Measuring and testing – Inspecting
Reexamination Certificate
2002-09-04
2004-09-28
Kwok, Helen (Department: 2856)
Measuring and testing
Inspecting
C073S064530
Reexamination Certificate
active
06796196
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention, in general, relates to an arrangement for defining the carbon content of ash and, more particularly, it relates to an arrangement for defining the carbon content of filter or fly ash provided as a compact fill in collection containers, for instance. While not limited to this field, a preferred field of application of the invention pertains to furnaces of coal-fired power plants. The invention may, however, be advantageously practiced wherever it is necessary or desirable to define the carbon content of compacted ash. In addition to coal-fired power plants, the invention may be practiced in connection with refuse incinerators or operations in which ash is used as an additive.
2. The Prior Art
Defining the carbon content of ash and, more particularly, of filter or fly ash, is necessary for controlling or optimizing combustion processes in order to utilize to the fullest possible extent the energy contained in fuel. It is also important to control the quality of ash used as an additive, for instance, in the construction and cement making industries. In either case, it is desirable to achieve as low a carbon or residual fuel content as possible. Changing load conditions in combustion equipment and different fuel compositions require continuous monitoring of the combustion process. This necessitates defining the residual carbon content of combustion waste either as continuously as possible or periodically at short intervals.
At present, the methods used in combustion equipment of coal-fired power plants usually involve taking samples of ash for subsequent analytical examination in a remote laboratory. Not only are such methods expensive, they also lead to significant delays which for all intents and purposes renders impossible any optimized control of the combustion process.
For that reason, efforts have not been lacking for some time to develop methods and apparatus for defining, in a simple manner, continuously or periodically without delay, the residual carbon content of fly ash. In this connection, methods of evaluating, by distributed electrical parameters, changes in the electrical values of devices for receiving the ash, have been found to be particularly useful. Problems have, however, arisen in connection with the handling or feeding of ash into such devices. The reason for those problems reside in the extremely complex compaction behavior of fly ash.
For instance, German laid-open patent specification 33 03 177 discloses a method and an apparatus for measuring the carbon content of fly ash by evaluating changes in the capacitance of a capacitor into which fly ash is introduced as a dielectric substance. Fly ash is taken from a silo and transferred to a measuring chamber forming the dielectric medium of a capacitor wherein it is compacted by vibration. After the capacitance of the capacitor has been defined, the fly ash is removed from the measuring chamber and returned to the silo. The carbon content of the fly ash is deduced as a function of the electrically measured capacitance of the capacitor. The method may be practiced continuously or periodically; but for attaining useful measurement results a substantially constant average quantity of fly ash in the measuring chamber is required.
Another way of evaluating changes in electrical values has been described in German laid-open patent specification 198 56 870. Ash transported by a pneumatic feed system is conveyed to a microwave resonator. The particle content of the sample is detected by means of an exhaust filter and a light barrier and is brought to predetermined values by a vibrator. In addition, the sample is set to a predetermined temperature. The carbon content is defined in a known manner by a microwave resonance technique. After evaluation, the sample is returned to the pneumatic feed system.
The described methods in accordance with the prior art require complex apparatus for taking, preparing and returning samples. The complexity is owing not least to the extremely poor compacting behavior of the filter or fly ash.
OBJECT OF THE INVENTION
It is an object of the invention to provide a simple arrangement for measuring the carbon content of filter or fly ash by evaluating any change in the electrical parameters of an electrically vibrating device for receiving the ash.
A more particular object of the invention is to provide an arrangement of the kind referred to which avoids any complexity in the taking, preparation and return of samples.
Other objects will in part be obvious and will in part appear hereinafter.
SUMMARY OF THE INVENTION
In accordance with a currently preferred embodiment of the invention there is provided an arrangement for defining the carbon content of ash by evaluating changes in the electrical parameters of an electrically vibrating device wherein the ash is received and which is provided with distributed electrical impedances, means for generating variable frequency electrical vibrations and means for evaluating electrical resonance, wherein the electrically vibrating device for receiving the ash consists of a coaxial resonator modified in its exterior confining wall by at least one intake and output opening for ash, the coaxial resonator being placed in compacted ash such that a representative sample of the ash passes through the interior of the modified coaxial resonator and wherein the modified coaxial resonator is electrically connected to means for generating the variable frequency electrical vibrations and to means for evaluating any electrical resonance.
More particularly, a coaxial resonator modified in its confining wall by at least two openings is placed within compacted ash such that a representative portion of the ash the carbon content of which is to be defined passes through the interior of the coaxial resonator. As well as with means for generating electrical vibrations of variable frequency the modified coaxial resonator is electrically connected to means for evaluating electrical resonances. Preferably, the confining wall of the modified coaxial resonator is configured as a closed metallic arch or bow within which is there is disposed a rod-shaped interior conductor or electrode. The free or exposed forward end of the conductor forms a capacitor either with the confining wall or with an element mounted thereon. The dielectric medium of the capacitor is formed or constituted by the fly ash present in the modified coaxial resonator. As a result of its structure, the modified coaxial resonator is characterized by very large openings for the intake and output of ash, relative to its geometric dimensions. Thus, by placing the modified coaxial resonator in compacted ash in an ash collection container, the ash can satisfactorily move through the resonator without forming bridges or barriers when the container is partially or completely emptied.
It has been found that by placing the modified coaxial resonator in compacted ash, the density of the ash is substantially constant regardless of the height of the dumping level of the ash so that the measurement results are sufficiently exact and reproducible.
For defining the carbon content of the fly ash, changes are examined in the electrical resonance of the modified coaxial resonator filled with ash, relative to calibratory measurements or reference signals. In this connection, it has surprisingly been found that it is of particular importance that the quality of the coaxial resonator modified by large openings in its confining wall be such that even changes in the carbon content of less than 0.1% may be accurately defined at undue complexity.
It is particularly useful so to place the modified coaxial resonator in a lower section of an ash collection container that as the container is filled with ash, a representative portion of the ash automatically slides into the interior of the coaxial resonator and, more particularly, into that section at the interior conductor which is structured as a capacitor. As soon as the modified coaxial resonator is completely covered wi
Conrads Hans Georg
Klupsch Volkhard
Hormann Karl
Kwok Helen
PROMECON Prozess- & Messtechnik Conrads GmbH.
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