DE6606663U - DRUMMILL - Google Patents

Description

► »ti ·

Furukawa Mining Company Ltd., Tokyo / Japan

^ Drum mill

The invention relates to a drum mill (cage mill) for pulverizing and preheating ore before pouring it in an Abhrenian smelting furnace, which has a Einfulitxich = ter for filling in the ore.

In general, drum mills that cooperate in a system with burn-off melting furnaces are only for Set up pulverizing the ore before pouring it into the burn-off furnace. In such systems, e.g. powdered copper ore such as copper sulphide and oxygen at the same time blown into the burn-off furnace and the active components of the copper ore through the Oxidation reaction generated heat melted instantly. A hot exhaust gas is blown off the furnace. It is usual, first to cool this hot exhaust gas in the radiation chamber of a boiler. The radiation chamber is made of steam generator tubes surround. The cooling takes place to about 700 ° C by thermal radiation from the gas onto the pipe walls. That Gas that has already been cooled to a relatively low temperature is then passed through a convection chamber in which in Tube bundle is arranged. The tubes of this bundle are offset from one another or arranged like a checkerboard. The gas gives off heat to the tube bundle through convection

66066G319.11.70

and is characterized at about 3oo - cooled 3 ⁰ 5o C.

■ So that a large amount of heat is recovered,

should the gas with the lowest possible temperature from the

Exit boiler. If the exhaust gas temperature is below 25o ° C j however, the SO contained in the exhaust gas condenses

was produced during the smelting of the copper ore on which *,

Surface of the boiler tubes and causes corrosion there. ;H

For this reason, the boiler pressure must not fall below 35 atü V

I.

be reduced so that the flue gas temperature at the boiler I ₁

exits above 300 ° C or about 50 ° C above the saturation |!

boiler temperature must be maintained. For the effect f:

; I.

degree of waste heat recovery, it is inexpedient that the ä |

Gas cannot be cooled any further. I '

Ii

Furthermore, the hot exhaust gas from a burn-off melting furnace has ir

a high dust content. That from the radiation space in the | f

Gas flowing in the convection space therefore bounces into the convection ||

tion space on the convection pipes so that these can be E

are rubbed or fly dust is deposited on them; ψ

in the latter case the tensile resistance is correspondingly increased

increases. | ¥

The object of the invention is to provide the return

recover waste heat from a burn-off melting furnace a new if

and to provide improved apparatus by which all pre- M

the disadvantages of the usual arrangements mentioned above.

be done. In particular, it is about a usual on ff

low temperature heat exchange area ^ .ines | li

Kettle through a pulverizer and dryer for β Fine ore with which the burn-off furnace is charged

supposed to replace. It is a further object of the invention to recover the waste heat from the exhaust gases with a
to enable much higher efficiency than before without
that one of the difficulties mentioned above occurs,
which can be attributed to the high dust content of the exhaust gases.

6606663 11/19/70

This object is achieved according to the invention in that a drum mill (cage mill) is provided; the one Inlet opening for the hot exhaust gas from the burn-off furnace and an outlet for the exhaust gas and the preheated pulverized ore Burn-off melting furnaces that have been passed through a radiation boiler for initial cooling occur on the one side into the drum mill. There they give another part of their heat to what was pulverized in the drum mill Ore off. The exhaust gases from the burn-off melting furnace are thus cooled, while the pulverized ore is before being filled is appropriately preheated in the burn-off furnace. The exhaust gases then leave with the preheated, pulverized ore through a second opening into the drum mill .

For a better understanding of these and other objects and advantages of the subject matter of the invention, an embodiment of the invention is described below with reference to the drawing. For a better understanding, the single figure of the drawing shows schematically a drum mill according to the invention in their interaction with other devices known per se.

The drawing shows a burn-off melting furnace Io known Art and a radiation boiler 11, which is in connection with the furnace and one located on tobar temperature Has heat exchange area. The drum mill (cage mill) 12 'according to the invention is provided with a feed hopper 13, via which it is charged with wet ore, for example copper sulphide, which is pulverized, dried and preheated shall be. The mill 12 has an inlet opening to which a channel 14 leads from the boiler 11. The mill also has an outlet opening from which a channel 15 extends,

6606663 11/19/70

which preheated the powdered, dried> id Ore is entrained in the exhaust gas stream. The channel 15 leads up from the mill 12 to a tangential inlet of a Cyclone 16. This is connected via line 17 to the furnace Io in such a way that Peinerz contained in the gas stream deposited in the cyclone and from the outlet opening located at the lower end of the cyclone into the upper part of the burn-off furnace. The exhaust gas separated in the cyclone 16 contains very fine ore and fly ash and is guided via a line 18 into an electrical dust separator 19. In this the very fine ore and the fly dust separated and then combined via a channel 2o with the fine ore, which is carried in the line 17. A suction fan 21 sucks the exhaust gas from the furnace so that the gas can flow through the system = the fan 21 serves also for the delivery of the in the electrical dust separator: cleaned Gas from the system.

During the operation of the device, the Abbrennsclimelzofen generates Io is an exhaust gas that has a high dust content and is at a high temperature of around 13oo ° C. As a result the suction effect of the suction fan 21, this exhaust gas enters the boiler 11, in its high-temperature heat exchange area the gas cooled down to about 500 ° C The cooled exhaust gas then passes through the duct 14 into the drum mill 12, in which it is used to dry and preheat raw ore, For example, copper sulphide is used, which is introduced into the drum mill 12 via the hopper 13. The drying and preheating of the ore occurs while the ore is being pulverized in the mill 12. The hot exhaust gas stream transports the pulverized, dried and preheated ore through channel 15. As the during drying and preheating of the ore used; hot gas stream is a furnace exhaust gas with a very low oxygen content, occurs during drying and Preheating does not oxidize or burn the copper ore.

- ζ · "

The gas with the fine ore then enters cyclone 16

ι in which the gas is separated from your fine ore and

f together with very fine ore and fly ash in the electric

; Dust separator i9 enters. In the dust separator 19 are

\ the very fine ore and the fly dust separated from the gas;

! this is cooled to about 100 - 150 ° C. That in the cyclone

\ The separated fine ore is transported together with the fly ash over the

j line 17 in the upper part of the burn-off furnace Io

\ introduced. The in the manner described above in the

j electrical dust collector 19 dusted off and avf

a low temperature cooled gas is blown by a fan

se 21 blown out of the system.

The use of a drum mill according to the invention with an inlet opening for the hot exhaust gas from the burn-off melting furnace and an exit opening for the exhaust gas and the pulverized * dried and preheated ore hence a significant improvement in the efficiency of exhaust gas heat recovery and completely eliminates the various ones Disadvantages that occur when using an ordinary kettle in a low-temperature one Heat exchange area is formed by convection pipes. In the mill according to the invention, the exhaust gas generated in the furnace, which has a high dust content, is used for drying and

Preheating of fine ore is used, while at the same time the waste

O
gas temperature can be reduced to around 100 - 15o C.

In the known arrangements, the device for blowing off the gas and the device are ^ TpSieuinati Förder *, and drying of the ore independently and each with its own cyclone, electric dust collector and Fan provided. When using an according to the invention Mill only need these components once provided, see below so that the whole arrangement is simplified.

66066B3 11/19/70

Claims (1)

S chut 3 claim; Drum mill for pulverizing and preheating ore before being poured into a burn-off furnace Has a funnel for filling the ore, characterized by an inlet opening for the hot exhaust gas from Burn-off melting furnace and an outlet port for the exhaust gas and the preheated pulverized ore. jlich «inö« r «ichI« n * Ün! tria8 «n οζ. ' Di · 'rtdillidw tUdtutang d «r AbwEAuno ^ r ^ chf ^ BlprSftJDUrurjpra ^ iicieil · igereidim Unlcrlagan btüaiin sädi in the AmbakitnTSYou can at any time without notice of any legal interest; On request, Folokoplen or Fürnnesalive will also be delivered to the 'usual' bounces 660666319.11.70