Effect of inlet mass loading, water and total bacteria count on methanol elimination using upward flow and downward flow biofilters

An upward ¯ow bio®lter and a downward ¯ow bio®lter using compost for removing methanol from air were investigated to compare the bio®lter performance and to realize the advantages of using downward ¯ow bio®lters for accessibility to water make-up. Both the upward ¯ow and downward ¯ow columns showed similar performance in terms of elimination capacity (EC) versus inlet mass loading (IC). The maximum elimination capacity (EC) from these two bio®lters was approximately 101 g m À3 h À1 with an optimum methanol loading rate at inlet (IC) of 169 g m À3 h À1 (7.5 g m À3 of methanol with super®cial velocity of 7.6 m h À1 ). The effect of water movement within the bed on elimination capacity was monitored. In addition, it was found that when the water content in the compost was below 35% by weight, microbial activity was impaired. Once the compost media had dried, it became hydrophobic and could be rewetted only with great dif®culty. Total bacteria count was performed on compost samples during the entire operation. The relationship between elimination capacity and total bacteria count was reported. Similar trends were shown by the variations of elimination capacity and total bacteria count with methanol loading: both initially increase, go through a plateau, then decrease with loading.