Abstract
Coal is primarily beneficiated by wet gravity methods. The wet processing of coal is an efficient practice. However, it introduces the moisture in the range of 6%–15%, depending upon the size of coal which is as detrimental as ash content to the heating value of coal. Dry beneficiation of coal fines was carried out using an air fluidized vibrating table in which the coal particles get separated from the heavier mineral particles as a result of horizontal and vertical stratification. Two level factorial design matrix was used to optimize and assess the interactive effects of the operational parameters of a pneumatic table viz. deck eccentric, side tilt and air flow rate on the clean coal yield and its ash content. Double stage processing was found to be more effective for reducing the ash content of the clean coal. Initial stage of processing at a higher ash level generates a reject of high ash with low combustibles. Cleaning of the rougher concentrate at 34%–35% ash level shows significant improvement in the organic efficiency (88.6%) and useful heat value of clean coal (15690 kJ/kg). The performance of air fluidized vibrating deck was measured by Ep value which is 0.18.
Highlights
The resources of coal in India are about 301.56 billion tonnes which are much higher compared to oil and gas (Geological survey of India (GSI) 2014)
The wet processing of coal is an efficient practice. It introduces the moisture in the range of 6%–15%, depending upon the size of coal which is as detrimental as ash content to the heating value of coal
The washability study of coal sample conducted by using medium of varied specific gravities shows that at a specific gravity of 2.0, yield of clean coal is 40.4% at 24.3% ash level with recovery of combustibles 67.7% (Fig. 4)
Summary
The resources of coal in India are about 301.56 billion tonnes which are much higher compared to oil and gas (Geological survey of India (GSI) 2014). Several researchers found that dry beneficiation of coarse coals are found to be effective in reducing the ash in clean coal by different techniques (Li et al 2011; Yang et al 2013). Autogeneous medium is produced by mixture of air and fine coal power which behaves as a separating density. The dry processing of coal fines was carried out by Patil and Parekh (2011) and Shobhana et al (2015) for reducing the ash content in the clean coal by air fluidization technique. Dry beneficiation of high ash coal fines has been studied for reduction of ash in clean coal, enrichment of carbon values and for understanding the separation behavior.
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