SU1765625A1 - Recuperative burner - Google Patents

Description

The block contains an air channel consisting of an outer conical shell 1 and a conical perforated partition 2 forming an annular gap 3, and a gas channel consisting of a heat transfer cylinder 4 and a perforated truncated cone located inside it 5. Between the heat transfer cylinder and the perforated partition An annular gap 6 is formed in the air duct. An inlet 7 is provided for supplying cold air to the heat exchanger, to discharge heated air from the heat exchanger and supply it to the burner 8 in order to provide ren outlet 9. The inner perforated cone ny fixed guide plates 10.

The recuperative burner unit operates as follows.

Combustion products enter the central gas channel in the perforated cone 9, flow through the perforation onto the heat-transfer cylinder 4 and, having given off their heat, smoke goes to the system, cool air flows through the inlet nozzle 7 into the annular the gap 3 and through the perforation of the jet flows on the heat-transfer cylinder 4, hitting the hot surface, the air is heated to the required temperature and from the annular gap 6 through the outlet 9 is fed into the burner 8.

Studies of the thermal parameters of the proposed design of the regenerative-burner unit and the design of the prototype were conducted. The research results are summarized in the table.

It can be seen from the table above that the heat transfer coefficient from the side of combustion products when organizing jet leakage onto the heat exchange surface by introducing a perforated cone into the gas channel increases 3.7 times with all other conditions being equal. The heat transfer coefficient of the structure increases about 1.8 times. Accordingly, the metal intensity is reduced by the same amount, i.e. To manufacture the proposed design with a heating capacity equal to that of the prototype, it will require 1.8 times less metal.

Thus, in the proposed design of the recuperative-burner unit, the efficiency of heat exchange due to jet leakage to the heat exchange surface of not only heated air but also combustion products is increased, the consumption of heat-resistant steel and the amount of heat loss to the environment are reduced, and the design reliability is improved due to products of combustion through the internal channel and lowering the temperature of the outer surface of the heat exchanger. The stabilization of the hydraulic mode of the structure is achieved by making the air and gas channel in the form of truncated cones.

Claims (1)

Claims The recuperative burner unit comprising a burner and a recuperator consisting of shells forming gas and air channels with a perforated partition in the last perforated wall, characterized in that, in order to increase efficiency by intensifying heat exchange from the side of combustion products and stabilizing the hydraulic regime, the outer shell forming the air channel is made in the form of a truncated cone, and in the axial gas channel an additional perforated partition is installed, The mentioned partitions are made in the form of truncated cones. Thermotechnical parameters of the design of the prototype and the present invention linear l - wr-5-lee Vida L S. -Y - Y3. 1