前苏联专利SU1311623A3 Metallurgical furnace for melting finely pulverized sulfide lead concentrates in suspended state

专利PDF首页>>前苏联专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
The invention concerns a means for separating molten particles from the exhaust gases of metallurgical furnaces and for returning them to the furnace space (3). As taught by the invention, a molten dust cyclone has been provided substantially within the furnace space (3) or in its immediate vicinity, this cyclone comprising a vertical cylindrical chamber (4), a passage (8) leading from the furnace space (3) tangentially to chamber (4), an exit aperture (5) in the upper part of the chamber for removing the gas and a tap aperture (6) in the lower part of the chamber for returning to the furnace space (3) the solid and molten material that has separated from the gas. The invention furthermore concerns a way recover lead from the exhaust gases of a metallurgical furnace by regulating the oxygen partial pressure in the exhaust gases to be in the range of about 10-16 to 10-10 atmospheres at temperature 1250 DEG -1450 DEG K. and by subjecting the exhaust gases immediately to centrifugal separation to the purpose of separating lead fog droplets from the gas to the purpose of returning the molten lead to the furnace.
公开号:SU1311623A3
申请号:SU833552496
申请日:1983-02-11
公开日:1987-05-15
发明作者:Папани Талонен Тимо
申请人:Оутокумпу Ой (Финляндия)；
IPC主号:

专利说明:

This invention relates to non-ferrous metallurgy, in particular to furnaces for smelting in suspension of finely divided lead sulfide concentrates.
The purpose of the invention is to reduce lead losses with waste gases.
FIG. 1 shows the oven, front view; in fig. 2 is a section A-A in FIG. one.
The furnace contains a horizontal chamber 1 with a bottom 2 5 vertical reaction shaft 3 for smelting in a suspended state, a vertical shaft 4 for removal of exhaust gases, a vertical chamber 5 connected by a ca. with a horizontal chamber at the level of the bottom, a hole 7 connecting the upper part of the vertical chamber to the gas exhaust shaft, and a tangentially located channel 8 connecting the vertical and horizontal chambers, the water supply device 9 and the charging nozzle 10.
The furnace works as follows. From the roof of the furnace for melting in suspension through the nozzle 10, concentrate and oxygen or oxygen-enriched air are suspended in the form of a suspension into the reaction shaft 3 or zone for melting in suspension, when the direction of movement of the suspension in the smelting furnace changes. the main part of the molten solid material in it is separated from the gases and settles to the bottom of the chamber 1. The gas containing sulfur dioxide separated from the suspension in chamber 1 contains a mechanical drink and melted drops of lead compounds,
A vertical chamber 5 or a hot cyclone is located below the vertical shaft 4 or zone of the ascending stream, from which the purified gases exit through the opening 7. Gas is given a tangential motion, resulting in molten droplets contained in the gas, hit the walls of the cyclone and flow in the sump
through channel 6. Channel 6 is positioned so that the melted-drop, current BHHS / does not meet with gases. Channel 6 ends at the ke surface of the melt. The tangential inlet 8, through which gases enter the cyclone, is of such dimensions that the gas velocity is optimal for extracting molten Kschel. In order that with the help of a cyclone it is possible to separate a significant part of lead compounds in the gas phase, the gases can be cooled before the cyclone with water through adaptation 9.

权利要求:
Claims (1)
[1]
Invention Formula
Metallurgical furnace for melting in suspension fine-grained metal
sulphide lead concentrates containing a horizontal chamber with a hearth and vertical reaction shaft connected to the chamber for melting in suspension and a shaft for diverting an upward flow of gases with a dp device for separating solid and molten particles from the flue gases and returning them to furnace, characterized in that, in order to reduce the loss of lead with flue gases, the device for separating solid and molten particles is made in the form of a vertical cylindrical chamber placed in Horizontal chamber under the shaft for discharging the gas stream upstream vsh1e hearth and placed tangentially-connected channel with a horizontal camera in
the upper part of the vertical chamber: the device has an opening for the release of gases into the mine to divert the upward flow of gases and in the lower vertical chamber there is a channel connecting it with a horizontal chamber at the bottom level, and the horizontal chamber is equipped with a water supply device located in front of the tangential channel vertical
camera device.
Have
F1 / & 2
Compiled by V. Krasin Editor A. Lezhnin Tehred L. Oleinik ° ±.
З1к1з 907; 5Г tyr1 b05Subscribe
VNIIPI State Committee oiig
for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5
Production
printing enterprise, Uzhgorod, st. Project, 4

类似技术:

公开号 | 公开日 | 专利标题

FI66648C|1984-11-12|SUSPENSIONSSMAELTNINGSFOERFARANDE OCH ANORDNING FOER INMATNINGAV EXTRA GAS I FLAMSMAELTUGNENS REAKTIONSSCHAKT

US4470845A|1984-09-11|Continuous process for copper smelting and converting in a single furnace by oxygen injection

JP2001247922A|2001-09-14|Method for operating copper smelting furnace

RU2039106C1|1995-07-09|Method for continuous copper smelting

SU1311623A3|1987-05-15|Metallurgical furnace for melting finely pulverized sulfide lead concentrates in suspended state

FI85506C|1992-04-27|Autogenous furnace

US3790366A|1974-02-05|Method of flash smelting sulfide ores

US3271134A|1966-09-06|Extraction of zinc

US4555387A|1985-11-26|Flash roasting of molybdenum sulfide concentrates in a slagging reactor

US4005856A|1977-02-01|Process for continuous smelting and converting of copper concentrates

CA1182648A|1985-02-19|Method and apparatus for smelting fusible substancessuch as ore concentrates

US3102806A|1963-09-03|Reverberatory smelting method and apparatus

US3687656A|1972-08-29|Method of treating metal ores and ore concentrates

SE444578B|1986-04-21|PROCEDURE FOR THE RECOVERY OF METAL CONTENTS FROM COMPLEX SULFIDIC METAL RAW MATERIALS

US4391632A|1983-07-05|Process for the separation of lead from a sulfidic concentrate

FI66200B|1984-05-31|FREEZER CONTAINING FRUIT SULFID CONCENTRATION

US4421552A|1983-12-20|Dead roast-oxide flash reduction process for copper concentrates

RU2614293C2|2017-03-24|Method of low-autogenous raw material processing in flash smelting furnaces

US5246483A|1993-09-21|Slag separator

US2735759A|1956-02-21|Process of smelting copper sulfide ores

KR20180002082U|2018-07-06|Suspension smelting furnace

RU2100459C1|1997-12-27|Method of processing antimony sulfide raw material containing precious metals

RU2086678C1|1997-08-10|Method of pyrometallurgical processing of mineral raw

SU1471034A1|1989-04-07|Plant for processing charge containing nonferrous metals

RU1839195C|1993-12-30|Method of melting sulfide concentrates in suspension

同族专利:

公开号 | 公开日

GB2115125B|1985-06-05|

GB2115125A|1983-09-01|

US4568065A|1986-02-04|

FR2521454B1|1986-08-08|

NL8300530A|1983-09-01|

FI66199C|1984-09-10|

DE3304885A1|1983-09-08|

MX157965A|1988-12-28|

AR231648A1|1985-01-31|

AU1092683A|1983-08-18|

JPS58161733A|1983-09-26|

FR2521454A1|1983-08-19|

DE3304885C2|1986-02-27|

JPS61187371U|1986-11-21|

IT8319517D0|1983-02-10|

IT1163089B|1987-04-08|

BR8300882A|1983-11-16|

BE895771A|1983-05-30|

ES519756A0|1984-10-01|

GB8303077D0|1983-03-09|

YU32683A|1985-12-31|

FI820483L|1983-08-13|

YU43650B|1989-10-31|

CA1212243A|1986-10-07|

FI66199B|1984-05-31|

AU553754B2|1986-07-24|

ES8500334A1|1984-10-01|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

CA726130A|1966-01-18|Outokumpu Oy|Process for the production of metallic lead from materials containing lead oxide|

US1755845A|1925-06-08|1930-04-22|Frederick T Snyder|Process of and apparatus for smelting ores and recovering by-products therefrom|

US2894831A|1956-11-28|1959-07-14|Old Bruce Scott|Process of fluidized bed reduction of iron ore followed by electric furnace melting|

US3554515A|1967-05-11|1971-01-12|Furukawa Mining Co|Waste heat recovery apparatus for flash smelting furnace|

IT961166B|1972-05-10|1973-12-10|Tecnochim Srl|PROCESS AND EQUIPMENT FOR THE PURIFICATION OF GAS|

DE2253074C3|1972-10-28|1983-12-22|Deutsche Babcock & Wilcox Ag, 4200 Oberhausen|Process for the pyrometallurgical treatment of solids|

DE2358195B2|1973-11-22|1975-11-20|Ruhrkohle Ag, 4300 Essen|Hot gas dedusting for melting furnaces, especially cupolas|

US3997333A|1975-02-26|1976-12-14|Westinghouse Electric Corporation|Process for the reduction of complex metallic ores|

US4169725A|1976-04-30|1979-10-02|Outokumpu Oy|Process for the refining of sulfidic complex and mixed ores or concentrates|

DE2655813B2|1976-12-09|1980-10-23|Kloeckner-Humboldt-Deutz Ag, 5000 Koeln|Process and plant for the direct and continuous extraction of iron|

DE2716084A1|1977-04-12|1978-10-26|Babcock Ag|METHOD FOR EVOLVATING ZINC|

FR2430980B1|1978-07-13|1980-11-28|Penarroya Miniere Metall|

ZA795623B|1978-11-24|1980-09-24|Metallurgical Processes Ltd|Condensation of metal vapour|

FI65807C|1980-04-16|1984-07-10|Outokumpu Oy|REFERENCE TO A SULFID CONCENTRATION|US4724895A|1986-05-14|1988-02-16|Inland Steel Company|Fume control in strand casting of free machining steel|

IT1197143B|1986-09-02|1988-11-25|Snam Progetti|METHOD FOR COOLING GAS AND / OR VAPORS COMING FROM NON-FERROUS METAL TREATMENT PLANTS AND RELATED EQUIPMENT|

ES2080153T3|1989-08-15|1996-02-01|Pasminco Australia Ltd|ABSORPTION OF ZINC VAPOR IN CAST LEAD.|

US6036914A|1997-12-12|2000-03-14|Uss/Kobe Steel Company|Dumping bay with fume collecting provisions|

US6017486A|1997-12-12|2000-01-25|Uss/Kobe Steel Company|Comprehensive fume collection system for production of leaded steel|

US6077473A|1997-12-12|2000-06-20|Uss/Kobe Steel Company|Torch cutting enclosure having fume collection provisions|

FI108542B|1999-05-14|2002-02-15|Outokumpu Oy|Process for reducing the slag's non-ferrous metal content during the production of non-ferrous metals in a suspension melting furnace|

FI111028B|1999-05-26|2003-05-15|Outokumpu Oy|A method for cooling the gas stream of a melting furnace|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

FI820483A|FI66199C|1982-02-12|1982-02-12|ANORDNING FOER SEPARERING AV FASTA OCH SMAELTA PARTICLAR FRAON METALLURGICAL UGNARS AVGASER SAMT SAETT ATT AOTERVINNA BLY FRAON DYLIKA AVGASER|

[返回顶部]