Title of Invention

DRY MECHANICAL CONVEYOR PLANT FOR PYRITES AND COAL DUST

Abstract The present invention is about a conveyor plant for pyrites, other foreign materials like metal parts and occasionally ground solid fossil fuel, coming from the grinding mills of the solid fossil fuel, substantially comprising an open or enclosed metal container (1) inside which a metal conveyor belt (6) is disposed. The conveyor receives the material to be conveyed from the pyrites storage tanks (2) of each mill, through interception valves (3) and vibrating feeders (4) or directly from gravity discharge channels. Any spontaneous ignition of the conveyed material is controlled by a putting out system with water nozzles (17) or inert gas or steam admission nozzles (18) according to the plant configurations. The pyrites and the ground solid fossil fuel are collected in a stockage silo (16), it too provided with an inert gas or steam putting out system. For the storage tanks (2) a gas or steam inertization system is provided as well.
Full Text The present invention is about a conveyor plant for pyrites, mixed with other foreign materials and occasionally with coal dust coming from the mills for pulverizing solid fossil fuel, able to safely convey these hot materials flammable by spontaneous ignition.
Steam generators fed with solid fossil fuel, such as coal or lignite, require the fuel to be reduced at a predetermined fineness with the purpose to optimize the combustion in the boiler and to increase the energetic efficiency. The pulverization takes place in grinding plants where, by impacts, compression and friction of the mechanical members belonging to the mill grinding assembly, the coal is reduced to the desired granulometry. Then, the so obtained coal dust is conveyed to the boiler through pneumatic conveyors and burners.
In the prior art technique, the foreign and heavier materials present in the coal, such as pyrites, are ejected by centrifugal force from the mill grinding path and they are conveyed, together with a variable quantity of coal dust, to a storage area using hydraulic conveyor systems, in order to avoid the risk of fire or explosions for spontaneous ignition of the coal dust. The amount of coal dust is dependent from the kind of used mills, from the wear of the mechanical members forming the grinding assembly and from any malfunctioning.
The hydraulic systems, as well as uselessly consuming water and polluting it with the coal, have some limits in the conveyance of foreign metal pieces, normally present in the coal, and with the material size. To overcome these limits, grids at the entrance of the system for riddling the material are used, with consequent obstructions due to the need to manually clean said grids.
At present, vacuum pneumatic conveyors are also used, but they have a considerable limit consisting of the material size and the presence of iron pieces, which cause frequent obstructions.
Open rubber conveyor belts have been seldom used, collecting the pyrites from the mills, but, in case of spontaneous ignition of the coal, they can catch fire with flame spreading and catastrophic consequences.
The conveyor plant being object of the present invention removes the
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previously illustrated problems, since it provides for the use of a high temperature resistant metal conveyor belt able to convey the pyrites and the coal dust mixture with a minimum dust dispersion in the environment. The plant is provided with sensors able to detect any combustion and to activate a proper putting out system. The conveyor plant consists of an open or enclosed metal container in which a metal belt conveyor is installed, storage tanks positioned under the coal pulverization mills and a final stockage silo. The storage tanks which feed the metal belt conveyor have the purpose to isolate the coal pulverization mill from the downstream metal conveyor, during the loading and unloading operations. This separation is performed through a pair of valves upstream and downstream each storage tank.
The whole conveyor plant is provided with a fire prevention system to put out any combustion of the coal dust both on the metal conveyor belt and in the closed tanks. The combustion detection is performed through properly positioned sensors, which control the gas inertization for the closed areas and the water inertization for the conveyor belt. In case the conveyor belt is completely enclosed, the ineirtization can be performed with inert gas or steam.
The water fire prevention system is preferably positioned near the conveyor unloading point, in order to affect all the material conveyed to the stockage silo.
In case the conveyor is open, the metal belt is provided with restraining side boards to avoid the dust dispersion in the environment; the bottom of the metal conveyor is provided with openings, and a proper collecting channel of the putting out water is disposed beneath said conveyor.
In particular configurations of the conveyor plant, the metal conveyor can be provided with a fines recovery system, it too optionally provided with inertization nozzles, with water that can be conveyed to a proper collecting point by said recovery system.
The layout of the plant could provide, downstream the metal conveyor, for a pneumatic conveyor of the pyrite mixture to the stockage silo. In this embodiment an iron removal system, to eliminate the ferrous material present in the pyrites mixture, and a grinding system, to reduce the size of the pyrite mixture and to make it suitable for being pneumatically conveyed, are placed downstream the metal conveyor.
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The innovative characteristics, objects and advantages of the present invention will be better highlighted in the following description and in the accompanying drawings, illustrating embodiments given in a not limiting way, in which:
Figure 1 is a schematic side view of the conveyor plant, wherein the conveyance to the stockage silo is exclusively mechanical;
Figure 1bis is a schematic side view of the conveyor plant, wherein the conveyance to the stockage silo is mechanical and pneumatic;
Figure 2 is a schematic view of the metal conveyor belt provided with plates 9, screws 8, steel woven belt 7 and bearing rollers 10;
Figure 3 is a schematic view of the metal conveyor belt showing the traction 12 and return 13 drums and the upper 10 and lower 11 bearing rollers;
Figure 4 is a schematic view of the cross section of the conveyor assembly in case of not completely closed machine ("a" configuration);
Figure 5 is a schematic view of the cross section of the conveyor assembly in case of completely closed machine ("b" configuration);
Figure 6 is a schematic view in "a" configuration of the disposition of the fire prevention system nozzles 17 and the sensors 19 for controlling the combustible gas temperature and/or concentration on the conveyor belt 6;
Figure 7 is a schematic view in "b" configuration of the disposition of the inert gas or steam adduction system nozzles 18 and the sensors 19 for controlling the combustible gas temperature and/or concentration inside the metal container 1;
Figure 8 is a schematic cross sectional view of the conveyor provided with fines recovery system, in "b" configuration; and
Figure 9 is a schematic view of the explosion protection safety door 20 in case of "b" configuration metal conveyor.
It should be pointed out that the same reference numbers in the different
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Figures indicate the same or equivalent parts.
The present invention is related to a conveyor plant for pyrites, foreign materials like metal parts and occasionally ground coal, all coming from the fuel grinding mills used by power plants.
The metal belt handling element, made of steel and inserted into an open or enclosed metal container 1, essentially consists of a belt conveyor 6 comprising a belt 7 woven with a special steel, to which a set of mutually partially overlapping steel plates 10 is fastened through screws 8, forming a tight conveyor channel for the material. Said conveyor is supported by upper smooth rollers 10 and lower bearing rollers 11. The torque is transmitted by friction through a traction drum 12 and an opposite return drum 13, provided with a tensioning device 14.
Upon the application of the force exerted by the tensioning system 14, a pressure increase is obtained in the overlapping area of the plates 9, causing a better tight between the plates 9 which avoids losses of material, even of small size.
Alternatively, the steel conveyor suitable for conveying hot materials can also be of supporting plates type, with traction chains driven by sprockets.
The metal belt conveyor 6 receives the pyrites 15, coming from the storage tanks 2 downstream the mills (not shown in the drawings), when the interception valve 3 is opened and the interception valve 21 is closed. When the position of the two valves is inverted, the storage of the material in the tank 2 takes place.
The pyrites 15 collected in the storage tanks 2, outgoing from the interception valve 3, are loaded on the metal conveyor belt 6 through a proportioner 4.
The conveyor can have two different configurations:
• "a" configuration - the metal container inside which the metal conveyor
is installed is provided with openings that put in communicaton the
interior of the container with the external environment;
• "b" configuration - the metal container inside which the metal conveyor
is installed is completely closed.
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Subsequently, the material 15 is conveyed to the predetermined stockage area 16, and this operation can be performed with a mechanical (Figure 1) or a mechanical and pneumatic (Figure 1b) conveyor.
In case of mechanical and pneumatic conveyor, an iron removal system 25, to eliminate the ferrous material present in the pyrites mixture 15, and a grinding system 25, to reduce the material size in order to make it suitable for being pneumatically conveyed, are provided downstream the metal conveyor 6.
In "a" configuration, the metal belt is provided with restraining side boards 23, to avoid the dust dispersion in the environment. In this configuration, in order to put out any combustion of the coal dust conveyed on the metal belt 6 together with the pyrites 15, temperature control sensors 19 are installed into the metal container 1, controlling a putting out system consisting of water injection nozzles 17.
To discharge the putting out water, the conveyor bottom can be provided with openings beneath which a proper collecting channel is disposed.
In "b" configuration, the admission of inert gas or steam in the metal container 1 through proper injection gates 18, driven by properly positioned sensors 19, is provided for putting out the combustion.
The inertization with inert gas or steam is also provided for the storage tanks 2 and the stockage silo 16 in any plant configuration.
In "b" configuration, the metal container 1 is provided with proper safety doors 20, with automatic opening in case of explosion, in order to assure the structure protection from the pressure increase due to an explosion.
In particular embodiments of the conveyor plant, the metal belt conveyor 6 can be provided with a recovery system 24 of the fines from the metal conveyor bottom. Such recovery system 24 is positioned in the area underlying the return stretch of the metal conveyor belt 6 and it can be provided with water nozzles 17.
The water used during the putting out phase can be conveyed by the same recovery system to the collecting channel.
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It is evident that several modifications, adjustments, additions, variations and replacements of elements with functionally equivalent others could be made to the embodiments described hereinbefore with illustrative and not limiting purpose, without falling outside the scope of protection defined in the appended claims
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WE CLAIM:
1. A conveyor plant consisting of a conveyor for safely handling pyrites, coal dust
and other foreign materials (15) coming from the mills for the pulverization of solid
fossil fuel, comprising a set of storage tanks (2), one for each mill, an enclosed or
open metal container (1), inside which a high temperature resistant metal conveyor
belt (6) not allowing the propagation of any fire is disposed, and a stockage silo (16),
characterized in that the storage tanks (2), the metal container (1) and the stockage
silo (16) are provided with a combustion detection sensor system (19) which controls
the admission of inert gas (18) or water (17) according to the plant configuration.
2. The conveyor plant according to claim 1, characterized in that the conveyance
of the pyrites mixture (15) to the stockage silo (16) can be performed by an
exclusively mechanical conveyor or by a mechanical and pneumatic conveyor, upon
the elimination of the ferrous material, through an iron removal system (25), and the
size reduction, through a grinding system (26).
3. The conveyor plant according to claim 1, characterized in that the putting out
system of any combustion can be provided with water admission nozzles (17)
actuated by the sensors (19), in case the metal container (1) is in communication
with the external environment, or with inert gas or steam admission nozzles (18), in
case the metal container (1) is closed.
4. The conveyor plant according to claim 3, characterized in that it is provided
with restraining side boards (23) for the material along the entire length of the
conveyor, in order to reduce the dust dispersion in the surrounding environment.
5. The conveyor plant according to claim 1, characterized in that a fines recovery
system (24) can be installed inside the metal container (1), in order to keep clean the
bottom of the container (1) from deposited material dust, conveying it to the
unloading area (6).
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6. The conveyor plant according to claim 5, characterized in that the fines recovery system (24) can be provided with water nozzles (17) actuated by proper sensors (19), in order to put out any combustion of the coal dust.

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The present invention is about a conveyor plant for pyrites, other foreign materials like metal parts and occasionally ground solid fossil fuel, coming from the grinding mills of the solid fossil fuel, substantially comprising an open or enclosed metal container (1) inside which a metal conveyor belt (6) is disposed. The conveyor receives the material to be conveyed from the pyrites storage tanks (2) of each mill, through interception valves (3) and vibrating feeders (4) or directly from gravity discharge channels. Any spontaneous ignition of the conveyed material is controlled by a putting out system with water nozzles (17) or inert gas or steam admission nozzles (18) according to the plant configurations. The pyrites and the ground solid fossil fuel are collected in a stockage silo (16), it too provided with an inert gas or steam putting out system. For the storage tanks (2) a gas or steam inertization system is provided as well.

Documents:

00252-kolnp-2007-correspondence-1.1.pdf

00252-kolnp-2007-correspondence-1.2.pdf

00252-kolnp-2007-correspondence-1.3.pdf

00252-kolnp-2007-drawings-1.1.pdf

00252-kolnp-2007-form 1-1.1.pdf

00252-kolnp-2007-form 26.pdf

00252-kolnp-2007-form 3-1.1.pdf

00252-kolnp-2007-form 5-1.1.pdf

00252-kolnp-2007-form-18.pdf

00252-kolnp-2007-international search report.pdf

00252-kolnp-2007-priority document.pdf

0252-kolnp-2007-abstract.pdf

0252-kolnp-2007-claims.pdf

0252-kolnp-2007-correspondence others.pdf

0252-kolnp-2007-description (complete).pdf

0252-kolnp-2007-drawings.pdf

0252-kolnp-2007-form1.pdf

0252-kolnp-2007-form2.pdf

0252-kolnp-2007-form3.pdf

0252-kolnp-2007-form5.pdf

0252-kolnp-2007-international publication.pdf

0252-kolnp-2007-international search authority report.pdf

252-KOLNP-2007-(03-02-2012)-ABSTRACT.pdf

252-KOLNP-2007-(03-02-2012)-AMANDED CLAIMS.pdf

252-KOLNP-2007-(03-02-2012)-CORRESPONDENCE.pdf

252-KOLNP-2007-(03-02-2012)-DESCRIPTION (COMPLETE).pdf

252-KOLNP-2007-(03-02-2012)-FORM 1.pdf

252-KOLNP-2007-(03-02-2012)-FORM 2.pdf

252-KOLNP-2007-(03-02-2012)-OTHERS.pdf

252-KOLNP-2007-(19-12-2011)-CORRESPONDENCE.pdf

252-KOLNP-2007-(19-12-2011)-OTHER PATENT DOCUMENT.pdf

252-KOLNP-2007-AMANDED CLAIMS.pdf

252-KOLNP-2007-CORRESPONDENCE.pdf

252-KOLNP-2007-DESCRIPTION (COMPLETE)-1.1.pdf

252-KOLNP-2007-DRAWINGS-1.1.pdf

252-KOLNP-2007-EXAMINATION REPORT REPLY RECIEVED.pdf

252-KOLNP-2007-EXAMINATION REPORT.pdf

252-KOLNP-2007-FORM 1-1.1.pdf

252-KOLNP-2007-FORM 18.pdf

252-KOLNP-2007-FORM 2-1.1.pdf

252-KOLNP-2007-FORM 26.pdf

252-KOLNP-2007-FORM 3-1.1.pdf

252-KOLNP-2007-FORM 3-1.2.pdf

252-KOLNP-2007-FORM 5.pdf

252-KOLNP-2007-GRANTED-ABSTRACT.pdf

252-KOLNP-2007-GRANTED-CLAIMS.pdf

252-KOLNP-2007-GRANTED-DESCRIPTION (COMPLETE).pdf

252-KOLNP-2007-GRANTED-DRAWINGS.pdf

252-KOLNP-2007-GRANTED-FORM 1.pdf

252-KOLNP-2007-GRANTED-FORM 2.pdf

252-KOLNP-2007-GRANTED-LETTER PATENT.pdf

252-KOLNP-2007-GRANTED-SPECIFICATION.pdf

252-KOLNP-2007-INTERNATIONAL PRELIMINARY EXAMINATION REPORT.pdf

252-KOLNP-2007-INTERNATIONAL SEARCH REPORT.pdf

252-KOLNP-2007-OTHERS-1.1.pdf

252-KOLNP-2007-OTHERS.pdf

252-KOLNP-2007-REPLY TO EXAMINATION REPORT.pdf

252-KOLNP-2007-TRANSLATED COPY OF PRIORITY DOCUMENT.pdf

abstract-00252-kolnp-2007.jpg


Patent Number 254092
Indian Patent Application Number 252/KOLNP/2007
PG Journal Number 38/2012
Publication Date 21-Sep-2012
Grant Date 18-Sep-2012
Date of Filing 22-Jan-2007
Name of Patentee MAGALDI POWER S.P.A.
Applicant Address VIA IRNO,216, I-84135 SALERNO
Inventors:
# Inventor's Name Inventor's Address
1 MAGALDI, MARIO VIALE DEL BOSCO,22, I-84100 SALERNO
PCT International Classification Number F23K3/00
PCT International Application Number PCT/EP2005/008383
PCT International Filing date 2005-08-01
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 MI2004A001632 2004-08-06 Italy