Arrangement for recovering heat of hot material ,particularly, liquid blast furnace slag or hot coke

专利摘要:
The invention relates to a device for recovering heat from a hot material, preferably liquid blast furnace slag or hot coke, and makes it possible to increase efficiency. The device comprises an endless conveyor (T / 1) mounted on driving and driven wheels 4 and 5, formed of supporting plates / LF / connected to each other, and means for cooling located above the upper and lower branches T. The T is equipped with heat insulating plates, located on the upper branch under the NP. Means for cooling are made in the form of plate-shaped hollow bodies for the passage of a cooling agent connected in series with each other. 5 hp f-ly, 10 ill.
公开号:SU1471957A3
申请号:SU853950412
申请日:1985-09-05
公开日:1989-04-07
发明作者:Хулек Антон
申请人:Фоест-Альпине Аг (Фирма)；
IPC主号:

专利说明:

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The invention relates to a device for recovering teppe of a hot material, preferably liquid blast furnace slag or hot coke.
The purpose of the invention is to increase the efficiency of the device.
FIG. 1 depicts the device, communities view; in fig. 2 - node I on
FIG. one; in fig. 3 shows the node II in FIG. 1 in FIG. 4 - the device, side view; in fig. 5 is a section A-A in FIG. 4; in fig. 6 shows a device with concave guides on the upper branch; Fig, 7 - the second version of the device with wavy carrier plates; in fig. 8 shows the node III in FIG. 7; in fig. 9 - node IV in FIG. 7; FIG. FIG. 10 shows a device for cooling coke.
The device contains an endless conveyor 1, formed pivotally connected with each other by elements or links of a chain 2, on which elements 3, having a trough shape in cross-section, are attached to Hecynpie. The conveyor belt is guided by two guides, the driving and driven wheels 4 and 5, one of which 4, located closer to the loading device 6, has its own drive. Both the upper and lower conveyor belts pass through cooling zones 7 and 8, in which cooling means 9 and 10 are installed, connected in series with each other, through which the cooling agent passes. Means 9 and 10 dp cooling are made in the form of hollow
plate bodies,
; A cooling medium, preferably water, which is first heated as it passes through the cooling zone 8 of the lower branch, flows through the cooling zone 7 of the upper branch, making a closed thermodynamic cycle. Occurs after passing through the cooling zone 7 in the upper conveyor from the cooling medium
the steam is supplied to the turbine 11, which drives the generator 12, the steam expanded in the turbine is fed to the condenser 13. The cooling liquid coming out of the condenser enters the tank 14 with the deaerator. By means of the pump 15 water is supplied again from the tank to the cooling zone 8 of the lower branches.
The design of the hot material receiving elements 3 is shown in 4, 2, 4 and 5. The elements 3 are made of supporting plates 16 that are in direct contact with the hot material. Under the plates 16, heat-insulating plates 17 are located. The carrier plates and heat-insulating plates are attached to the lower base of the chain links 2 by means of spring-loaded, pre-stressed and turning clamp bolts
18, whereby the plates, despite thermal expansion and thermal loads, do not buckle over a long period of time and remain flat. To prevent thermal loads, round grooves (not shown) are provided in the carrier plates 16. Insulating plates 17 can be made in the form of a single or multi rigid rigid grate.
In order to prevent the penetration of hot material between two adjacent carrier plates 16, one of them has a closing bar
19, underneath the adjacent plate.
Since the drive wheel 4 installed at the boot device is driven, the chain link 2 and with it the heat accumulating plates 16 are moving along the cooling zone 7 of the upper branch, thereby preventing the formation of a gap between adjacent storage plates taking place at the hinge of the 20 elements of the chain 2. In order to exclude any slot at the loading device 6 (Fig. 6), the conveyor 1 is directed downward along the concave guides,
A snug fit of the storage plates 16 to each other can be achieved by connecting the plates with bolts 21 located in the longitudinal holes loaded with a spring, with which the adjacent plates are pressed against one another (Fig. 4),
Installed along the cooling zone 8 of the lower branch of the conveyor 1 (Fig. 3), the cooling tool 10 dp is formed by plate bodies located near each other — cooling plates 22, through which the cooling medium passes, to the upper side 23 of which the accumulator plate 16 adjoins. Hot material the storage plate 16 is thus immersed due to sliding contact with the cooling plates 22, which mainly consist of cast iron. Back-cooling is thus carried out by removing heat without an intermediate medium.
In order to ensure good contact between the cooling plates 22 and the plates 16 of the conveyor 1, the cooling plates are mounted on the foundation with the help of a spring 24 (FIGS. 6 and 7).
The device works as follows.
Hot material, such as blast furnace slag, is poured onto conveyor 1. 111 lac settles within a few seconds due to the high heat capacity of the heat accumulating plates 16. The solidifying slag transfers its heat both to the cooling means 9 located along the upper branch and to the accumulating plates 16 Heating of accumulating plates depends on the ratio of the thickness of the accumulating plates and the layer of loaded hot material. The heat storage plates are heated to approximately 600 ° C.
At the end of the upper branch, the slag is already completely solidified and, due to heat loads, becomes very brittle and cools to approximately 800 ° C compared to the temperature of 1400 ° C that it has in the charging device 6. Bree has passed through the coolant; contact with the cooling plates 22, heat-accumulating rmacines 16 are cooled to 400-300 C.
The cooling medium when it enters the cooling plates 22 of the cooling zone 8 of the lower branch has a temperature of about 100 ° C and leaves the last oh) the lower plate 22 of the lower branch, having a temperature of about 210 ° C at a pressure of 200 bar and heats up to 300 ° C along the upper branch .
With the help of heat insulating plates 17 heat losses are largely eliminated. Bearing the bottom structure - the frame 26 is made in the form of a box, it is not subjected to significant thermal loads and therefore does not warp. The box-shaped frame also ensures that the storage plates 16 are also not boxed, which results in good contact with the cooling plates 22.
In the same way that physical heat from blast-furnace slag is obtained, it is possible to obtain 4H heat.
35
40
that from other hot materials, which as waste occur in the metallurgical industry. To harden LD slags (Linz-Domawicz), a high cooling rate is not required, as a result of which it is possible to refuse heat storage plates with a high heat capacity and the carrier plates 16 to be made of a relatively thin heat-resistant sheet metal. This heat-resistant sheet metal is predominantly wavy (Figs. 8 and 9), it is about 4 mm thick. In this case, the cooling elements of the denier of the conveyor belt 1 at the second, plate 22 in the cooling zone 8 cooled
the driven wheel 5, the slag is automatically along the lower branch, as a result, it can be disassembled and can be crushed by the elements of the cooling zone 7
using a crusher with a toothed roll-along the upper branch, i.e. obtained 25 (Fig. 6), having a small power FROM thin sheet metal - plates 16, heat is given sludge of the lower branch by emitting a cooling medium, while the intermediate medium is not used for heat transfer.
drive for further use.
The hot material storage plates 16 are freed mechanically cleaned, if necessary, and lightly smeared with graphite powder or the like so that they slide well along the bottom mounted along the cooling zone 8.
the branches are cooled; giving ppastnnam 22. Due to the contact with the cooling plates 22, the heat-accumulating r-masses 16 are cooled to 400-300 C.
The cooling medium at its entrance into the cooling plates 22 of the cooling zone 8 of the lower branch has a temperature of about 100 ° C and leaves the last cooling plate 22 of the lower branch, having a temperature of about 210 C at a pressure of 200 bar and along the upper branch is heated to 300 ° C.
By means of heat insulating plates 17, heat losses are largely eliminated. Bearing the bottom structure - the frame 26 is made in the form of a box, it is not subjected to significant thermal loads and therefore does not warp. The box-shaped frame also ensures that the storage plates 16 are also not boxed, which results in good contact with the cooling plates 22.
In the same way that physical heat from blast-furnace slag is obtained, it is possible to obtain 4H heat.
that from other hot materials, which as waste occur in the metallurgical industry. To harden LD slags (Linz-Domawicz), a high cooling rate is not required, as a result of which it is possible to refuse heat storage plates with a high heat capacity and the carrier plates 16 to be made of a relatively thin heat-resistant sheet metal. This heat-resistant sheet metal is predominantly wavy (Figs. 8 and 9), it is about 4 mm thick. In this case, the cooling elements along the upper branch, i.e. received
FROM the thin sheet metal plate 16, heat is given off from the lower branch by radiating to a cooling medium, and no intermediate medium is used to transfer heat.
In order to avoid the backflow of the liquid hot liquid when it is loaded on. tratimor - op 1, its branch (fig. 6) in front of - (a1-p -homg device 6 HanpaiviHioT: light
514
decrease and only then it rises slightly.
The device can be used for dry quenching of coke; in this case, the heat released from the S5COM quenching of coke can be recovered. The embodiment provided for this is shown in FIG. 10, the conveyor itself and zones 7 and 8 of cooling are basically the same, as in FIG. 1. Hot coke loaded with a thin layer, which approximately corresponds to the diameter of the largest piece of coke, is transported on the conveyor in the cooling zone along the upper branch. During this transportation, the red-hot coke radiates its heat up to the cooling means 9 and down to the heat storage plates 16 of the conveyor 1. In order to avoid further combustion during the transportation of coke on the upper branch OR gas explosion, the cooling zone is placed in the through tunnel 27, in which Nitrogen or other gas similar in effect. The inlet 28 to the tunnel and the outlet 29 from the tunnel are closed by labyrinth seal 30 so that the minimum nitrogen overpressure is sufficient and the amount of nitrogen outgoing from the tunnel at inlet 28 and outlet 29 is very small.
After the coke leaves the through tunnel, the coke is cooled so that it cannot be further combusted upon contact with air. Since it is necessary to carry out the subsequent cooling of the coke, it can be carried out using air, a lamellar tape or a vibro-groove.
The advantage of the proposed device with dry quenching of coke compared to wet is that much of the heat can be obtained, coke losses are eliminated due to the entrapment of small coke grains with steam and the environment of coke dust, gases and steam are not polluted.
b

权利要求:
Claims (6)
[1]
1. A device for recovering heat from a hot material, mainly liquid blast furnace slag or hot coke, containing an endless conveyor mounted on driving and driven wheels, made up of plates fixed to one another and fixed on a frame and guided rails, and means for cooling equipped with pipes for inlet and outlet cooling
agent located above the upper and below the lower branches of the conveyor, characterized in that, in order to increase the efficiency of the device, the conveyor is equipped with heat insulating plates arranged under the supporting plates and rigidly connected with them, the means for cooling H11 are filled in the form of hollow lamellar bodies to pass cooling
agent connected in series.
[2]
2. The device according to claim 1, that is, with the fact that the upper
the surfaces of the hollow lamellar bodies, installed under the lower branch of the conveyor, are made smooth; the indicated Hbie plates are installed on the base by means of springs to ensure contact with the carrier plates.
[3]
3. The device according to paragraphs. 1-2, characterized in that the frame is made in the form of a box.
[4]
4. Device on PP. 1-3, as such, 4550 supporting and heat insulating plates are installed on the frame by means of przpkin and bolts.
[5]
5. The device according to PP. 1-4, characterized in that the guide rails on the upper branch of the conveyor are made concave.
[6]
6. The device according to PP. 1-5, which is distinguished by the fact that holes are made in the heat insulating plates.
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23
FIG. 3
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FIG. b
eight
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引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

US1626292A|1920-10-23|1927-04-26|Lund Joel|Process of and apparatus for making of fluxing materials|

---

US2286078A|1939-01-31|1942-06-09|Holland & Hannen And Cubltts L|Foaming or granulating molten material|

---

DE902130C|1949-04-28|1954-01-18|Franz Hartmann|Method and device for extinguishing coke|

---

DE1508039C3|1951-01-28|1974-12-12|Knapsack Ag, 5033 Huerth-Knapsack|

---

DE1253669B|1963-01-05|1967-11-09|Didier Werke Ag|Device for extinguishing coke|

---

US3517164A|1968-07-22|1970-06-23|Addressograph Multigraph|Image fusing assembly|

---

JPS52132454A|1976-04-28|1977-11-07|Hitachi Zosen Corp|Recovery method for exhaust heat slag|

---

JPS5630467B2|1976-07-19|1981-07-15|

---

AT355398B|1978-04-04|1980-02-25|Voest Alpine Ag|CONVEYOR|

---

DE2831473A1|1978-07-18|1980-01-31|Polysius Ag|HIKING GRID COOLER|

---

JPS6134072B2|1981-01-30|1986-08-05|Nippon Kokan Kk|DE19721206A1|1997-05-21|1998-11-26|Babcock Kraftwerkstech Gmbh|Device for removing and cooling bed ash from a fluidized bed furnace|

---

DE10004754C1|2000-02-03|2001-08-02|Sollich Kg|Cooling tunnel for confectionery|

---

US7459461B2|2001-10-19|2008-12-02|Ortho-Mcneil Pharmaceutical, Inc.|Phosphonic acid compounds as inhibitors of serine proteases|

---

LU91917B1|2011-12-16|2013-06-17|Wurth Paul Sa|Cold wind generation from slag heat|

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DE102014109762A1|2014-07-11|2016-01-14|Z & J Technologies Gmbh|Heat exchanger and apparatus and method for energy recovery|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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AT0285784A|AT380490B|1984-09-06|1984-09-06|DEVICE FOR RECOVERING THE FEELABLE WARMTH OF SHOETABLE HOT MATERIAL|

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