A combustion process wherein a fuel, a comburent and a component B), sulphur or sulphur containing compounds, are fed to the combuster in an amount to have a molar ratio B′/AI≥0.5, wherein: B′ is the sum by moles between the amount of sulphur present in component B)+the amount of sulphur (component
A combustion process wherein a fuel, a comburent and a component B), sulphur or sulphur containing compounds, are fed to the combuster in an amount to have a molar ratio B′/AI≥0.5, wherein: B′ is the sum by moles between the amount of sulphur present in component B)+the amount of sulphur (component BII)) contained in the fuel, AI is the sum by moles between the amount of alkaline and/or alkaline-earth metals (component AII)) contained in the fuel+the amount of the alkaline and/or alkaline earth metals (component A)) in the form of salts and/or oxides contained in component B), being the combustor isothermal and flameless.
대표청구항▼
1. A combustion process for reducing basic ashes in combustion fumes, comprising feeding into a combustor a fuel, a comburent and a component B), wherein combustion fumes comprising SO2 are output from the combustor, wherein component B) is selected from sulfur or sulfur containing compounds, and co
1. A combustion process for reducing basic ashes in combustion fumes, comprising feeding into a combustor a fuel, a comburent and a component B), wherein combustion fumes comprising SO2 are output from the combustor, wherein component B) is selected from sulfur or sulfur containing compounds, and component B) is added in an amount to have a molar ratio B′/AI≥0.5, wherein: B′ is the sum by moles between the amount of sulfur present in component B)+the amount of sulfur contained in the fuel,AI is the sum by moles between the amount of alkaline and/or alkaline-earth metals contained in the fuel+the amount of the alkaline and/or alkaline-earth metals contained in component B),beingthe combustor is isothermal and flameless,the comburent being in molar excess with respect to the stoichiometric amount required for the combustion reaction with the fuel, andwherein the partial pressure of SO2 ranges from 40 to 300 Pa. 2. A process according to claim 1, wherein sulfur in the fuel is present under the form of elementary sulfur or of organic and/or inorganic compounds containing sulfur. 3. A process according to claim 1, wherein in the combustor the pressure is comprised between values higher than 101.3 kPa and up to 2,000 kPa, and the temperature is comprised between 1,500 K up to 2,100 K. 4. A process according to claim 1, wherein the comburent comprises oxygen having a titer of at least 70% by volume, the complement to 100% being formed of an inert gas and/or nitrogen. 5. A process according to claim 1, wherein the molar ratio B′/AI is at least 1. 6. A process according to claim 1, wherein the combustion fumes at the outlet of the combustor are cooled at a temperature equal, to or lower than 1,100 K. 7. A process according to claim 1, wherein the feeding of component B) to the combustor is carried out by feeding the component B) separately from the fuel or in admixture with the fuel. 8. A process according to claim 1, wherein component B) is elementary sulfur and is fed to the combustor with aqueous dispersion containing surfactants. 9. A process according to claim 1, wherein the residence time of the fuel in the combustor ranges from 0.5 seconds up to 30 minutes. 10. A process according to claim 4, wherein the combustion fumes are recycled. 11. A process according to claim 10, wherein the fed oxygen is premixed with the recycled fumes, the amount of combustion fumes being higher than 10% by volume, preferably higher than 50% by volume. 12. A process according to claim 10, wherein the recycling fumes contain water in the vapor form, the water amount, calculated with respect to the total volume of the recycling fumes, being higher than 10% by volume. 13. A process according to claim 12, wherein the fuel contains an amount of water up to 80% by weight.
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