This invention relates generally to the field of manufacturing cement clinker, and in particular to a method and apparatus for introducing materials into a rotary kiln.
The present invention is directed to an apparatus for introducing a material into a kiln. The apparatus comprises a movable vessel for supporting the material, a discharge gate supported by the vessel, an actuable vessel cover, and an air injection system. The vessel comprises an open top and an open base. The vessel is movable between a collection position and a discharge position. The discharge position is adjacent to and substantially above the kiln. The discharge gate is movable between an open position and a closed position, such that the gate prevents discharge of the material from the vessel when the vessel is moved from the collection position to the discharge position. The actuable vessel cover is adapted to cover the open top of the vessel when the vessel is in the discharge position. The low pressure air injection assembly is supported by the vessel cover and adapted to force discharge of the material through the open base, the discharge gate and through the kiln opening.
The present invention further includes a method for introducing a material into a rotary kiln system. The system comprises a rotary kiln having a kiln opening and a vessel disposed at a discharge position above the rotary kiln. The vessel comprises an open top, an open base and a discharge gate. The method comprises providing the material into the vessel through the open top of the vessel, maintaining the material within the vessel with the discharge gate, opening the discharge gate, and supplying low pressure air to the vessel such that the material is discharged through the open base and through the kiln opening.
Further still, the present invention includes a kiln system for the manufacture of cement. The kiln system comprises a rotary kiln having a sidewall, an opening formed in the sidewall of the rotary kiln, a movable vessel, a discharge gate supported by the vessel, an actuable vessel cover, and a low pressure air injection system. The kiln opening is adapted for the introduction of a material into the rotary kiln. The movable vessel supports the material and comprises an open top and an open base. The vessel is movable between a collection position and a discharge position. The discharge gate is supported by the movable vessel and movable between an open position and a closed position, such that the gate prevents discharge of the material from the vessel when the gate is in the closed position. The actuable vessel cover is adapted to cover the open top of the vessel when the vessel is in the discharge position. The low pressure air injection assembly is supported by the vessel cover and adapted to force discharge of the material through the open base of the vessel, the discharge gate and the opening formed in the sidewall of the kiln.
Turning now to the drawings in general, and in particular to
Cement clinker kiln systems 10 operate at extremely high temperatures sufficient to dispose of various materials having different compositions. These materials may comprise raw materials, waste materials, or alternative sources of fuel. The use of alternative fuels and alternative raw materials reduces the demand for primary fuels and raw materials thereby decreasing manufacturing costs. Accordingly, the cement industry has developed systems and methods for introducing these materials into kiln systems 10. However, there remains a need for improved system for delivering such materials into kiln systems 10.
The kiln system 10 shown in
Referring still to
The kiln opening 22 supports a feed chute 28 supported by and transecting the sidewall 24 of the rotary kiln 12. The feed chute 28 is generally elongate and comprises an interior portion 30 and an exterior portion 32. The interior portion 30 of the feed chute 28 extends within the interior 34 of the kiln 12 so that an outlet 36 of the feed chute 28 extends above the in-process raw materials 38 when the kiln opening 22 passes through the bottom of the kiln rotation cycle. The feed chute 28 is generally tubular and sized so that a wide variety of materials are able to pass through the chute and into the interior 34 of the kiln 12. The exterior portion 32 of the feed chute 28 extends beyond the sidewall 24 of the rotary kiln 12 and supports a kiln door assembly 40.
The kiln door assembly 40 is supported on the external portion 32 of the feed chute 28 and adapted to automatically open. A suitable kiln door assembly 40 is disclosed in U.S. Pat. No. 6,676,407 issued to Largent, the contents of which are incorporated herein by reference. However, one skilled in the art will appreciate that any kiln door assembly capable of closing the kiln opening 22 may be used without departing from the spirit of the present invention. The kiln door assembly 40 of
A fuel delivery platform 42 may be disposed adjacent to the rotary kiln 12 to deliver supplemental fuel 26 to the feed chute 28. The fuel delivery platform 42 is adapted to time the release of the supplemental fuel 26 in coordination with opening of the kiln door assembly 40 when the kiln opening 22 is in Position A. The fuel delivery platform 42 is positioned and angled so that the supplemental fuel 26 is gravity fed into the feed chute 28. A fuel delivery platform 42 suitable for delivering supplemental fuel to the kiln opening 22 when the opening is in Position A is described in U.S. Pat. No. 6,234,091, the contents of which are incorporated herein by reference. A generally known conveyor system 44 may be used to move the supplemental fuel 26 from storage (not shown) to the fuel delivery platform 42. The conveyor system 44 and fuel delivery system 42 may be supported adjacent to the kiln 12 using an elevated platform.
With continuing reference to
Referring now to
The collection member 50 is disposed near the collection position of the movable vessel 48 and comprises four sidewalls arranged to form a generally rectangular member having an open top and a closeable bottom 64 (
A transfer chute 66 is disposed under the closeable bottom 64 of the collection member 50 and above the movable vessel 48, when the vessel is in the collection position. As shown in
Referring to
Turning now to
The collection vessel 50, as shown in
The movable vessel 48 may be supported on a rail system 86 running parallel to the longitudinal axis 58 of the kiln 12. Wheels 88 may be operatively connected to the vessel 48 as illustrated in
The actuable vessel cover 90 comprising a plenum box is supported on the rail system 86 above the kiln opening 22. The actuable vessel cover 90 is adapted to cover the open top 54 of the movable vessel 48 when the vessel is in the discharge position. A low pressure air injection assembly 92 is supported by the vessel cover 90 and adapted to force discharge of the material through the open base 56 of the movable vessel 48, the discharge gate 60, and through the kiln opening 22. The construction and function of the movable vessel 48 and the actuable vessel cover 90 will be discussed in more detail herein with reference to
Referring now to
Referring now to
As the kiln rotates further the kiln opening 22 comes into alignment with the discharge position of the movable vessel 48. During rotation of the kiln 12, the supplemental material is transported to the oscillating conveyor 56 using the delivery conveyor 74. The oscillating conveyor 52 is activated to pivot about the pivot axis 78 and place material into the collection member 50 comprising the weigh hopper. Once a predetermined amount of material has been placed into the collection member 30, the closeable bottom 64 opens and the material is gravity fed through the transfer chute 66 and into the movable vessel 48. The movable vessel 48 is filled with an appropriate amount of material and then automatically moved from the collection point to the discharge point along the rail system 86.
Once the movable vessel 48 reaches the discharge point, the actuable vessel cover 90 comprising a plenum box is actuated to pivot downward and cover the open top 54 of the movable vessel. Once the vessel cover 90 is pivoted downward, the low-pressure air injection system 92 is activated to build air pressure within the internal space 94 and on the material. After sufficient air pressure has been achieved within the vessel cover 90, the discharge gate 60 is opened and the material is discharged through the open base 56 and into the kiln 12. The air injection system 92 may comprise a fan 96 (
In observation, materials having a mass of less than thirty-four (34) pounds per cubic foot were released from the movable vessel 48 and observed to travel four (4) feet at, or less than, 0.34 seconds under air pressure of 0.25 pounds per square inch. In contrast, the same materials released from the movable vessel 48 under the force of gravity alone were observed to travel four (4) feet in approximately 0.50 seconds.
The present invention also includes a method for introducing supplemental materials into a rotary kiln system 10. The system comprises the rotary kiln 12 having the kiln opening 22, the vessel 48 disposed at the discharge position above the rotary kiln. The vessel 48 comprises the open top 54 and discharge gate 60. The method comprises providing the supplemental material into the moveable vessel 48 while the vessel is positioned at a collection point below a collection member 50.
The method comprises measuring a predetermined amount of supplemental material into a collection member 50 that may comprise a weigh hopper. The supplemental material is preferably evenly distributed within the collection member. The supplemental material is then transferred via the transfer chute 66 into the movable vessel 48. The supplemental material is maintained within the vessel 48 using the closed discharge gate 60. The vessel 48 is moved along the rail system 86 to the discharge point. Once the vessel 48 arrives at the discharge point, the low pressure system is activated. Sufficient air pressure is achieved when the kiln opening 22 comes into alignment with the movable vessel 48 and the discharge gate 60 is opened. The supplemental material 98 discharged through the open base 56 and through the kiln opening 22 into the kiln 12 where it is combusted or otherwise utilized in the cement manufacturing process.
Various modifications can be made in the design and operation of the present invention without departing from the spirit thereof. Thus, while the principal preferred construction and modes of operation of the invention have been explained in what is now considered to represent its best embodiments, which have been illustrated and described, it should be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically illustrated and described.
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4850290 | Benoit et al. | Jul 1989 | A |
4930965 | Peterson et al. | Jun 1990 | A |
4974529 | Benoit et al. | Dec 1990 | A |
5086716 | Lafser, Jr. | Feb 1992 | A |
5122189 | Garrett et al. | Jun 1992 | A |
5156676 | Garrett et al. | Oct 1992 | A |
5224433 | Benoit et al. | Jul 1993 | A |
5226774 | Tutt et al. | Jul 1993 | A |
5377603 | Reese et al. | Jan 1995 | A |
5549058 | Tutt | Aug 1996 | A |
5632616 | Tutt et al. | May 1997 | A |
5724896 | Koenig | Mar 1998 | A |
5724899 | Reese et al. | Mar 1998 | A |
6050203 | Reese et al. | Apr 2000 | A |
6676407 | Largent | Jan 2004 | B2 |
Number | Date | Country | |
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20070102277 A1 | May 2007 | US |