RU2198352C2 - Boiler - Google Patents

Abstract

FIELD: heating water; heat-power engineering. SUBSTANCE: boiler includes furnace, fire tube, smoke tubes and water heating chamber around them. Smoke tubes are extended downward to furnace coaxially relative to them; they are tightly closed at outer side with cavity filled with heat-transfer agent and made in form of thermal tube. EFFECT: enhanced economical efficiency and reliability. 1 dwg

Description

 The invention relates to a power system, can be used both in the design of new boilers, and in the reconstruction of some types of old.

 Known boilers (water heaters) of the AGV type have low gas efficiency associated with an insufficiently large surface of radiant heat transfer and a small volume of the furnace space.

For example, AOGV-type water heaters operate with heat voltages in excess of 1.2 MW / m ³ , which, when working without pressurization, significantly interferes with gas combustion without chemical burning. The small surface of radiant heat exchange does not allow raising the boiler efficiency above 87% even with turbulence of flue gases in smoke tubes.

 The aim of this invention is to remedy these disadvantages.

 This goal is achieved if in a boiler containing a firebox with a flame tube, with vertical smoke tubes located above it, the smoke tubes extend downward into the furnace, with an increase in the volume of the latter and coaxial smoke tubes, a hermetically sealed annular cavity with a water section is installed on their outer side filler, which is a heat pipe operating in the gravitational mode (thermosiphon).

 Such a solution allows: firstly, to significantly change the ratio of radiant and convective surfaces in favor of the first, and secondly, to increase the volume of the furnace and ensure complete combustion of fuel.

 The drawing schematically shows the operation of the boiler.

 It consists of a burner 1, located in the lower part of the furnace 2, bounded by a flame tube 3, in the upper horizontal end of which there are smoke tubes 4 connecting the lower part of the furnace 2 with the outlet gas duct 6 on one side, crossing the heating chamber 9, pipelines 5, covering smoke tubes 4, with the formation of closed cavities 10, partially filled with water and which are heat pipes, inlet 7 and outlet 8 of the boiler water pipe.

 The boiler operates according to the following scheme: gas, burning in the furnace 2 by means of the burner 1, gives off radiant heat to the boiler water through the heat pipe 3 and heat pipes 10, through the intermediate heat carrier located in them, then the flue gases enter the smoke pipes 4, passing through which , they give part of their heat (mainly by convection) to the boiler water through the intermediate coolant of the heat pipes 10 and directly to the boiler water in the upper zone of the heating chamber 9 and leave the boiler.

 This solution allows you to increase the efficiency and reliability of the boiler and ensure environmentally acceptable emissions of flue gases. The efficiency of such boilers, depending on the version, can reach from 92 to 95%, and the use of reliable heat pipes as the main surface of the radiant heat exchange significantly increases the reliability of the boilers as a whole.

Claims (1)

 A boiler containing a firebox, a fire tube, smoke tubes vertically located above it, a heated water chamber around them, characterized in that the smoke tubes are extended down into the furnace and coaxially sealed from the outside with a cavity with an intermediate heat carrier inside it, which is a heat pipe .