TH99879B - Machinery and methods for incineration - Google Patents

Abstract

This invention relates to a machine for incineration comprising Fluidized bed redox reaction reactor (2) with Reaction chamber (8) containing small dust particles and Fluidized bottom having at least one reducing agent inlet (9) for gas. To create a fluid condition for small dust particles.

Claims (9)

1. An incineration machine comprising a redox reaction reactor. Fluidized bed type (2) with -a reaction chamber (8) containing fine dust comprising metal oxide particles and -a fluidized bottom having at least one reducing agent inlet (9) for gas. To create a fluid condition for small dust particles. The ash incineration machinery also includes a fluidized bed combustion furnace (1) with -combustion chamber (3) containing fine dust comprising metal particles, -fluidized bottom section having at least one oxidizing agent inlet (4) for Gas containing oxygen to create a fluid condition for small dust particles and -An ignition device (5) that is designed to cause the temperature to rise at least locally. To cause an exothermic combustion reaction of metal particles with gas containing oxygen. which has specific characteristics that The incineration machinery also includes an electrolysis unit (13) for Production of hydrogen and oxygen gas with a hydrogen outlet (14) for hydrogen gas that cause and the outlet of oxygen (15) for oxygen produced at the outlet of Oxygen (15) is connected to the inlet of the oxidizing agent (4) of the fluidized bed combustion furnace (1), and the hydrogen outlet (14) is connected to the inlet of the Reduction(9) of reactor For a fluidized bed redox reaction (2) to allow gas containing hydrogen gas to create a fluid condition for Fine dust comprising metal oxide particles which in the resulting fluidized bed As a result, metal oxide particles react with hydrogen gas to produce metal particles and 2. The machine for incineration according to claim 1, - a combustion chamber (3) with a combustion chamber outlet (6) for gases from combustion and small dust, -combustion chamber (3) with combustion chamber inlet (7) for small dust, -reaction chamber (8) with reaction chamber inlet (10) for dust. Small and/or -reaction chamber (8) with reaction chamber outlet (11) for reaction gas and small dust particles which The outlet of the combustion chamber (6) is connected to the inlet of the reaction chamber (10) and/or wherein the outlet of the reaction chamber (11) is connected to the inlet of the combustion chamber (7). 3. The incineration machine according to one of the preceding claims, wherein the Small dust particles (12a,12b) The machine is connected to the outlet of the reaction chamber (11) and/or related to the outlet of the combustion chamber (6) respectively 4. The machine for incineration according to one of the preceding claims in which the container At least one containment (16) in sequence is provided for at least one of the following: - fine dust comprising principally metal particles which Produced in a fluidized bed redox reactor, -particulate matter consisting primarily of oxide particles of Metal produced in a fluidized bed combustion furnace, -Oxygen produced by an electrolysis unit. -Hydrogen produced by an electrolysis unit. 5. The incineration machine according to one of the preceding claims in which oxides Metal oxides include the following groups: -oxides of iron, -oxides of zinc, -oxides of alkali metals, more specifically oxides of magnesium. 6. Methods for operating machinery for incineration comprising: The steps are as follows: - Arrangement of metal oxide particles into the reaction chamber (8) of the reactor for Fluidized bed redox reaction (2), -A gas is provided to the fluidized bottom of a reactor for the reaction. Redox in a fluidized bed (2) in such a way that metal oxide particles are fluid, - Arrangement of metal particles in the combustion chamber (3) of a fluidized combustion furnace. Bed(1), -Providing oxygenated gas to the fluidized bottom of a fluidized combustion furnace. bed (1) in such a way that small dust particles comprising metal particles are fluid, and -increasing the temperature at least locally to cause a combustion reaction. The exothermic effect of metal particles and gas containing oxygen has the characteristic that The method includes the following steps: -operating an electrolysis unit (13) to produce oxygen and hydrogen gas, -providing the room with the produced hydrogen gas as a hydrogen gas. Reaction (8) of Fluidized bed redox reaction reactor (2) where metal oxide particles Reacts with hydrogen gas to form metal particles and water. -Organizing the oxygen gas produced to provide oxygen to the combustion chamber (3). Fluidized bed combustion furnace (1) 7. The method of claim 6 wherein metal oxide particles produced by combustion in The combustion chamber (3) of the fluidized bed combustion furnace (1) is provided for the reaction chamber (8) of the Reactors for fluidized bed redox reactions (2) and where metal particles produced in The reaction chamber (8) of the fluidized bed redox reaction reactor (2) is provided. Combustion(3) of fluidized bed combustion furnace(1) 8. The method of claim 6 or 7 wherein the metal oxide particles produced by The combustion reaction in the combustion chamber (3) of the fluidized bed combustion furnace (1) is separated. from gases from gaseous combustion and/or where metal particles are produced in the reaction chamber(8). The fluidized bed redox reactor (2) is separated from the reaction gas. of redox reactions 9. The method according to claims 6 to 8, wherein at least one of the following is stored: In each containment vessel (16) respectively: -Fine dust particles comprising metal particles produced in the reactor. For a fluidized bed redox reaction(2), -fine dust comprising metal oxide particles is produced in Fluidized bed combustion furnace(1), -Oxygen produced by electrolysis unit(13), -Hydrogen produced by electrolysis unit(13).