Furnaces – Process – Incinerating refuse
Reexamination Certificate
2002-09-05
2004-05-11
Rinehart, Kenneth B (Department: 3749)
Furnaces
Process
Incinerating refuse
C110S262000
Reexamination Certificate
active
06732665
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a method for producing thermal energy from small-grained oilseeds, preferably from rapeseed. The invention also relates to an arrangement for the implementation of such a method.
It is already known from prior art that rapeseed oil produced by pressing the seeds can be burned and that the resulting thermal energy can be utilized. However, such a production of rapeseed oil requires a separate operation, which means that such a method is cost-intensive. Furthermore, the hulls of the seeds, which remain after pressing, must be removed separately, for example by incinerating them in special burners.
An arrangement for producing thermal energy is known from U.S. Pat. No. 5,249,952, which shows combustion air supply lines which lead into several combustion chambers arranged in succession. One of these combustion chambers has a feed line for liquid and/or gaseous combustible substances and a feed line for solids, which can be admixed during the combustion process in this combustion chamber. To start the combustion process, it is provided with a sparkplug which can ignite an oil that is being supplied. With this known arrangement, it is not possible to bum the unreduced seeds of oil crops without an additional supply of liquid and/or gaseous fuels.
SUMMARY OF THE INVENTION
It is an object of the present invention to avoid the above-mentioned disadvantages and to create a method and an arrangement for producing thermal energy from small-grained oilseeds, preferably from rapeseed, with which the seeds can be burned without the need of prior processing. To achieve this objective, the invention proposes a method in which the combustion space of a combustion chamber is first preheated, and in which unreduced seeds and combustion air are supplied in controlled amounts, after which the preheating ends and a pressure of at least 2 bar is maintained in the combustion space, whereby the subsequently supplied oilseeds burn explosively, and the resulting flame exits through a flame exit opening.
It has been found that after the seeds fed in first have ignited due to the temperature in the preheated combustion space, the seeds fed in subsequently are burning explosively in a chain reaction if the combustion air is delivered in controlled amounts as needed, and if the required pressure is maintained in the combustion space. It is not necessary to process the seeds before they are fed into the combustion space, which means a considerable simplification of the method and a reduction in cost. It is sufficient only to ensure a continuously controlled supply of seeds into the combustion space, preferably individually in succession.
Preferably, the combustion space of a combustion chamber is preheated to a temperature between 500° C. and 1250° C., for example, to a temperature of c. 1000° C. This temperature ensures the ignition of the seeds fed into the combustion space first, and the preheating process can be ended after such ignition.
An uninterrupted chain reaction during the explosive combustion of the seeds is ensured if a pressure between 2 bar and 13 bar is maintained in the combustion chamber; the maximum values of pressure represent peak values which occur during the explosion of the seeds.
Preferably, the seeds of the oil crops fed in are forced to perform a spiral movement in at least one section of the combustion space, which prolongs their retention time in the combustion space and thus ensures the complete combustion of all the seeds fed in.
It is furthermore an advantage if the volume of the combustion space is variable, so that the pressure existing in the combustion space can be controlled as well and can be adapted to the requirements, especially in the starting phase during the preheating process.
An arrangement for implementing the method according to the invention is characterized substantially by a combustion chamber with a combustion space in which a disconnectible preheating device, such as an oil burner, is provided, leading into which are a feed line for feeding in the oilseeds and at least one combustion air supply line, and which is provided with a flame exit opening, whereby devices for maintaining a pressure in the combustion space are provided. In such an arrangement, the seeds are fed in controlled amounts through the feed line into the combustion space, where they are explosively burned after initial ignition due to the temperature following preheating, while the required amount of combustion air is present and while the required pressure is maintained, whereby the resulting flame exits from the flame exit opening and delivers its heat energy.
If the oilseeds are fed in through the feed line and the required combustion air is delivered through the combustion air supply line with positive pressure, a pressure drop can be prevented in the combustion space. However, to ensure that the arrangement according to the invention operates satisfactorily, it is advantageous when, according to a further embodiment of the invention, the required pressure in the combustion space is maintained by means of pressure control devices provided in the feed line for feeding in the seeds and/or in the area of the flame exit opening.
It is practical when a controllable proportioning device is provided in the feed line for feeding in the oilseeds, which not only adapts the amount of fed-in seeds to the combustion process, but can also be designed as a pressure control device.
In a preferred embodiment of the arrangement according to the invention, the combustion space consists of an interior tube and an exterior casing which surrounds the interior tube with clearance and communicates with the interior tube. This results in a design which, in spite of its compact size, ensures the required retention time of the oilseeds in the combustion space.
In such an embodiment, it is an advantage if the feed line for feeding in the seeds leads into the interior tube in which the disconnectible preheating device is arranged, and if the flame exit opening is provided in the exterior casing. In that case, the oilseeds are first fed through the feed line into the interior tube, which was heated by the preheating device to a temperature at which the initial ignition takes place. Subsequently, the preheating device can be disconnected, since the temperature required for igniting the individual seeds is maintained by the combustion process. The oilseeds fed into the interior tube pass through the interior tube into the exterior casing, which communicates with the interior tube, where afterburning occurs until finally the resulting flame exits through the flame exit opening. Due to the fact that the feed line leads into the interior tube and thus penetrates the space defined by the exterior casing where afterburning occurs, the seeds are already heated in the section of the feed line which penetrates the space before the seeds enter the interior tube, thus promoting the combustion process in the interior tube.
It has been found advantageous to provide the interior wall of the interior tube with a spiral recess, whereby the feed line preferentially leads tangentially into the interior tube. This design forces the oilseeds fed into the interior tube to perform a spiral movement, thus enlarging the path of the seeds inside the interior tube and prolonging their retention time in the interior tube.
As already mentioned, it is advantageous if the volume of the combustion space is variable. For that purpose, according to the invention, a wall of the exterior casing, preferably an end wall that extends perpendicular to the axis of the interior tube, can be of adjustable design. By adjusting the wall, the volume of the combustion space is enlarged when the arrangement according to the invention is started, and the pressure control devices in the area of the flame exit opening also are adjusted in such a way that the low pressure required in the combustion space during the starting process is ensured. After initial ignition has occurred, the volume of the combustion spac
Rinehart Kenneth B
Townsend and Townsend / and Crew LLP
LandOfFree
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