvents in the gas.
| Awareness. Core shell based. Washed
Low alkali metal content.
|
Grade | Particle Size (mm) | Applications | Characteristics | GH©üx | 3.350-4.750 | Acid gas
absorption. Adsorption of
sulfur compounds in the presence of ammonia.
| Of awareness Core shell based. Of the premise. The combined use of
these products is very effective for mixed gases.
| GS©ýx
| 3.350-4.750 | Absorption of
ammonia - free hydrogen sulphide, mercapan.
| Of awareness Core shell based. Of the premise. The combined use of
these products is very effective for mixed gases.
| GTsx
| 3.350-4.750 | Basic gas
adsorption such as ammonia, trimethylamine, and monomethylamine
| GS©üx | 3.350-4.750 | Adsorption of
sulfuric acid
Absorption of mercapan
| GOC | 2.360-4.750 | Remove excess ozone
gas. | Fine,
Core shell based.
Premise.
| APRC | 1.700-4.750
0.710-2.360
| Removal of doping
gases used in semiconductor production | Fine.
Core shell based.
Of the premise.
Effective
adsorption during drying process.
| XRC | 1.700-4.750
0.710-2.360
| Halide removal | Fine,
Core shell based.
Premise.
| TAC | 1.700-4.750
0.710-2.360
| Removes sulfuric
acid, cyanide, halide and acetonide in the absence of oxygen | Fine,
Core shell based.
Premise.
| MAC | 1.700-4.750
0.710-2.360
| Removal of mercury
vapor | Fine,
Core shell based.
Premise.
| NCC | 1.700-4.750
0.710-2.360
| Remove mercuric and
sulfuric acid from village gas and LPG, which are used as odor free from oxygen
and moisture. | Fine.
Core shell based.
Of the premise.
Very effective
adsorption of sulfur compounds.
| SRCx | 3.350-4.750 | Elimination of mercaptan and sulfuric acid
used as odor in village gas and LPG | Of awareness.
Of the premise.
Effective
adsorption of sulfur compounds.
|
[Catalyst activated carbon] Grade | Applications | Characteristics | FAC-10 | The catalyst is
good for the chemical reaction field.
| Dirty. Wood based. Extremely refined Quick filtering |
Grade | Particle Size (mm) | Applications | Characteristics | C©üc | 0.300-0.850 0.250-0.500
| Catalysts and
catalysts cause chemical reactions in fermented beds and fixed beds.
| Fine. Core shell based. Extremely refined.
| C©üx
| 3.350-4.750 | Catalysts and
catalysts cause chemical reactions in fixed beds.
| Of awareness.
Core shell based. Extremely refined.
|
[Gas Separation Activated Carbons]
Grade | Particle Size (mm) | Applications | Characteristics | MSC | 1.180-2.800 | Nitrogen
separation. Methane separation.
| Of awareness. Core shell based.
| X©üM
| 3.350-4.750 | Hydrogen
separation. Purification of air
and various kinds of gas.
| Of awareness. Core shell based.
| G©üx
| 1.400-2.800 | Hydrogen
separation. Purification of air
and various kinds of gas.
| Of awareness. Core shell based.
|
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