초록 ▼

The invention relates to a method for the continuous melting of inorganic salts and a furnace installation for realizing the method. Solid salts are fed into a furnace with the aid of a feeding unit. The salts contained in the furnace are heated. A flow of the salts is generating inside the furnace

The invention relates to a method for the continuous melting of inorganic salts and a furnace installation for realizing the method. Solid salts are fed into a furnace with the aid of a feeding unit. The salts contained in the furnace are heated. A flow of the salts is generating inside the furnace with the aid of a circulating unit. The flow generates a two-phase region containing solid and melted salt and a separate second region containing substantially solely a melt that is heated to the desired temperature. The melt is discharged from the separate second region simultaneous with the feeding of the solid salts into the furnace with the aid of a removal unit.

대표청구항 ▼

1. A method for the continuous melting of inorganic salts, comprising the following steps: feeding solid salts into a furnace with the aid of a feeding unit;heating the salts contained in the furnace;generating a flow of the salts inside the furnace with the aid of a circulating unit, wherein the fl

1. A method for the continuous melting of inorganic salts, comprising the following steps: feeding solid salts into a furnace with the aid of a feeding unit;heating the salts contained in the furnace;generating a flow of the salts inside the furnace with the aid of a circulating unit, wherein the flow generates a two-phase region containing solid and melted salt and a separate second region containing substantially solely a melt that is heated to the desired temperature;discharging the melt from the separate second region simultaneous with the feeding of the solid salts into the furnace with the aid of a removal unit; andcontrolling the amount of the solid salts fed per time unit into the furnace and the amount of the melt removed per time unit from the furnace such that the total weight of the salt amount inside the furnace remains at least approximately constant. 2. A method according to claim 1, wherein the feeding is continuous. 3. The method according to claim 1, wherein the feeding step includes feeding a salt mixture by feeding individual salts separately or pre-mixed via the feeding unit into the furnace; the heating step includes melting the salt mixture inside the furnace; and the generating step includes mixing completely the salt mixture with the aid of the circulating unit. 4. The method according to claim 3, wherein the generating step generates a flow such that the salt mixture present in the second region is completely mixed and melted. 5. The method according to claim 3, wherein the salt mixture includes potassium nitrate and sodium nitrate. 6. The method according to claim 1, wherein the generating step includes determining the separation of the regions by at least one of a direction of the flow, a strength of the flow, or installing mechanical inserts installed in the furnace for guiding the flow. 7. The method according to claim 6, wherein the generating step includes generating a laminar flow with the aid of the circulation unit. 8. The method according to claim 6, wherein the generating step is carried out so that the second region containing the melt is located below the two-phase region. 9. The method according to claim 1, wherein the feeding step and discharging step occur continuously or at predetermined time intervals. 10. The method according to claim 1, wherein said controlling step includes controlling the amount of the solid salts fed per hour into the furnace and the amount of the melt simultaneously removed per hour from the furnace such that the amounts do not exceed 25% by weight of the furnace content. 11. A method for the continuous melting of inorganic salts, comprising the following steps: feeding solid salts into a furnace with the aid of a feeding unit;heating the salts contained in the furnace;generating a flow of the salts inside the furnace with the aid of a circulating unit, wherein the flow generates a two-phase region containing solid and melted salt and a separate second region containing substantially solely a melt that is heated to the desired temperature; anddischarging the melt from the separate second region simultaneous with the feeding of the solid salts into the furnace with the aid of a removal unit,wherein the generating step includes determining the separation of the regions by at least one of a direction of the flow, a strength of the flow, or installing mechanical inserts installed in the furnace for guiding the flow, andwherein the generating step includes generating a vertically upward directed flow in the center of the furnace with the aid of the circulation unit, wherein the feeding step includes supplying the solid salts in the central region of the furnace via the feeding unit. 12. The method according to claim 11, wherein the generating step includes generating a downward directed flow in edge regions of the furnace. 13. A method for the continuous melting of inorganic salts, comprising the following steps: feeding solid salts into a furnace with the aid of a feeding unit;heating the salts contained in the furnace;generating a flow of the salts inside the furnace with the aid of a circulating unit, wherein the flow generates a two-phase region containing solid and melted salt and a separate second region containing substantially solely a melt that is heated to the desired temperature;discharging the melt from the separate second region simultaneous with the feeding of the solid salts into the furnace with the aid of a removal unit; andcontrolling the amount of the solid salts fed per hour into the furnace and the amount of the melt simultaneously removed per hour from the furnace such that the amounts do not exceed 100% by weight of the furnace content. 14. A furnace installation for the continuous mixing and melting of inorganic salts, comprising: a furnace;a feed unit to feed solid salts into the furnace;a heater to heat the salts contained in the furnace;a circulation unit to generate a flow of the salts inside the furnace to cause a separation between a two-phase region of solid and melted salts and a second region of a melt that is heated to a desired temperature;a removal unit to remove melt from the second region, simultaneous with operation of the feed unit; anda control unit to control the feed-in of the solid salt and the discharge of the melt. 15. The furnace installation according to claim 14, wherein the feeding unit operates continuously. 16. The furnace installation according to claim 14, wherein the circulation unit includes one of a stirring mechanism or a pump with a vertically upward directed flow characteristic. 17. The furnace installation according to claim 14, wherein the circulation unit is arranged in the center of the furnace. 18. The furnace installation according to claim 17, further including guide elements arranged to generate a downward directed flow in edge regions of the furnace. 19. The furnace installation according to claim 14, wherein the heater includes heating elements arranged at least one of inside or outside the furnace to heat the furnace. 20. The furnace installation according to claim 19, wherein the heater employs one of gas, oil, heavy oil, or electrical energy to heat the furnace. 21. The furnace installation according to claim 19, wherein the heating elements arranged inside the furnace comprise gas-fired tubular heating elements. 22. The furnace installation according to claim 21, wherein the furnace has a circular cross section, and the tubular heating elements are arranged in the edge region of the furnace and are ring-shaped. 23. The furnace installation according to claim 14, wherein the removal unit comprises a liquid siphon to remove the melt from the second region. 24. The furnace installation according to claim 23, wherein the liquid siphon is arranged to suction the melt from the bottom region of the furnace. 25. The furnace installation according to claim 14, wherein the removal unit comprises a circular pump. 26. The furnace installation according to claim 14, further comprising a volumetric or a gravimetric measuring unit coupled to the control unit, wherein the measuring unit measures the amount of solid salt fed in via the feeding unit. 27. The furnace installation according to claim 14, further comprising a measuring unit coupled to the control unit, wherein the measuring unit measures the amounts of melt discharged via the removal unit by determining the energy absorption of the removal unit or by determining the flow speed of the melt. 28. The furnace installation according to claim 14, further comprising a weighing unit coupled to the control unit, wherein the weighing unit determines the weight of the furnace that is filled with salts. 29. The furnace installation according to claim 14, further comprising a temperature measuring unit coupled to the control unit, wherein the temperature measuring unit measures the temperature in the two regions inside the furnace. 30. A furnace installation for the continuous mixing and melting of inorganic salts, comprising: a furnace;a feed unit to feed solid salts into the furnace;a heater to heat the salts contained in the furnace;a circulation unit to generate a flow of the salts inside the furnace to cause a separation between a two-phase region of solid and melted salts and a second region of a melt that is heated to a desired temperature; anda removal unit to remove melt from the second region, simultaneous with operation of the feed unit,wherein the circulation unit includes a nozzle arrangement in a bottom region of the furnace to introduce a vertically upward directed gas flow into the furnace. 31. A furnace installation for the continuous mixing and melting of inorganic salts, comprising: a furnace;a feed unit to feed solid salts into the furnace;a heater to heat the salts contained in the furnace;a circulation unit to generate a flow of the salts inside the furnace to cause a separation between a two-phase region of solid and melted salts and a second region of a melt that is heated to a desired temperature; anda removal unit to remove melt from the second region, simultaneous with operation of the feed unit,wherein the circulation unit includes one of a stirring mechanism or a pump with a vertically upward directed flow characteristic, andwherein the furnace has a ceiling with a feed opening located in the region of the upward directed flow that is generated by the circulating unit, and the feed unit feeds the solid salts into the furnace through the feed opening. 32. A furnace installation for the continuous mixing and melting of inorganic salts, comprising: a furnace;a feed unit to feed solid salts into the furnace;a heater to heat the salts contained in the furnace;a circulation unit to generate a flow of the salts inside the furnace to cause a separation between a two-phase region of solid and melted salts and a second region of a melt that is heated to a desired temperature;a removal unit to remove melt from the second region, simultaneous with operation of the feed unit, wherein the removal unit comprises a liquid siphon to remove the melt from the second region; anda discharge opening for discharging the melt and a drive for operating the liquid siphon, wherein the discharge opening and the drive are arranged above the ceiling of the furnace.