Calcined Petroleum Coke


High specific resistance and reactivity. Semicoke can increase the daily output by 0.221-0.311t/(d•furnace) while power saving by 537-649kW•h when using with metallurgical coke in the ferrosilicon industry.
Suitable particle size. Blacking can be used directly as granular injection material and limited investment on grinding, drying and operation systems.
Low sulfur content and SO2 emission.
The activated carbon made from semicoke is with rich pores and strong adsorption capacity.
Sulfonated coal has strong water seepage capacity, small water flow resistance and high processing efficiency.
AO HUI Carbon specializes in screening various particle size calcined coke, 1-3mm, 1-5mm, 1-10mm, 1-20mm, etc., customized according to the needs, screening various types of sponge-like calcined coke, of which after calcination The coke mainly produces low-sulfur calcined post-coke and medium-sulphur calcined post-coke. The stock is large, with a monthly supply of 30,000 tons. The delivery is fast, the industry is leading, and the sales are all over the world.
Linzhang County AO HUI Carbon company specialized in the production of steelmaking/casting recarburizers, petroleum coke recarburizers, and sponge-like calcined cokes. The calcined cokes mainly produce low-sulfur calcined coke and medium-sulphur calcined coke. Can be screened for various sizes and models, customized according to needs, large inventory, fast delivery, industry leading, welcome to have a visit of our factory.

Calcined Petroleum Coke Particles Index

Sulfur Ash V.M Moisture F(C) A.R Size
0.50% 0.50% 0.70% 0.30% 98.50% 92% 0-1mm

Calcined Petroleum Coke

Calcined Petroleum Coke is a critical ingredient in the production of aluminum. It is created by placing high quality raw "green" petroleum coke into rotary kilns, where it is heated to temperatures between 1200 to 1350 degrees C (2192 to 2460 F). The high temperatures remove excess moisture, extract all remaining hydrocarbons and modify the crystalline structure of the coke, resulting in a denser more electrically conductive product. In a matter of hours, calcined petroleum coke is cooled from 1350 degrees C to less than 200 degrees C, when it can be safely handled and transported to storage silos or placed directly into shipping containers, trucks, railcars, barges or vessels.

Calcined petroleum coke has a sponge-like structure which plays an important role in the making of anodes. The pores allow binding material to penetrate through the coke particles and form a solid carbon block, through which aluminum smelters conduct electricity into their smelting pots. Over time, the anodes are consumed, roughly at the rate of 40 tons of calcined petroleum coke for each 100 tons of aluminum produced. Currently, there is no known commercially viable substitute for calcined petroleum coke in the fabrication and utilization of aluminum smelter anodes.