Method and arrangement for feeding fine-grained matter to a concentrate or matte burner of a suspension smelting furnace

Abstract

The invention relates to a method and to an arrangement for feeding fine-grained matter to a concentrate or matte burner (1) of a suspension smelting furnace (2). The arrangement comprising a fluidization arrangement (3) for feeding fluidized fine-grained matter into a dosing bin (4), and a conveyor means (6) for feeding fluidized fine-grained matter from the dosing bin (4) to the concentrate or matte burner (1) of the suspension smelting furnace (2), and a loss-in-weight controller (5) between the dosing bin (4) and the conveyor means (6). The arrangement comprises an impact cone (8) arranged below a filling valve (7) between the fluidization arrangement (3) and the dosing bin (4) for distributing fluidized fine-grained matter flowing from the fluidization arrangement (3) within the dosing bin (4).

Claims

1. An arrangement for feeding fine-grained matter to a concentrate or matte burner of a suspension smelting furnace, wherein the arrangement comprises a feeding bin configured for feeding fine-grained matter into the fluidization arrangement, wherein the arrangement comprising a fluidization arrangement for producing fluidized fine-grained matter and for feeding fluidized fine-grained matter into a dosing bin that is located at a level below the fluidization arrangement, wherein the dosing bin is configured for feeding fluidized fine-grained matter to a conveyor assembly that is located at a level below the dosing bin and that is in communication with the concentrate or matte burner of the suspension smelting furnace for feeding fluidized fine-grained matter to the concentrate or matte burner of the suspension smelting furnace by means of the conveyor assembly, wherein the arrangement comprises a loss-in-weight controller between the dosing bin and the conveyor assembly for controlling the feeding of fluidized fine-grained matter to the conveyor assembly, wherein the arrangement comprises a scale assembly for determining the weight of the fluidized fine-grained matter in the dosing bin, and wherein the arrangement comprises a filling valve between the fluidization arrangement and the dosing bin for opening and closing the communication between the fluidization arrangement and the dosing bin and wherein the filling valve is configured to open valve when the weight of the fluidized fine-grained matter in the dosing bin goes below a pre-set low limit, and subsequently to close the filling valve when the weight of the fluidized fine-grained matter in the dosing bin goes above a pre-set high limit, characterized by the arrangement comprises an impact cone arranged below the filling valve for distributing fluidized fine-grained matter flowing from the fluidization arrangement within the dosing bin, and characterized by the impact cone being supported from the filling valve.

2. The arrangement according to claim 1, characterized by arranging the impact cone below the half of the height of the dosing bin.

3. The arrangement according to claim 1, characterized by the impact cone being supported by means of a metal support structure such as a steel support structure that is attached to a body structure of the filling valve.

4. The arrangement according to claim 1, characterized by the impact cone being hanged by metal wires such as steel wires or by metal chains such as steel chains at a body structure of the filling valve.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

(1) In the following the invention will described in more detail by referring to the figures, which

(2) FIG. 1 shows a suspension smelting furnace,

(3) FIG. 2 shows a detail view of a preferred embodiment of the invention,

(4) FIG. 3 shows a detail view of another preferred embodiment of the invention, and.

(5) FIG. 4 shows a detail view of another preferred embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

(6) The invention relates method and to an arrangement for feeding fine-grained matter (not shown in the figures) to a concentrate or matte burner 1 of a suspension smelting furnace 2.

(7) First the method for feeding fine-grained matter to a concentrate or matte burner 1 of a suspension smelting furnace 2 and some preferred embodiments and variants of the method will be described in greater detail.

(8) The method comprises feeding first step for feeding fine-grained matter into a fluidization arrangement 3.

(9) The method comprises a fluidization step for producing fluidized fine-grained matter with the fluidization arrangement 3.

(10) The method comprises additionally a second feeding step for feeding fluidized fine-grained matter from the fluidization arrangement 3 into a dosing bin 4 that is located at a level below the fluidization arrangement 3.

(11) The method comprises additionally a third feeding step for feeding fluidized fine-grained matter from the dosing bin 4 to a conveyor means 6 that is located at a level below the dosing bin 4 and that is in communication with the concentrate or matte burner 1 of the suspension smelting furnace 2 for feeding fluidized fine-grained matter to the concentrate or matte burner 1 of the suspension smelting furnace 2 with the conveyor means 6.

(12) The method comprises additionally controlling the feeding of fluidized fine-grained matter from the dosing bin 4 to the conveyor means 6 by means of a loss-in-weight controller 5 in the third feeding step.

(13) The third feeding step may include firstly feeding fluidized fine-grained matter from the dosing bin 4 to a screw conveyor 12 of the conveyor means 6 and subsequently feeding fluidized fine-grained matter from the screw conveyor 12 of the conveyor means 6 to an air-slide means 13 of the conveyor means and subsequently feeding fluidized fine-grained matter from the air-slide means 13 of the conveyor means to the concentrate or matte burner 1 of the suspension smelting furnace 2.

(14) The second feeding step comprises opening a filling valve 7 between the fluidization arrangement 3 and the dosing bin 4 when the weight of the fluidized fine-grained matter in the dosing bin 4 goes below a pre-set low limit so as to let fluidized fine-grained matter to flow from the fluidization arrangement 3 into the dosing bin 4, and comprises subsequently closing the filling valve 7 when the weight of the fluidized fine-grained matter in the dosing bin 4 goes above a pre-set high limit. The second feeding step includes weighting the fluidized fine-grained matter in the dosing bin 4. The method may include the loss-in-weight controller 5 for determining the weight of the fine-grained matter in the dosing bin 4.

(15) The method comprises additionally an arranging step for arranging an impact cone 8 arranged below the filling valve 7 for distributing fluidized fine-grained matter flowing from the fluidization arrangement 3 into the dosing bin 4.

(16) The arranging step of the method includes preferably, but not necessarily, supporting the impact cone 8 at the filling valve 7 between the fluidization arrangement 3 and the dosing bin 4, preferably at a body structure (not marked with a reference numeral) of the filling valve 7. If the impact cone 8 is supported at the filling valve 7 between the fluidization arrangement 3 and the dosing bin 4, the impact cone 8 can be supported by means of a metal support structure 9 such as a steel support structure that is attached to a body structure of the filling valve 7. Another option if the impact cone 8 is supported at the filling valve 7 between the fluidization arrangement 3 and the dosing bin 4, is to hang the impact cone 8 by metal wires (not shown in the figures) such as steel wires or by metal chains such as steel chains at a body structure of the filling valve 7.

(17) The arranging step of the method includes preferably, but not necessarily as shown in FIG. 4, supporting the impact cone 8 at the filling valve 7 between the fluidization arrangement 3 and the dosing bin 4 and arranging the impact cone 8 below the half of the height of the dosing bin 4.

(18) The method may include a recording step for by recording the actual filling time for filling the dosing bin 4, wherein the actual filling time is the time starting from opening of the filling valve 7 and ending by closing the filling valve 7 in the second feeding step, and a comparing step for comparing the recorded the actual filling time and a standard filling time for filling the dosing bin 4.

(19) If the method includes an above-described recording step and an above-described comparing step, the fluidization step of the method may include increasing fluidization of the fine-grained matter if the recorded filling time is longer than the standard filling time.

(20) If the method includes an above-described recording step and an above-described comparing step, the fluidization step of the method may decreasing fluidization of the fine-grained matter if the recorded filling time is shorter that the standard filling time.

(21) If the method includes an above-described recording comparing step and an above-described comparing step, the comparing step of the method may include using a pre-determined filling time as the average filling time.

(22) If the method includes an above-described recording comparing step and an above-described comparing step, the comparing step of the method may include using as the standard filling time an average filling time calculated as the average filling time of several recorded actual filling times.

(23) Next the arrangement for feeding fine-grained matter to a concentrate or matte burner 1 of a suspension smelting furnace 2 and some preferred embodiments and variants of the arrangement will be described in greater detail.

(24) The arrangement comprises a fluidization arrangement 3 for producing fluidized fine-grained matter and for feeding fluidized fine-grained matter into a dosing bin 4 that is located at a level below the fluidization arrangement 3. The arrangement comprises feeding means for feeding fine-grained matter into the fluidization arrangement 3.

(25) The dosing bin 4 is configured for feeding fluidized fine-grained matter to a conveyor means 6 that is located at a level below the dosing bin 4 and that is in communication with the concentrate or matte burner 1 of the suspension smelting furnace 2 for feeding fluidized fine-grained matter to the concentrate or matte burner 1 of the suspension smelting furnace 2 by means of the conveyor means 6.

(26) The arrangement comprises a loss-in-weight controller 5 between the dosing bin 4 and the conveyor means 6 for controlling the feeding of fluidized fine-grained matter to the conveyor means 6.

(27) The arrangement comprises weighting means for determining the weight of the fluidized fine-grained matter in the dosing bin 4. The loss-in-weight controller 5 is preferably a part of the weighting means for determining the weight of the fluidized fine-grained matter in the dosing bin 4 and used as a weighting means.

(28) The conveyor means 6 may include a screw conveyor 12 that is in communication with the dosing bin 4 and an air-slide means 13 that is in communication with the screw conveyor 12 and that is in communication with the concentrate or matte burner 1 of the suspension smelting furnace 2.

(29) The arrangement comprises a filling valve 7 between the fluidization arrangement 3 and the dosing bin 4 for opening and closing the communication between the fluidization arrangement 3 and the dosing bin 4 and wherein the filling valve 7 is configured to open valve when the weight of the fluidized fine-grained matter in the dosing bin 4 goes below a pre-set low limit, and by subsequently to close the filling valve 7 when the weight of the fluidized fine-grained matter in the dosing bin 4 goes above a pre-set high limit.

(30) The arrangement comprises an impact cone 8 arranged below the filling valve 7 for distributing fluidized fine-grained matter flowing from the fluidization arrangement 3 within the dosing bin 4.

(31) In the arrangement, the impact cone 8 may be supported from the filling valve 7, preferably at a body structure of the filling valve 7.

(32) In the arrangement, the impact cone 8 may be supported from the filling valve 7 and the cone may be arranged below the half of the height of the dosing bin 4.

(33) In the arrangement, the impact cone 8 may be supported from the filling valve 7 and the impact cone 8 may be supported by means of a metal support structure 9 such as a steel support structure that is attached to a body structure of the filling valve 7.

(34) In the arrangement, the impact cone 8 may be supported from the filling valve 7 and the impact cone 8 may be hanged by metal wires such as steel wires or by metal chains such as steel chains at a body structure of the filling valve 7.

(35) The arrangement may comprise recording means 10 for recording the actual filling time for filling the dosing bin 4, wherein the actual filling time is the time starting from opening of the filling valve 7 and ending by closing of the filling valve 7, and by comparing means 11 for comparing the recorded the actual filling time and a standard filling time for filling the dosing bin 4.

(36) If the arrangement comprises such recording means 10 and such comparing means 11, the fluidization means of the arrangement may be configured to increase fluidization of the fine-grained matter if the recorded filling time is longer than the standard filling time.

(37) If the arrangement comprises such recording means 10 and such comparing means 11, the fluidization means of the arrangement may be configured to decrease fluidization of the fine-grained matter or to quit fluidization of the fine-grained matter if the recorded filling time is shorter that the standard filling time.

(38) If the arrangement comprises such recording means 10 and such comparing means 11, the comparing means 11 may be configured to use as the standard filling time a pre-determined filling time.

(39) If the arrangement comprises such recording means 10 and such comparing means 11, the arrangement may additionally comprise calculating means for calculating an average filling time of several recorded actual filling times and the comparing means 11 may be configured to use as the standard filling time this calculated average filling time.

(40) It is apparent to a person skilled in the art that as technology advances, the basic idea of the invention can be implemented in various ways. The invention and its embodiments are therefore not restricted to the above examples, but they may vary within the scope of the claims.