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|EINECS NO:||264-846-4||Application:||Drinkg Water|
|Product Name:||Granule Coal Activated Carbon||Hardness:||90%(min)|
coal based granular activated carbon,
Eco-friendly 8X16 Iodine 900 Granule Coal Activated Carbon for Drinkg Water/Industrial Water/Potable water/Sewage water
Coal based activated carbon originates from coal that has undergone a steam activation process.
The product is a granular activated carbon developed for water treatment, deodourisation and separation of components of flow system.
Physical reactivation: The precursor is developed into activated carbons using gases.
This is generally done by using one combination of the following processes:
1.) Carbonization: Material with carbon content is pyrolyzed at temperatures in the range 600–900 °C, in absence of oxygen (usually in inert atmosphere with gases like argon or nitrogen)
2.) Activation/Oxidation: Raw material or carbonised material is exposed to oxidizing atmospheres (carbon monoxide, oxygen, or steam) at temperatures above 250 °C, usually in the temperature range of 600–1200 °C. The product is also designed to comply with all the applicable provision of AWWA standard for Granular Activated Carbon edition, the stringent extractable metals requirements of NSF standard.
The product is used primarily to treat surface water sources for the production of drinking water. it is used for dechlorination, deoiling of industrial water such as food , chemical industry, electric power, electric plate, etc, and further purifying treatment of potable water and sewage water.
|Iodine Number||900~1100 mg/g|
|Moisture by Weight||5%(max)|
|Screen Size by weight, US Sieve Series|
|On 8 mesh||5%(max)|
|Through 16 mesh||5%(max)|
Having high hardness, can reduce the generation of fines and product losses during backwashing. Complicated pores structure provides an equal blend of low and high energy, also for effective removal of abroad range of high and low molecular weight organic compounds Wets readily and do not float, thus minimizing loss during backwash operations.Create optimal transport paths for faster adsorption.