Claims
- 1. A method for sealing a fluid passageway between adjacent flues in a carbon anode baking furnace, comprising:
- inserting a heat resistant, inflatable bladder in a flue that is to be sealed;
- inflating the bladder to close the passage of air between flues; and
- maintaining the barrier.
- 2. A method for baking carbon anodes, comprising;
- connecting firing equipment to at least one section of a carbon anode baking furnace;
- inserting an inflatable seal in accordance with claim 1;
- operating the firing equipment throughout a baking cycle;
- deflating and removing the inflatable seal from the flue after the baking cycle is complete; and
- repositioning the firing equipment.
- 3. A method for sealing a fluid passageway between adjacent flues in a carbon anode baking furnace, a flue being generally rectangular in shape and comprising a flue top and bottom, a headwall on either end of the flue, two walls, an opening in the flue top, at least one baffle, and a plurality of spacers which are connected to both walls of the flue, the headwall, the two walls and the flue top define a headwall port which permits fluid passage between adjoining flues; the process comprising:
- inserting a sealing device into a flue, the sealing device comprises; an inflatable bladder made of a semi permeable, heat resistant material; a means to deliver air under pressure connected to the inflatable bladder by a seal to prevent air leakage between the means to deliver air under pressure and the inflatable bladder; a shaft between the means to deliver air under pressure and the inflatable bladder, the shaft having vents along its length; the inflatable bladder is long enough to extend from the flue top to a headwall and seal off the communication between flues at the headwall port when inflated;
- operably connecting an air pressure means to the sealing device;
- inflating the sealing device with the air pressure means to seal the flue from fluid communication with adjacent flues; and
- maintaining the fluid pressure within the sealing device.
- 4. A method for baking carbon anodes, comprising;
- connecting firing equipment to at least one section of a carbon anode baking furnace;
- inserting an inflatable seal in accordance with claim 3;
- operating the firing equipment throughout a baking cycle;
- deflating and removing the inflatable seal from the flue after the baking cycle is complete; and
- repositioning the firing equipment.
- 5. A method for manufacturing a sealing device for sealing a fluid passageway between adjacent flues in a carbon anode baking furnace, the method comprises;
- fashioning a semi permeable, heat resistant material into an inflatable bladder having an opening;
- fixing and sealing the opening of the inflatable bladder to a hollow shaft, and once connected to the inflatable bladder, the shaft has an opening that communicates with the interior of the inflatable bladder and one end that communicates with the exterior of the bladder;
- connecting an air pressure means to the shaft opening that is in communication with the exterior of the inflatable bladder; and
- sealing the connection between the air pressure means and the interior of the bladder.
- 6. A method in accordance with claim 5 further comprising coating the semi permeable, heat resistant material.
Parent Case Info
This application is a divisional of copending U.S. application Ser. No. 09/094,941 filed on Jun. 15, 1998.
This application is a continuation-in-part of provisional application no. 60/054,914, filed Aug. 6, 1997, which is hereby incorporated by reference in its entirety.
US Referenced Citations (3)
Divisions (1)
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Number |
Date |
Country |
Parent |
094941 |
Jun 1998 |
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