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To study the amount of fluorine emission from the combustion of the steam coal (mainly Permo-Carbonif-erous coal) from the North China Plate and Northwest China, the fluorine contents of the coal, the fly ash and the cinder in high-temperature power stations as well as mid-low temperature power stations have been analyzed. This note provides a rough estimate of the total annual amount of fluorine emission as well as emission ratio from steam coal combustion in China. Our results show that by combustion of 1 t of Permo-Carboniferous coal (containing roughly 100 g fluorine), high-temperature power stations emit roughly 90 g fluorine into the atmosphere. The fluorine emission ratio of coal combustion in high-temperature power stations is about 96% and that in mid-low temperature power stations is about 78%. A total of 800 million tons of coal is burnt in China every year, and the coal comes mainly from Permo-Carboniferous deposite in the North China Plate and Northwest China coal mines. Taking the average f
To study the amount of fluorine emission from the combustion of the steam coal (mainly Permo-Carbonif-erous coal) from the North China Plate and Northwest China, the content of the coal, the fly ash and the cinder in high-temperature power This note provides a rough estimate of the total annual amount of fluorine emission as well as emission as from steam coal combustion in China. Our results show that by combustion of 1 t of The fluorine emission ratio of coal combustion in high-temperature power stations is about 96% and that in mid-low temperature (containing roughly 100 g fluorine), high-temperature power stations emit roughly 90 g fluorine into the atmosphere. A total of 800 million tons of coal is burnt in China every year, and the coal comes mainly from Permo-Carboniferous deposite in the North China Plate and Northwest China coal mines. T aking the average f