▎ 摘　　要

NOVELTY - The method involves installing (S1) the condenser on the configured position through the bolt and a mounting seat after assembling the condenser. One end of the heat exchange tube is connected (S2) to the conveying pump of the heat exchange liquid and one end of the inner tube is connected with the circulating pump of the auxiliary heat exchange circulating medium. The heat exchange liquid is transferred (S3) into the fluid channel between the heat exchange tube and the inner tube. The heat exchange liquid is exchanged from the inside in the fluid channel through the inner tube and the auxiliary heat exchange circulating medium in the inner heat exchange channel. Heat exchange is performed from the outside through the heat exchange tube and the fins, and the heat dissipation and heat exchange are assisted by the graphene heat conducting layer. USE - Application method of integrated efficient heat exchange condenser using finned tube as unit for transferring partial heat of hot fluid to cold fluid. Uses include but are not limited to chemical industry, petroleum, power and food. ADVANTAGE - The fin and the heat exchange tube are integrally formed structure, so as to greatly reduce the thermal resistance. The loss of energy is reduced, and the effect of fast and efficient heat exchange is reached. The heat exchange tubes are equidistantly installed on the inner side of the main frame, and are connected by connecting pipe S-shaped, and the inner tube is also connected through the connecting pipe. The flow channel is formed through the outer surface of the inner pipe of the guide sheet , and a guide sheet is spirally installed on an inner surface of an inner pipe, so that the heat liquid can fully pass through a heat exchange in the fluid channel. DESCRIPTION OF DRAWING(S) - The drawing shows a flow diagram illustrating the application method of integrated efficient heat exchange condenser using finned tube as unit. (Drawing includes non-English language text) Step for installing the condenser on the configured position through the bolt and a mounting seat after assembling the condenser (S1) Step for connecting end of the heat exchange tube to the conveying pump of the heat exchange liquid and connecting one end of the inner tube with the circulating pump of the auxiliary heat exchange circulating medium (S2) Step for transferring heat exchange liquid is transferred (S3) into the fluid channel between the heat exchange tube and the inner tube (S3)