Measuring and testing – Volume or rate of flow – Of selected fluid mixture component
Reexamination Certificate
1999-02-12
2002-07-02
Patel, Harshad (Department: 2855)
Measuring and testing
Volume or rate of flow
Of selected fluid mixture component
C073S861080, C073S019010, C073S019100
Reexamination Certificate
active
06412351
ABSTRACT:
The present disclosure relates to the subject matter disclosed in German patent application No. 198 06 477.2 of Feb. 17, 1998, the entire specification of which is incorporated herein by reference.
BACKGROUND OF THE INVENTION
The invention relates to a method and a measuring apparatus for determining the volumetric gas content in a two-phase flow of a medium comprising a gas phase and a liquid phase and having an unknown flow shape.
In a large number of cases in process technology, for example, in power plant technology, it is necessary to determine the volumetric gas content in two-phase flows.
Where two-phase flows comprising water and steam are very often used, particularly in power plant technology, it is important to be able to determine the volumetric steam content of this two-phase flow exactly.
The methods known to date are based on the absorption or scattering of radioactive radiation such as, for example, &ggr;-radiation, X-ray radiation or neutron radiation. However, impedance methods, for example, methods for measuring capacitance are also known, these being advantageous as far as their apparatus expenditure and their speed of response are concerned, but harboring considerable measurement inaccuracies owing to the unknown flow shape of the two-phase flow.
All of the methods known to date do, however, have in common the problem that the unknown flow shape which cannot be ascertained in a meaningful way, i.e., the unknown local distribution of the liquid phase relative to the gas phase, has a significant influence on the measurement results and so the measurement results always contain considerable errors.
SUMMARY OF THE INVENTION
The object underlying the invention is, therefore, to provide a method and a measuring apparatus with which measurements which are as reliable as possible can be carried out with a measuring technique which is as simple as possible.
This object is accomplished in a method of the kind described at the outset, in accordance with the invention, in that the two-phase flow is converted into a droplet flow by vortexing the gas phase and the liquid phase, and in that the volumetric gas content is determined in the droplet flow.
The advantage of the solution according to the invention is to be seen in that the two-phase flow with an unknown flow shape of the gas phase and the liquid phase is converted into a two-phase flow in the form of a droplet flow and with this droplet flow it is then possible to determine the volumetric gas content in a simple way as the unknown flow shape has been converted into a known flow shape, namely the droplet flow.
In accordance with the invention, a defined flow shape is thus generated in a compulsory way. Furthermore, with the droplet flow, an essentially homogeneous distribution of the liquid phase in the gas phase can be assumed for the determination of the volumetric gas content and so all inaccuracies arising from the unknown flow shape which, to date, has constituted a problem, are eliminated, and a simple model connection—for example, a quasihomogeneous model—exists between the directly measured quantity and the volumetric gas content.
On the other hand, the droplet flow has the advantage that it can be assumed that the slip, i.e., the quotient of the velocity of the gas phase and the velocity of the liquid phase can be set at approximately one, as the droplets move at the same speed as the gas phase in the direction of flow. Thus, a computational connection can be established with the gas content of the flow, which is often sought in practice and is related to the mass flow, without empirical and mostly quite rough slip models being required.
With the solution according to the invention, it is, in principle, conceivable to determine the volumetric gas content as before with a method based on absorption or scattering of radioactive radiation. The inventive solution would also prove advantageous for such a measurement in view of the no longer prevailing slip and the homogeneous distribution of the liquid phase in the gas phase.
However, a particularly expedient solution makes provision for the volumetric gas content to be determined by measuring capacitance. The measuring of capacitance has the advantage that the apparatus of the measuring arrangement is simple in comparison with methods which work with absorption or scattering of radioactive radiation. Capacitance measurement has the further advantage that in the case of the droplet flow used in accordance with the invention quasihomogeneous models for an effective relative permittivity of the two-phase dielectric can be used in order to establish the connection between the measured capacitor capacitance and the volumetric gas content or steam content of the two-phase flow.
Furthermore, a particularly expedient solution makes provision for the effective relative permittivity of more than half of the entire droplet flow to be determined for measuring the capacitance, i.e., more than half of the droplet flow is detected when measuring the capacitance, and, consequently, in contrast to the methods working with absorption or scattering of radioactive radiation, a substantial portion of the droplet flow is taken into consideration.
It is even more advantageous for essentially the entire droplet flow to be used for measuring the capacitance so that even inhomogeneities still prevailing in the droplet flow can be averaged by considering essentially the entire droplet flow.
In principle, the capacitance measurement could be carried out using a capacitance measuring arrangement in which the droplet flow permeates an electric field of a capacitor arrangement.
A better solution as regards the measuring technique does, however, make provision for the droplet flow to be divided up into portions and for the portions to each be passed through a respective capacitor.
The capacitors could, for example, be arranged such that the field lines thereof all run essentially parallel, i.e., the several capacitors would be stacked in layers. It is, however, particularly expedient for the capacitors to have fields extending radially in relation to a center axis and to be built up of annular electrodes.
A particularly expedient capacitance measuring arrangement makes provision for the capacitors to be formed by a set of annular electrodes arranged one within the other, each with a progressively smaller radius, which thus form a set of annular spaces through which the two-phase flow can then pass in the direction parallel to a center axis.
So far no details of the generation of the droplet flow have been given in the explanation of the various embodiments. An advantageous embodiment makes provision for a mixer to be used for generating the droplet flow.
Such a mixer is preferably designed such that the liquid phase is broken up into droplets by flow guide blades therein. These flow guide blades preferably deflect in the direction of a center axis a flow of the liquid phase located at the edges and surrounding the gas phase at least partially and hence break it up into droplets.
Furthermore, the object stated at the outset is accomplished with a measuring apparatus for determining the volumetric gas content in a two-phase flow of a medium comprising a gas phase and a liquid phase and having an unknown flow shape, in accordance with the invention, in that the measuring apparatus comprises a mixer which converts the two-phase flow into a droplet flow by vortexing the gas phase and the liquid phase, and in that a measuring arrangement for determining the volumetric gas content of the droplet flow is arranged so as to follow the mixer.
Herein it is particularly advantageous for the measuring arrangement to comprise a capacitance measuring arrangement with which an effective relative permittivity of the droplet flow representing a two-phase dielectric can be measured.
A particularly expedient solution makes provision for the capacitance measuring arrangement to be arranged such that more than half of the droplet flow flows through this capacitance measuring arrangement.
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Deutsches Zentrum fuer Luft-und Raumfahrt e.V.
Lipsitz Barry R.
Patel Harshad
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