SU1574988A1 - Gas generator - Google Patents

Abstract

The invention relates to a power system and makes it possible to increase the efficiency of gasification. The implementation of the nozzle 2 for exhaust gas with perforation, the total area of the holes 11 of which is 3-63 times the total area of the holes of the air nozzles 5 of the grille 4, and the location of the axes of the nozzles 5 from the hydraulic fluid 9 at a distance of 1.2 ... 3, 5 of the diameter of the nozzles 5, leads to the involvement of water droplets in the gasification process and to increase the efficiency of methane formation. 3 il.

Description

The invention relates to power engineering and can be used in thermal power plants and in boiler houses using low-grade moisture and ash coals, industrial waste, mining screenings, hydro coal mixes, including water-coal slurries, etc. Fuel With a very low heat of combustion.

The aim of the invention is to increase the efficiency of gasification. j FIG. shows a gas generator, a longitudinal section (option 1); faa FIG. 2 - node T in FIG. 1; Fig, 3 - gas generator, a longitudinal section (option 2).

H oz ° chororator contains a vertical housing 1 with a nozzle 2 a container outlet, the inlet end 3 of which is led inside the upper part of the housing 1 along its axis, and a failed air distribution grill 4 equipped with air nozzles 5 and dividing the housing 1 into the reaction chamber 6 with the boiling boiler layer 7, and the chamber 8 of the hydraulic discharge from the hydraulic layer 9. The input end 3 of the nozzle 2 is plugged with a plug 10 and perforated with holes 11j, the total area of which is more than the total area of the holes of the air nozzles 5, whose axes are located above the level of the hydro nozzles 9 of the chamber 8 at a distance (H) equal to 1.2 - 3.5 diameters (d) of the air nozzles 5, the reaction chamber 6 is equipped with a nozzle 12 for fuel input, and the hydraulic ash handler 8 with a nozzle 13 with a regulator 14 for output ash ,. The casing 2 is connected to the furnace 15 of the boiler, equipped with channels 16 for air supply and burners 17.

The gas generator works as follows.

Fuel through pipe 12 and air through nozzles 5 is introduced into the preheated reaction chamber 6 of the gas generator. Under air pressure, particles of fuel with sizes up to 6-13 mm are in a suspended state, forming a burning layer

five

0 5 Q ,,.

d

five

7 boils. The axis level of the nozzles 5 above the water layer 9 in the chamber 8 is N. Over the layer 7 there are holes 11 of the branch pipe 2 of the gasification products, which are formed when there is a lack of oxygen. The resulting products are diverted through pipe 2 into the furnace 15, where secondary air is supplied through channels 16. As a result of the physicochemical interaction of air and gasification products, a flare is formed, the heat of which sustains the combustion of the main stream of fuel introduced together with air through the 17C burners. with a total area of 3–63 times the total area of the orifices of the nozzles 5 and the location of the nozzles 5 at a distance of 1.2–3.5 of the water layer level, involves the water drop from the 9 j layer in the gasification process, raising m methane formation efficiency, which increases the combustion heat of gasification products. Gasification products, combustion in the furnace 15, increase the efficiency of combustion of the main fuel.

Claims (1)

Invention Formula The gas generator, containing a vertical case with a gas outlet pipe, the inlet end of which is led inside the upper part of the case, and the outlet is connected to the boiler furnace, and a failed air distribution grill equipped with air nozzles and separating the case on the reaction chamber of the fluidized bed and the hydraulic ash removing system, that, in order to increase the efficiency of gasification, the inlet end of the gas outlet is plugged, wound inside the body along its axis and perforated, with the total area of the holes perforation minutes at 3-63 times larger than the total opening area of air nozzles, the axes of which are located above the spillway of hydraulic ash chamber at a distance equal to 1.2 - 3.5 diameter of the air nozzles. FIG. 2 Basic mon / i and up Auxiliary / lo / 7 / juffo Water