Method and apparatus for electrically melting glass

US 4,161,617 A
Filed: 05/01/1978
Issued: 07/17/1979
Est. Priority Date: 05/01/1978
Status: Expired due to Term

First Claim

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1. A process for continuously melting a glass batch by heating said glass batch in a furnace having plurality of electrodes disposed in a vertically oriented melting chamber to feed said glass batch at the top level of the chamber and withdraw molten glass at the bottom level of the chamber and further including one set of electrodes located adjacent the top level of the chamber with at least one other set of electrodes located at a lower level of the chamber which comprises:

(a) feeding said glass batch continuously at the top level of the chamber to form a blanket resting on the molten glass,(b) supplying electrical energy to said lower level electrodes at a rate sufficient to supply molten glass continuously at the bottom level of the chamber, and(c) supplying electrical energy to said top level electrodes at a rate sufficient to maintain the batch blanket at relatively constant thickness while generating localized hot spots in the molten glass adjacent said electrodes and causing a flow of gas bubbles upwardly through the glass at said hot spot locations for escape through the batch blanket.

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Abstract

A method and apparatus is described for melting of a glass batch with electrical energy supplied by electrodes disposed in a vertically oriented melting chamber and which ameliorates the problems encountered when the raw batch blanket cannot be continuously and uniformly melted in said chamber. Specifically, improved electrode heating means are provided to generate localized hot spots in the molten glass adjacent the underside of the batch blanket and cause a flow of gas bubbles upwardly through the glass at the hot spot locations for escape through the batch blanket. The electrical energy rate supplied to said electrode means is also controlled so that a crust of only partially melted foam-type glass material is not formed within the batch blanket to impede escape of the gas bubbles. The improved system can further include cooperative means to refine the molten glass being continuously withdrawn from the bottom of the melting chamber in a separate refining chamber connected thereto.

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1. A process for continuously melting a glass batch by heating said glass batch in a furnace having plurality of electrodes disposed in a vertically oriented melting chamber to feed said glass batch at the top level of the chamber and withdraw molten glass at the bottom level of the chamber and further including one set of electrodes located adjacent the top level of the chamber with at least one other set of electrodes located at a lower level of the chamber which comprises:
- (a) feeding said glass batch continuously at the top level of the chamber to form a blanket resting on the molten glass,(b) supplying electrical energy to said lower level electrodes at a rate sufficient to supply molten glass continuously at the bottom level of the chamber, and(c) supplying electrical energy to said top level electrodes at a rate sufficient to maintain the batch blanket at relatively constant thickness while generating localized hot spots in the molten glass adjacent said electrodes and causing a flow of gas bubbles upwardly through the glass at said hot spot locations for escape through the batch blanket.
- View Dependent Claims (2, 3, 4)
- - 2. A process as in claim 1 wherein said lower level electrodes comprise a first set of electrodes located at the bottom level of the chamber which cooperate with a second set of electrodes located at the level intermediate said bottom level electrodes and the top level electrodes to maintain the molten glass temperature greatest in the zone adjacent said intermediate level electrodes.
  - 3. A process as in claim 1 wherein the molten glass is refined after removal from the melting chamber.
  - 4. A process as in claim 3 wherein refining of the molten glass takes place in a refining zone connected to the melting chamber which further includes auxiliary electrodes to control the refining temperature.

5. A process for continuous melting a borosilicate glass batch by heating said glass batch in a furnace having a plurality of electrodes disposed in a vertically oriented melting chamber to feed said glass batch at the top level of the chamber and withdraw molten glass at the bottom level of the chamber and further including one set of electrodes located adjacent the top level of the chamber with at least one other set of electrodes located at a lower level in said chamber which comprises:
- (a) feeding said glass batch continuously at the top level of the chamber to form a blanket extending over substantially the entire cross sectional area of said chamber and resting on the molten glass,(b) supplying electrical energy to said lower level electrodes at a rate sufficient to supply molten glass continuously at the bottom level of the chamber, and(c) supplying electrical energy to said top level electrodes at a rate sufficient to maintain the batch blanket at relatively constant thickness while generating localized hot spots in the molten glass adjacent said electrodes in the temperature range from about 1250°
  
  C. to about 1350°
  
  C. and causing a flow of gas bubbles upwardly through the glass at said hot spot locations for escape through the batch blanket.
- View Dependent Claims (6, 7, 8)
- - 6. A process as in claim 5 wherein said lower level electrodes comprise a first set of electrodes located at the bottom level of the chamber which cooperate with a second set of electrodes located at the level intermediate said bottom level electrodes and the top level electrodes to maintain the molten glass temperature greatest in the zone adjacent said intermediate level electrodes.
  - 7. A process as in claim 5 wherein the molten glass is refined after removal from the melting chamber.
  - 8. A process as in claim 7 wherein refining of the molten glass takes place in a refining zone connected to the melting chamber which further includes auxiliary electrodes to control the refining temperature.

9. A furnace construction for continuously melting a glass batch by heating with electrodes which comprises:
- (a) a vertically oriented melting chamber to feed glass batch at the top level of the chamber and withdraw molten glass at the bottom level of the chamber,(b) batch feeding means to supply batch at the top level of the chamber to form a blanket extending over substantially the entire cross sectional area of said chamber and rest on the molten glass,(c) a set of electrodes disposed at the top level of the chamber and space circumferentially to maintain the batch blanket at relatively constant thickness while generating hot spots in the molten glass adjacent the underside of the batch blanket,(d) at least one additional set of electrodes disposed at a lower level in the chamber with the individual electrodes being aligned in a vertical direction with the individual electrodes at the top level, and(e) separate control means for applying electrical energy to each set of electrodes.
- View Dependent Claims (10, 11, 12)
- - 10. A furnace construction as in claim 9 which further includes another set of electrodes spaced circumferentially at the bottom level of the chamber.
  - 11. A furnace construction as in claim 9 which further includes a separate refining chamber connected to the bottom level of the melting chamber.
  - 12. A furnace construction as in claim 11, having auxiliary electrodes disposed in the refining chamber.

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Current Assignee
General Electric Company
Original Assignee
General Electric Company
Inventors
Hrycik, Kenneth S., Prentice, William J. Jr., Leonhardt, John H.
Primary Examiner(s)
Envall, Jr., R. N.

Application Number

US05/901,315
Time in Patent Office

442 Days
Field of Search

13/6, 13/23
US Class Current

373/39
CPC Class Codes

C03B 5/027   by passing an electric curr...

C03B 5/031   Cold top tank furnaces

C03B 5/225   Refining C03B5/18 takes pre...

Method and apparatus for electrically melting glass

First Claim

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Abstract

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12 Claims

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Method and apparatus for electrically melting glass

First Claim

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Accused Products

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Abstract

13 Citations

12 Claims

Specification

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Solutions

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