Abstract:

A slime-forming bacterial strain N1 was isolated from Songhua River，which was identified as Micrococcus according to morphological observation，as well as identification of physiological and biochemical indexes. A dynamic simulation system with stainless steel tube heat exchanger was used to study the influences of the total number of bacteria change on the fouling resistance of the heat transfer surface at industrial working environment. On-line monitoring results showed that the total number of bacteria changes are positively related to the fouling resistance. The sticky mud on the tube wall was analyzed and proved containing 10⁷ cfu/mL of the micro-organisms. Elemental analysis indicated that the major ingredients of sticky mud are C，O，N and Cl similar to the essential composition of micro-organisms. Thus，the strain N1 was proved to have the characteristics of adhesion to heat transfer surface and forming the sticky mud，which is very significant for understanding the formation mechanism of microbial fouling，especially the changes at the start-up phase of fouling formation. These results may provide a basis for the design of heat transfer equipments with high-performance.