Method and apparatus for producing a product in a regenerator furnace from impure waste containing a non-gasifiable impurity
First Claim
1. A method for producing a product in a regenerator furnace subsystem, from a waste containing a non-gasifiable impurity for the regenerator furnace subsystem, comprising the steps of:
- a) introducing the waste into a molten metal bath maintained under conditions sufficient to dissociate said waste and form a gasified feed component for the regenerator furnace subsystem, whereby said waste dissociates and forms the gasified feed component and a non-gasifiable impurity;
b) directing said gasified feed component through a means for physically removing an impurity from the gasified feed component; and
c) directing the gasified feed component into the regenerator furnace subsystem maintained under conditions sufficient to convert the gasified feed component into said product.
5 Assignments
0 Petitions
Accused Products
Abstract
An apparatus and method for producing a product, such as hydrogen halide gas or sulfuric acid, in a regenerator furnace subsystem from a waste containing a non-gasifiable impurity. The method of the invention includes directing a waste, containing a non-gasifiable impurity into a reaction zone, containing a molten metal bath, in a reactor maintained under conditions sufficient to dissociate the waste and to form a gasified feed component and a non-gasifiable impurity. The gasified feed component is then directed from the reactor to a regenerator furnace subsystem, maintained under conditions sufficient to convert the gasified feed component to the desired product.
The apparatus of the invention includes a reactor having a waste inlet and a gaseous effluent, a reaction zone containing a molten-metal bath for dissociating the waste, containing a non-gasifiable impurity, and forming a gasified feed component, and a lance for injecting the waste into the reaction zone. The apparatus also includes a regenerator furnace subsystem, for converting the gasified feed component to the desired product, and a means for directing the gasified feed component from the reactor into the regenerator furnace subsystem.
112 Citations
15 Claims
-
1. A method for producing a product in a regenerator furnace subsystem, from a waste containing a non-gasifiable impurity for the regenerator furnace subsystem, comprising the steps of:
-
a) introducing the waste into a molten metal bath maintained under conditions sufficient to dissociate said waste and form a gasified feed component for the regenerator furnace subsystem, whereby said waste dissociates and forms the gasified feed component and a non-gasifiable impurity; b) directing said gasified feed component through a means for physically removing an impurity from the gasified feed component; and c) directing the gasified feed component into the regenerator furnace subsystem maintained under conditions sufficient to convert the gasified feed component into said product. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A method for producing a product in a regenerator furnace subsystem from a waste containing a non-gasifiable impurity for the regenerator furnace subsystem, comprising the steps of:
-
a) introducing the waste into a molten metal bath that includes a vitreous layer, and which is disposed in an upper portion of the molten metal bath, the molten metal bath being maintained under conditions sufficient to dissociate said waste and form a gasified feed component for the regenerator furnace subsystem, whereby said waste dissociates and forms the gasified feed component and a non-gasifiable impurity and whereby the vitreous layer removes the impurity from the gasified feed component; and b) directing the gasified feed component into the regenerator furnace subsystem maintained under conditions sufficient to convert the gasified feed component into said product. - View Dependent Claims (10, 11)
-
-
12. A method for producing hydrogen halide in a regenerator furnace subsystem, from a halogen-bearing waste containing a non-gasifiable impurity for the regenerator furnace subsystem, comprising the steps of:
-
a) introducing said waste into a molten metal bath maintained under conditions sufficient to dissociate said waste and form a gasified halogen-bearing feed component for the regenerator furnace subsystem, whereby said waste dissociates and forms said gasified feed component and a non-gasifiable impurity; b) directing said gasified feed component through a means for physically removing an impurity from the gasified feed component; and c) directing the gasified feed component into the regenerator furnace subsystem maintained under conditions sufficient to convert said gasified feed component into said halogen product.
-
-
13. A method for producing hydrogen halide in a regenerator furnace subsystem, from a halogen-bearing waste containing a non-gasifiable impurity for the regenerator furnace subsystem, comprising the steps of:
-
a) introducing said waste into a molten metal bath contained under conditions sufficient to dissociate said waste to form a halogen gas; b) introducing hydrogen into said molten metal bath; c) exposing said halogen gas and hydrogen to conditions sufficient to form an enriched feed comprising hydrogen halide, hydrogen and halogen; and d) directing said enriched feed into the regenerator furnace subsystem maintained under conditions sufficient to convert said enriched feed into the hydrogen halide.
-
-
14. An apparatus for generating a product in a regenerator furnace subsystem, from a waste containing a non-gasifiable impurity for the regenerator furnace subsystem, comprising:
-
a) a reactor having a waste inlet and a gaseous effluent outlet; b) a molten metal bath, disposed in the reactor, for exposing said waste to conditions sufficient to dissociate said waste to form a gasified feed component and a non-gasifiable impurity; c) a regenerator furnace subsystem having a furnace inlet for exposing the gasified component to conditions sufficient to generate the product; d) means for introducing said waste through the waste inlet into the molten metal bath, whereby said waste dissociates to form the gasified feed component and the non-gasifiable impurity; e) means at said gaseous effluent outlet for physically removing an impurity from the gasified feed component; and f) means for directing the gasified feed component from the reactor, through the gaseous effluent and the furnace inlet, into the regenerator furnace subsystem, whereby the gasified feed converts to said product. - View Dependent Claims (15)
-
Specification