TH37838B - Solid fuel burners and combustion methods using solid fuel burners. - Google Patents

Abstract

DC60 (30/10/44) follows the burner style of this invention. Stable combustion is achieved in a wide range of conditions. high load operation to low load working condition Even in the case of low quality solid fuels such as brown coal. The amount of air delivered from additional air holes or additional air nozzles 12 can be adjusted according to the furnace combustion load 41. At low loads, the amount of air delivered from additional air holes or additional air nozzles 12 will be adjusted. Added, where the oxygen concentration in the recirculating zone 19 created on the outside of the fuel injector outlet 11 will stabilize combustion. At high loads, the amount of air being supplied from the additional air holes or additional air nozzles 12 is reduced. The flame is generated in a position away from the fuel injector 11, which prevents heat radiation. On solid fuel burners 42 and furnace walls 41, solid fuel burners 42 are applicable for combustion with low quality solid fuels. like brown coal and the gas is released as gas, following the burner pattern of this invention. Stable combustion is achieved in a wide range of conditions. high load operation to low load working condition Even in the case of low quality solid fuels such as brown coal. The amount of air delivered from additional air holes or additional air nozzles 12 can be adjusted according to the furnace combustion load 41. At low loads, the amount of air delivered from additional air holes or additional air nozzles 12 will be adjusted. Added, where the oxygen concentration in the recirculating zone 19 created on the outside of the fuel injector outlet 11 will stabilize combustion. At high loads, the amount of air being supplied from the additional air holes or additional air nozzles 12 is reduced. The flame is generated in a position away from the fuel injector 11, which prevents heat radiation. On the solid fuel burner 42 structure and furnace wall 41, the solid fuel burner 42 is applicable for combustion using low quality solid fuel. like brown coal and gas released as gas

Claims (3)

Disclaimers (all) which will not appear on any notice page: 1. Solid fuel burners include: Center air nozzles for air injection; The fuel injectors were provided outside. Central air nozzle and fluid mixture inject Containing solid fuel and gas; An additional air hole or an additional air nozzle is injected there and is completely surrounded by the skin. The inner wall of the fuel injector and air injection Where additional air holes or additional air nozzles rub Positioned so that the air nozzle exit is parallel to the inner skin of the fuel injector. And where the oxygen concentration of the air nozzles is parallel and close to the inner skin of the injectors Adjustable fire in order to produce a stable flame at the required load. One or more outer air injectors were provided with an outer fuel injector and a injection. Combustion air; And numerous flame stabilization rings for obstructions to both gas flow From the fuel injectors and the air being torn from the air nozzles provided at the end of the partition wall between the nozzles. Fuel injection and air nozzle outside Where the burner has a burner inlet. 2. The solid fuel burner according to claim 1 is the type that the nozzle exit of any leather or both of the aforementioned center air nozzles and such additional air holes. Or additional air nozzles 3. The solid fuel burner according to claim 1 is the type in which the heated air and / or pressure is sent to additional air holes or air nozzles. Additional 4. Solid fuel burner according to claim 1 is a type of condenser that consists of A cone with a gradual increase in cross-section and a cone with a gradual decrease in cross-section. Starting from the side The inlet of the burner is provided on the outer wall surface of the central air nozzles. 5. The solid fuel burner according to claim 1 is the type that the reduction part for Temporary reduction in front of the cut-off of the fuel injector passage starting from the inside of the burner and For extending that cross-section to the initial size Will be provided on the inner wall of the fire nozzles. 6. The solid fuel burner according to claim 1 is the type in which the rotator will be provided inside the head. Center air injection 7. Solid fuel burner according to claim 1 is the type in which the rotator will be provided inside the head. Inject air outside. 8. Solid fuel burner according to claim 1 is the leading part for the direction. Of outer air injection Will be provided in the outlet of the air nozzle outside 9. Solid fuel burner type according to claim 1 is the leading part for air conditioning. Outside from the outside air nozzle Is injected at an angle of 45 degrees or less relative to the center axis. The center of the burner is provided in the outlet of the outer air nozzles 1 0. The solid fuel type burner according to claim 1 is the type on the flame retardant ring. A stabilizer with a shark-tooth protrusion directed towards the fuel injector outlet is provided 1 1. The fuel type burner according to claim 1 is the one at the cross-section of the pass-through side. out The center air nozzles are smaller than the cross-section of the inlet through the center air nozzles. 1. 2. The fuel type burner according to claim 11 is the position of the internal crankcase. Center air nozzles move in the direction of the center of the burner within the center air nozzles 1 3. The fuel type burner according to claim 1 is the one on the rotary for adjustment. The rotational intensity of the air flow depends on the combustion load. It will be provided inside the central air nozzle. 1 4. Method of combustion where the fuel type burner is used according to claim 1, the combustion method will be used. Rotating air injection can be selected according to the combustion load from a group consisting of air injection where the air flow from the center air nozzle is injected in a straight or lightly rotated beam and air injection. The air flow from the central air nozzles is injected into a rotating beam. 1 5. The method of combustion with the use of a fuel-type burner according to claim 1 is the place where Low burning load The rotated body is injected from the central air injection. At high combustion loads, a straight or lightly rotated beam is injected with central air 1 6. The combustion method with the use of a solid fuel burner according to claim 1 is The ratio between the amount of air being injected from the central air nozzles. And the amount of air That is injected from additional air holes Or additional air nozzles It is adjusted according to the combustion load 1 7. The method of combustion where the fuel type burner is used in accordance with claim 1 is the one that Low burning load The amount of air injected from the central air nozzle is reduced and at the same time the intensity of the amount of air injected from the additional air holes. Or add air nozzles Fill will be added While having a high combustion load The amount of air that is injected from the center air nozzle. Middle will be added And at the same time Use of the amount of air injected from the additional air holes 1 8. The method of combustion with the use of the same type of fuel burner according to claim 1 is the one that the combustion is created by adjusting the amount of fuel. Air to provide the ratio of the total volume of The air is delivered by the fuel injector. Concentric air nozzle And additional air holes or air nozzles The fuel is maintained at 0.85-0.95 for the amount of air required for the complete combustion of the volatile fuel to be maintained at 0.85-0.95 1 9. The combustion apparatus is utilized as a gas emission for the full fuel. Used In fuel-type burners according to claim 1, they consist of a furnace with a burnt skin. Combined with several fuel-type burners, the 2nd 0. The combustion device according to claim 19 is the one that the unit will be built by. The fuel is based on claim 1 and is a unit where multiple units are arranged at an angle or in a wall surface. The opposite of the kiln To create one or more pairs of such units. 2 1. The combustion device in accordance with claim 19 is the one at the center air nozzle of the burner. It has a cylindrical shape. It is the one that pairs of air ducts for air delivery are Connected to the inlet part of the center air nozzle And is the one that the pair of air ducts are connected to Air is brought in in each of the opposite directions on the cross-sectional circle of the central air nozzles 2. 2. The method for the operation of the combustion apparatus according to claim 19 is the loading system. High burning Of combustion equipment The amount of air injected from the center air nozzle is added at the same time. The use of the amount of air injected from an additional air hole or nozzle. Additional air is reduced by the strong flame of the fuel. Will be created starting from a distance From fuel-type burners While low combustion load of the combustion apparatus The amount of air injected from the nozzle The central air injection is reduced. And at the same time use of the amount of air injected from the hole Additional air Or additional air nozzles will be increased Where the full flame of the fuel will be generated It starts from the outside of the fuel injector outlet of the fuel type burner 2 3. Method for the operation of the combustion apparatus according to claim 19 is a thermometer or a gas intensity meter. Radiation is provided in either solid fuel burners or on the surface. The furnace wall near the full-fuel burner Where the amount and rotation intensity of the injected air From the central air nozzles of the full fuel type burner Or in another way The amount of air that Is injected from additional air holes or additional air nozzles. Will be adjusted in response to the signal from These meters 2 4. How they work for the combustion apparatus according to claim 19 are those at high loads. Of combustion equipment The combustion is generated at a position exiting from the fuel injector outlet of 0.5 m or more on the fuel injector center of the furnace. Where at low loads of the combustion apparatus The full flame of the fuel was started. Near the surface of the furnace wall outside the fuel injector outlet inside the furnace 2 5. The method of operation for the combustion apparatus according to claim 19 is the one that is loaded. The height of the combustion device The flame will be detected in the center of the furnace at the burner flame. The different fuel types are combined by means of a flame detector or by visual inspection at low loads of the combustion apparatus. A specific flame was created near the exit of the 2 6. Method of operation for the combustion apparatus according to claim 21 is the one where the high loads of the combustion apparatus and the air ducts. It delivers the same volume of air to the central air nozzles while at low loads the combustion device. Each air duct will deliver different quantities. Block of air to the center air nozzles, whereby the rotating concentration of the center air flow The medium is adjusted according to the load, high or low. 2 7. A stone-fired boiler consists of a furnace with a wall surface composed of several. Burn the fuel type according to claim 1 and the heat exchanger is provided inside the furnace. And for boiling water to generate steam by using the flame obtained by the burning of the full fuel inside the furnace. 2. 8. Coal fired boiler system. It consists of a coal-fired boiler in accordance with claim 27, a chimney to serve as a passage for the discharge from the steam boiler, cleaning equipment, a discharge gas provided inside the chimney. Smoke Pulverized coal conveying equipment For conveying coal in the form of crushed coal to the boiler burner Coal Transmission Adjustment Device Pulverizer for adjusting the amount of crushed coal transmitted from the pulverized coal conveying device to the burner, and the air delivery adjuster for adjusting the amount of air injected from the burner. 2. 9. The power generation system at the igniter. Coal consists of kilns with the wall surface being burnt. Consists of several fuel-type burners according to claim 1, boilers for boiling water for It generates steam by using the combustion heat obtained by burning the full fuel by the burner. The steam turbine is driven by the steam obtained by the boiler. And a power generator driven by a steam turbine 3 0. fuel type burner consisting of Fuel injectors for injection of fluid mixtures containing solid fuel and additional air spares or additional air nozzles are provided and are completely enclosed by a surface. The inner wall of the fuel injector and the air inject. Where additional air holes or additional air nozzles It is positioned so that the air nozzle outlet is parallel to the inner skin of the fuel injector. And where the oxygen concentration of the air nozzle is parallel and close to the inner skin of the injectors Adjustable fire in order to produce a stable flame at the required load. One or more outer air nozzles are provided on the outside wall surface of the fuel injector. It is also used to inject air and retract a large amount of flame stabilization as a barrier to both the gas flow. From the fuel injectors and the air injected from the air nozzles is provided at the end of the partition wall between the nozzles. Fuel injection and air nozzle outside The burners have the inlet and outlet of the burner. 3 1. The fuel type burner according to claim 30 is the one where the air that is heated and / or pressurized will be the same. Was sent to additional air holes. 3 2. The fuel type burner according to claim 30 is the one at the outlet. The additional air inlet or additional air nozzles will be positioned above the inlet. The nozzle of the nozzle exit. Fuel injector 3 3. Fuel type burner, according to claim 30, is a type of condenser consisting of Section with a small increment of cross-section And the section whose cross-section descends gradually in the direction from the entrance of the head Burning to the exit side, the burner is provided in the fuel injector. 3. 4. The fuel type burner, according to claim 30, is the one where the reduction element passes. For a temporary reduction in the face of the cut-off of the fuel injector passage in the direction from the burner inlet side to To the burner exit side And for extending the cross section to the initial size. Will be provided on the wall surface Inside of the fuel injector 3 5. The fuel type burner according to claim 30 is the one that the rotator is provided in the outside air nozzles. According to claim 30, it is the precedent for determining the direction. Of the outer air flow injected from the outer air nozzle Will be provided at the exit of the head Outside air injection 3. 7. Fuel type burner, according to claim 31, is the one that harks the flame. Stable has a shark tooth protrusion directed towards the surface of the fuel injector tip wall. 3. 8. The fuel type burner, according to claim 30, is the one that is emitted. It will be used as a carrier for strong fuel. And is the one at the outlet of the additional air holes Or add air nozzles The filling is positioned between the cones of the condenser with a gradual decrease in cross-section and resurface the flame stabilization. 3 9. Fuel type burner according to the handpiece. The 30th right is that the air delivery part for the hole. Additional air or additional air nozzles are connected to the air box for the combustion air to be delivered. To the outside air nozzles 4 0. The fuel type burner, according to claim 30, is the one at the air output section for the holes. Additional air Or additional air nozzles are connected to a designated combustion transmission device to Purpose of combustion air to the air delivery section 4 1. The fuel type burner according to claim 40 is the one that the combustion air transmission device is Will be connected to the path for the transmission of oxygen-rich gas Or pure oxygen. 4. 2. Burner type fuel, according to claim 40, is a device that adjusts the flow rate. The combustion gas is provided in the combustion air supply device 4 3. The method of combustion where the fuel type burner is used in accordance with claim 30 is the one that Low burning load The amount of air delivered from additional air holes or additional air nozzles is added at the same time. The amount of air being delivered from the chest air nozzles. Nearest With fuel injectors between various external air injectors Will be reduced, or on the other hand, the spin intensity will be increased. While at high combustion loads The amount of air delivered from additional air holes or additional air nozzles. Will be reduced and at the same time The amount of air delivered from the air nozzles The nearest outside With the fuel injectors between the various outer air injectors are added in one way or another 4. The combustion device consists of a furnace with a wall surface. Was composed of many types of burners Fuels according to claim 30 4 5. Combustion equipment consists of a furnace whose unit is built by a fuel-type burner. According to claim 30, many such units are aligned at an angle or in the side wall surface. Across of the kiln When building one or more pairs of 4 units 6. Coal fired boilers consist of a furnace with multiple wall surfaces. Burn the fuel type according to claim 30 and the heat exchanger is provided inside the furnace. And for boiling water to generate steam By using heat the combustion obtained by the combustion of the bacteria. Burning fires in the furnace 4 7. The combustion method with the use of the same type of fuel burner according to claim 30 is the one that Low burning load The amount of air delivered from additional air holes or additional air nozzles is added while the combustion load is high. The amount of air delivered from additional air holes or additional air nozzles is reduced. 4. 8. Methods of operation for the combustion apparatus according to claim 46 are those where the high combustion load of the combustion apparatus is high. Burn A single fuel flame is generated starting from a distance away from the full fuel burner. While the low combustion load of the combustion apparatus The flame of the fuel will be It is built starting near the surface of the furnace wall at the exit of the fuel injector outlet of the solid fuel type burner 4. 9. The method of operation for the combustion apparatus according to claim 48 is the thermometer or Radiation intensity gauges are available in either solid fuel burners or on the surface. The furnace wall of the solid fuel type burner Where is the amount of air injected from the additional air holes Or additional air nozzles that are provided in the fuel type burner are adjusted in response to the The signal from these meters 5 0. The method of working for the combustion apparatus according to claim 48 is the one that is loaded. The height of the combustion device The combustion is generated at the exit position of the fuel injector outlet as 0.5 m or more on the fuel injector center of the furnace. While at the low load of the combustion device The flame of the fuel will be burnt by Starting near the surface of the outer furnace wall, the fuel injector outlet inside the furnace 5. 1. The method of working for the combustion apparatus according to claim 48 is the one that is loaded. High combustion of the combustion apparatus The flame will be detected in the center of the furnace where the The fires of various fuel-type burners are combined either by means of a flame detector or by visual inspection at low combustion loads of the combustion apparatus. Flame only on the right part Built near the fuel injector outlet of each burner, the same type of fuel inside the furnace will be detected. 2. The method of working for the combustion apparatus according to claim 48 is the one that is loaded. Low combustion of combustion equipment The amount of air is adjusted so that the volume ratio. The total amount of air delivered by a fuel-type burner is equal to the amount of air needed for combustion. Complete combustion of volatile fuels in fuel is maintained at 0.85-0.95 5. 3. The coal-fired power generation system consists of The kiln with the furnace wall is composed of several fuel-type burners according to claim 30, a boiler to boil water to generate steam by using the combustion strength obtained by the combustion of the fuel. Like by such a burner, the steam turbine is driven by the steam produced by the boiler. And a power generator that is driven by a steam turbine