Carbon produced from coconut shell -A small business venture , Depending on the availability of raw materials, the project could start producing carbon from the crate. Carbon is available in many forms in nature, such as pellets, granules and powder forms. The carbon produced, in any case, has a high absorption capacity of gases, vapors, and “colloidal solids” in the form of gaseous ions or liquids.
This is a very important chemical component that is widely practiced by many industries in the refining process. This chemical component is essential for the absorption of certain gases and windows, as well as for the conversion of vegetable oils and sugar to the acceleration of various chemical reactions.
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In the case of purification of liquids, the carbonate powder produced from the cinnamon is added to the purifying liquid in the form of a purified liquid and the final mixture is filtered. Because of the high quality of the carbon produced from the chisel, it is primarily used for purifying gases or liquids and in a vertically carbon packed column. In addition, a significant amount of this stripped carbon is used in oil refining, chemical and pharmaceutical industries.
With the proliferation of the pharmaceutical and agro-based oil industry, the demand for carbon derived from chert is expected to increase steadily in the coming years. In addition to the demand in the Indian market, high quality Coconut Shell has a huge appeal in the foreign market. So, this industry is a great opportunity for an entrepreneur.
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The process of activating carbon from the Coconut Shell is carried out in two stages. First of all, the chirping process is carried out through the carbon Coconut Shell process, which is usually carried out in mud pits, brick furnaces and metallic portable furnaces. Coconut Shell activates the reaction using steam at a temperature of 900 ° C – 1100 ° C in a controlled atmosphere in a rotary furnace (high temperature).
When the interaction between the vapor and the cavity takes place on the inner surface, this creates an opportunity for more dust to form. The temperature factor is very important in this process. Reaction below 900 ° C not only slows down the process, it is also very economical. On the outside, the reaction is restricted to above 1100 ° C, so the charcoal is lost.