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WIZ_DBS1500
     Activated Carbon
 
Activated Carbon
 
Product Descriptions  
 

 

¡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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