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Carbon Basics :

 

 

Introduction

Activated carbon can be made from a wide range of source materials such as coal, coconut shells and wood. The material is often charred to achieve carbon, followed by chemical activation or activation by high temperature steam. This produces an activated carbon with an extensive network of pores and an extremely high surface area (typical range is 300 to 2000 m2/g). The pores provide sites for the adsorption of chemical contaminants in gases or liquids.

Activation

Material such as wood, coconut shells or coal that is activated by steam is first carbonised to create charcoal. The carbonisation is performed at a temperature at approximately 550 degC in an oxygen free atmosphere. This process drives off all of the volatile organic compounds and leaves behind the carbon and the minerals (ash).

 

Steam Activation

The steam activation of the charcoal is then carried out an even higher temperature (up to 1000 degC) in a steam atmosphere. The activation reaction between charcoal and steam can be described as follows:

        C + H2O => CO + H2

        C + CO2 => 2 CO

The activation process can be controlled to produce specific product characteristics. Steam concentrations, temperature, activation time and CO2 concentrations influence pore development, which in turn affect pore size distributions and the level of activity.

Chemical Activation

Activation of the charcoal can be carried out by the use of chemicals other than steam. Examples of activation atmospheres are nitrogen (N2) and carbon dioxide (CO2) with or without involving strong acids (eg. hydrochloric acid) or bases (potassium hydroxide). Different chemicals create different activated carbon characteristics.

Impregnation

Impregnation is the process where activated carbon is treated with a chemical reagent that reacts with low molecular weight or polar gases such as chlorine, sulphur dioxide, formaldehyde, and ammonia, binding them up on the carbon and thereby removing them from an airstream. This process, commonly referred to as "chemisorption", may involve neutralisation or catalysis reactions.

 

The impregnation process must be carefully controlled to ensure correct loading levels and even distribution of reagent on the carbon, without restricting access to the reaction sites within the pores. Properties such as activity, moisture content, and particle size affect the performance of the adsorbent, and can be controlled to optimise filter efficiency and service life.

Forms of Activated Carbon

There are three main forms of activated carbon.

 

Granular Activated Carbon (GAC)
GAC

The activated carbon is milled and sieved to achieve particles in the range of 0.2 to 5 mm. Typically the drinking water industry uses an 8 x 30 mesh (effective size of 0.80-1.0 mm), or a 12 x 40 mesh (effective size of 0.5 - 0.7 mm). GAC is used in both liquid and gas phase applications.

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Powdered Activated Carbon (PAC)
PAC

Powdered activated carbon is also milled and sieved and has a smaller particle size than the GAC. The PAC particles are mainly less than 0.18 mm (US Mesh 80) usually with a median diameter of 15 to 30 microns. PACs are generally used in liquid phase applications and for flue gas treatment.

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Pelletised / Extruded Activated Carbon
Pellet

The activated carbon has been extruded into cylindrical shaped pellets with diameters ranging from 0.8 to 5 mm. These are mainly used for gas phase applications because of their low pressure drop, high mechanical strength and low dust content.

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Activated carbon is also available in special forms such as a cloth and fibres.

 

Activated Carbon Technologies supplies a full range of high quality Acticarb activated carbon products that are used in a wide range of applications, from traditional to more innovative.

New Zealand Domestic Enquiries

Tel.        +64 4 499 4475

E-Mail     info@activatedcarbon.co.nz

 

Australia and International Enquiries

Tel.        +61 3 9437 2600

E-Mail    info@activatedcarbon.com.au

 

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