RU86592U1 - WATER TREATMENT PLANT ON GASIFIED WOOD WASTE - Google Patents

Abstract

A gas heating wood waste water boiler installation comprising a hot water boiler on a sleigh, consisting of a metal water jacket with water inlet and outlet pipes, surrounded by thermal insulation and a metal cover, inside of which there is a metal combustion chamber with cleaning hatches and an upper metal gas outlet pipe with a refractory heat insulation, Pinch-type gas generator of the direct process of thermochemical gasification of ground wood waste on a sleigh, consisting of metal a fuel tank, a metal gasification chamber and an ash pan with refractory thermal insulation, a metal combustion pipe connected to the combustion chamber of the hot water boiler and a metal air pipe and fireproof heat insulation, characterized in that the hot water boiler is equipped with heat exchangers sealed on top of the combustion chamber with a water jacket in the form of separate sections with connecting flanges and asbestos gaskets extending from the water jacket combustion measures, from heat exchangers and a sealing cover with water-supplying rubber hoses in a metal braid, around the gas generator bunker by a heat-exchange gas duct with refractory heat insulation and a metal cover, in the lower part around the bunker at the junction with the narrowing cone of the metal separation partition between the gas duct and the gasification chamber extending from the lower part the gas duct with a metal gas inlet pipe to which a gas outlet pipe of the boiler is connected, extending from the upper part of

Description

The utility model relates to the field of power engineering using renewable energy sources as fuel, in particular, wood waste for burning in water-heating plants as applied to wood processing enterprises, forestry, individual residential construction, etc.

It is known [1, 2] a device for a water-heating installation on gasified wood wastes of the Russian company Impet CJSC, containing a hot-water boiler on a sleigh, consisting of a metal water jacket with pipes for supplying and discharging water, surrounded by thermal insulation and a metal cover inside which the chamber is located combustion with hatches for cleaning and an upper gas outlet pipe with refractory thermal insulation, a Pinch-type gas generator of the direct process of thermochemical gasification of ground wood waste at sled, consisting of a metal fuel hopper, a gasification chamber and an ashpit with refractory insulation, extending from the gasification chamber of the gas generator and connected to the combustion chamber of the hot water boiler of a metal combustion pipe with an air exhaust pipe and fireproof thermal insulation.

The disadvantages of the known device are:

1. Difficulties in transporting a conventional hot water boiler due to solidity and massiveness;

2. In an emergency during a water leak, the internal parts of the boiler are difficult to access and require additional cutting;

3. The non-use of waste heat with flue gases of the boiler for preliminary drying and pyrolysis of solid carbon-containing fuel in a gas generator.

The technical result of the utility model consists in the efficient use of waste heat with flue gas from a boiler for preliminary drying and pyrolysis of solid carbon-containing fuel in a Pinch-type gas generator of the direct process of thermochemical gasification and in facilitating the transportation, repair and cleaning of the device.

To achieve the specified technical result, the device comprises a hot water boiler on a support sled, consisting of a metal water jacket with pipes for supplying and discharging water, surrounded by a thermal insulation and a metal cover, inside of which there is a metal combustion chamber with hatches for cleaning and an upper metal gas outlet pipe with refractory thermal insulation , Pinch-type gas generator of the direct process of thermochemical gasification of ground wood waste on a sleigh consisting of metal Cesky fuel hopper, metal ash gasification chamber and a refractory thermal insulation, with extending from the gasification chamber and the combustion chamber connected to the boiler with a metal pipe vozduhotyagovoy combustion pipe and a refractory thermal insulation.

The device also contains heat exchangers with a water shell that are hermetically connected and mounted on top of the combustion chamber of the boiler in the form of separate sections with connecting flanges and asbestos gaskets, outgoing from the water shell of the combustion chamber, from the heat exchangers and the sealing cover, water-supplying rubber hoses in a metal braid around the gas generator hopper heat exchange gas duct with refractory thermal insulation and a metal cover, in the lower part around the hopper at the junction with the narrowing cone metal dividing wall between the gas duct and the gasification chamber, a metal gas inlet branch extending from the bottom of the gas duct, to which a gas boiler outlet gas branch is connected, a metal gas outlet branch out from the upper part of the gas duct, a smoke exhaust pipe with metal tubular condensate outlet down and finned support pillar on a concrete pad.

Fig. 1 schematically shows the design of a water-heating installation on gasified wood waste.

A device for a gasified wood waste water heating installation includes a hot water boiler on the support sleigh 16, a Pinch-type gas generator of a direct process for thermochemical gasification of ground wood waste on the support sleigh 9, a metal combustion pipe 6 connected to the combustion chamber of the gas generator 55 and connected to the combustion chamber 12 of the hot water boiler, connected to the upper gas outlet pipe 60 of the gas generator is a metal water cooler 42, a chimney 43 with a visor 44 and with pipes extending down chatym condensate trap 46 and ribbed support post 48 on the concrete pad 49.

The hot water boiler includes a water jacket 25 with nozzles for supplying 18 and draining 34 water, surrounded by thermal insulation 13 and a metal cover 23, inside which there is a combustion chamber 12, hermetically attached and mounted on top of the combustion chamber 12, heat exchangers 1, 22, 31 as separate sections with connecting flanges and asbestos gaskets extending from the water shell 25 of the combustion chamber 12, heat exchangers 1, 22, 31 and the sealing cover 30, water-supplying flexible hoses 2, 21, 24, 26, gas leaving the upper heat exchanger 30 outlet pipe 35 with refractory thermal insulation 5.

The gas generator connected to the hot water boiler includes a metal fuel hopper 59, a gasification chamber 55, an ash pan 8, a grate 7, provided around the hopper 59 with a heat exchange duct 58 with refractory heat insulation 38 and a metal cover 37 located in the lower part around the hopper 59 at the junction with with a narrowing cone, a dividing metal partition 57 between the gas duct 58 and the gasification chamber 55, the gas inlet 36 extending from the bottom of the gas duct 58, to which the water outlet gas 35 is connected Raynaud boiler, extending from the top of the flue 58 gas exhaust pipe 60.

The device operates as follows. The sealing cover 39 of the manhole 40, the door 52 of the ash pan 8, the door 53 of the gasification chamber 55, the valve 27 of the pipe 28, the valve 17 of the pipe 18, the valve 33 of the pipe 34 are opened. The valve 14 of the pipe 15, the valve 47 of the condensate collector 46, the hatches 4 are in the closed position. 19, 32 and air draft tube 11 with cover 10.

In the bunker 59 through the hatch 40, chopped wood waste 54 is automatically or manually loaded into almost its entire volume. The hatch 40 is closed by a sealing cover 39. Before pouring water into the hot water installation, the temperature of the working room should be more than 0 ° C in order to avoid freezing of the water shell 25 and deformation of the installation units. When the water-heating system operates on an aqueous solution of antifreeze with a known concentration, a certain minus temperature in the working room is allowed. In this case, an aqueous solution of antifreeze is supplied through the pipe 45 to the water cooler 42. From the nozzle 41, the water solution of the antifreeze through the connected metal pipe enters the nozzle 18, the water jacket 25, the connecting flexible hoses 2, 21, 24, 26. As the water jacket 25 is filled with the water solution of the antifreeze, the remaining air leaves the nozzle 28. Then the valve 27 of the pipe 28 is closed. Next, an aqueous solution of antifreeze from the pipe 34 through a metal pipe enters the metal heating radiators of the working room, for example, a wood processing enterprise. The return exit of the aqueous solution of antifreeze from the radiators is connected by a metal pipe to the pipe 45 of the water cooler 42.

The gas generator is ignited through the hatch of the gasification chamber 55 with the door 53 open, similar to a conventional furnace. After ignition, door 53 closes. By a certain opening of the door 52 of the ashpit 8 and the cover with a screw handle 10 of the pipe 11, the natural traction supply of atmospheric air through the grate 7 to the gasification chamber 55 and the combustion pipe 6. is regulated through the hatch of ashpit 8 with the door 52 open and through the grate 7 to the gasification chamber 55, primary air is supplied for incomplete combustion of the wood waste 54 and the formation of combustible generator gas from them with an admixture of tar vapor (pyrolysis products). Secondary air is supplied through the pipe 11 to the combustion pipe 6 for almost completely burning out the generated generator gas with an admixture of tar vapor in the combustion chamber 12 of the boiler in the form of a torch (with a temperature of 1000 ° C to 1500 ° C). From the combustion chamber 12, heated gaseous products of combustion (mainly a mixture of carbon dioxide, water vapor and air nitrogen) under the action of the created effective natural draft pass through the through hole 20, heat exchanger 22, through hole 3, heat exchanger 1, through hole 29, heat exchanger 31 and through the nozzles 35, 36 enter the gas duct 58 of the gas generator with a temperature of 150 ÷ 300 ° C. When passing gaseous products through a metal combustion chamber 12, heat exchangers 22, 1, 31, heat transfer through their walls to the water shell occurs, and therefore it is heated to 50 ÷ 90 ° C. To improve the circulation of an aqueous solution of antifreeze to the radiator and back to the water heating system, it is recommended to install a water electric pump on the installation's pipeline system. In the flue 58, the residual heat transfer from the gaseous products of combustion through the metal walls of the hopper 59 to the solid ground fuel - wood waste 54 occurs. In this case, the fuel is pre-dried in the upper part of the hopper 59 with an initial relative humidity w = 25-50%. At the end of the narrowing 56 of hopper 59, the wood waste is pyrolyzed at a temperature of 300 ÷ 500 ° C with the formation of charcoal, generator gas, tar and water vapor.

In the gasification chamber 55, incomplete combustion or gasification of the formed charcoal and resin vapors occurs at a temperature of 700 ÷ 1200 ° C. The partition 57 separates the gas duct 58 from the gasification chamber, which prevents negative mixing of the resulting combustion products and generator gas, as well as the output of the generator gas outside the gas generator through the pipe 60.

From the gas duct 58 through the pipe 60, the combustion products at a temperature of 100 ÷ 200 ° C enter the water cooler 42, where the remaining resin pairs and part of the water vapor condense into the liquid phase and flow into the condensate collector 46. Gaseous products exit the water cooler 42 through the chimney 43 in atmosphere. The height and diameter of the pipe 43 are calculated and selected taking into account the creation of an effective draft of atmospheric air into the gasification chamber 55 and the combustion pipe 6. To protect from rain, snow and dust, a metal visor 44 is installed at the end of the chimney pipe 43. The chimney pipe 43 is connected to the water pipe on the flanges the refrigerator 42 and the condensate collector 46. The condensate collector 46 is mounted on top of the ribbed rack 48 and attached to it on the flanges. The rack 48 is installed and secured by means of metal bolts to the concrete cushion 49. The rack 48 and the condensate collector 46 are isolated from each other inside a metal partition. As accumulation of liquid condensate 50 from the condensate collector 46 with an open valve 47 flows into the metal receiver 51.

After the operation of the water heating system, ash, which is a good mineral fertilizer for biomass growing on the ground, is removed from ash pan 8 and the door 52 is closed. The valve 14 is opened and the accumulated liquid condensate 50 flows from the combustion chamber 12 through the pipe 15 to the receiver 51, heat exchangers 12, 22, 1, 31. If necessary, a stack of an aqueous solution of antifreeze is produced from the hot water boiler through the pipe 18 with the tap 27 of the pipe 28 open and from the water cooler 42 through the pipe 45 into a special metal container. To clean the boiler from accumulated soot and ash, metal sealing covers are opened with asbestos gaskets for hatches 4, 19, 32. For complete cleaning, much easier repair, and transportation, the boiler is dismantled along separate units of the combustion chamber 12, heat exchangers 1, 12, 22, 31 sealing cap 30.

Literature:

1. Heating / Ed. Ph.D. I.G. Staroverova, engineer. Yu.I. Schiller. M .: publishing house "Stroyizdat", part 1, 1990. - 344 p.

2. RF patent No. 2147601, date of publication. 04/20/2000

Claims (1)

A gas heating wood waste water boiler installation comprising a hot water boiler on a sleigh, consisting of a metal water jacket with water inlet and outlet pipes, surrounded by thermal insulation and a metal cover, inside of which there is a metal combustion chamber with cleaning hatches and an upper metal gas outlet pipe with a refractory heat insulation, Pinch-type gas generator of the direct process of thermochemical gasification of ground wood waste on a sleigh, consisting of metal a fuel tank, a metal gasification chamber and an ash pan with refractory thermal insulation, a metal combustion pipe connected to the combustion chamber of the hot water boiler and a metal air pipe and fireproof heat insulation, characterized in that the hot water boiler is equipped with heat exchangers sealed on top of the combustion chamber with a water jacket in the form of separate sections with connecting flanges and asbestos gaskets extending from the water jacket combustion measures, from heat exchangers and a sealing cover with water-supplying rubber hoses in a metal braid, around the gas generator bunker by a heat-exchange gas duct with refractory heat insulation and a metal cover, in the lower part around the bunker at the junction with the narrowing cone of the metal separation partition between the gas duct and the gasification chamber extending from the lower part the gas duct with a metal gas inlet pipe to which a gas outlet pipe of the boiler is connected, extending from the upper part of zohoda gas exhaust pipe, to which are attached metal water condenser, with the exhaust pipe fume collection down metal tubular condensate trap and ribbed support column on a concrete pad.