RU2018127110A - The method of operation of a solid fuel boiler - Google Patents

Claims (3)

1. The method of operation of a solid fuel boiler, comprising periodically loading solid fuel into an installed volume of a solid fuel boiler, which is adapted for incomplete combustion of solid fuel, with the formation of pyrolysis gas, air supply to an installed volume of a solid fuel boiler, which is adapted for incomplete combustion of solid fuel, ignition of a solid fuel boiler by igniting a loaded solid fuel, on its surface, in an installed volume of t a water-fuel boiler, which is adapted for incomplete combustion of solid fuel, further supply of pyrolysis gas, from top to bottom, to the installed volume of the solid fuel boiler, which is adapted to burn pyrolysis gas, and an additional air supply to the installed volume of the solid fuel boiler, which is adapted to burn pyrolysis gas, burning pyrolysis gas, heating water with heated substances formed during the combustion of pyrolysis gas using a heat exchange device the construction and subsequent removal of gaseous products of pyrolysis gas combustion from the solid fuel boiler, into the chimney hole, as well as the removal of ash formed after burning solid fuel from the solid fuel boiler, characterized in that they increase the length of the period between loading solid fuel into the installed the volume of the solid fuel boiler, which is adapted for incomplete combustion of solid fuel with the formation of pyrolysis gas, in the heating season, increasing sous or volume of one and the same solid fuel, which is loaded into the solid fuel boiler, when it is fully loaded, without increasing, at the same time, the capacity of the solid fuel boiler, using air channels of the solid fuel boiler, and gas channels of the solid fuel boiler , in the installed volume of the solid fuel boiler adapted for incomplete combustion of solid fuel with the formation of pyrolysis gas, and in the installed volume of the solid fuel boiler which is adapted for incomplete combustion of solid fuel, serves air through at least one primary air hole in the solid fuel boiler, and through the air channels of the solid fuel boiler, from bottom to top, where the air channels of the solid fuel boiler are provided with such a structure, so that they are partially or completely open in length, from the side of the solid fuel, and ensure the passage of air to the upper surface of the solid fuel, or in the volume firmly about the fuel, located close to the upper surface of solid fuel, during its combustion, and a decrease in the height of solid fuel, relative to the height of solid fuel, at its initial loading, and while the air passages of the solid fuel boiler are not blocked by solid fuel, or ash, when solid fuel is burned , provide for incomplete combustion of solid fuel, on the upper surface of solid fuel, or in the volume of solid fuel located close to the upper surface of solid fuel, with the formation of pyrolysis gas, after which the pyrolysis gas is supplied to the installed volume of the solid fuel boiler, which is adapted to burn pyrolysis gas, through at least one gas hole, in the solid fuel boiler, and also through the gas channels of the solid fuel boiler, from top to bottom, where the gas channels of the solid fuel boiler provide such a design that they are partially or completely open in length, from the side of the solid fuel, and allow passage of pyrolysis gas from the surface of the solid fuel, or from the volume of solid fuel located close to the upper surface of the solid fuel, during its combustion, and reducing the height of the solid fuel, relative to the height of the solid fuel, at its initial loading, and, at the same time, to the gas channels of the solid fuel hot water the boilers were not blocked by solid fuel, or ash, during the combustion of solid fuel. 2. The method according to p. 1, characterized in that they reduce the effect of burning solid fuel on the inner surface of the installed volume of the solid fuel boiler, which is adapted for incomplete combustion of solid fuel using protective metal plates. 3. The method according to p. 1, characterized in that they reduce the effect of gusts of wind on the combustion of pyrolysis gas, in an installed volume of a solid fuel boiler, which is adapted to burn pyrolysis gas, when the pyrolysis gas moves naturally, using parts of a bell-shaped heat exchanger device, which are filled with water, and at the same time, the lowest located gas hole through which pyrolysis gas is supplied is located in the solid fuel boiler above the highest air th hole through which air is supplied for incomplete combustion of solid fuel.