Claims
- 1. Apparatus for measuring the foreign substance content in flowing liquids, especially for determining the concentration of aromatic hydrocarbons in a water stream, comprising:
- a pipeline block for a process;
- conduits in front of and behind the pipeline block;
- a plurality of cells;
- first and second detectors;
- means for shunting a liquid current through said conduits in front of and behind said pipeline block for the process and for pumping flowing liquid currents into and through said cells;
- a radiation source associated with said cells and having beams which penetrate said cells and carry each beam to said first detector and to said second detector;
- beam filter means desposed in front of each of said detectors and dividing the beams into two beams of different wavelengths;
- a rotating chopper wheel disposed between said radiation source and two of said cells, which alternately steers the beams of said radiation source into the one cell and into the other cell; and
- electrical circuit means for comparing electrical signals of the detectors with one another and for processing said electrical signals to an identifying signal.
- 2. Apparatus according to claim 1, which includes a beam splitter comprising said beam filter means.
- 3. Apparatus according to claim 1, in which said two cells have the same dimensions and have end walls formed of transparent material.
- 4. Apparatus according to claim 1, which includes heat exchangers placed in front of said two cells which equalize the temperatures of two liquid currents pumped through said conduits.
- 5. Apparatus according to claim 1, which includes two drain lines behind said two cells and which includes valves, inserted into said two drain lines b-hind said two cells, which alternately open and close in rapid succession, so that pulsating liquid streams are produced in said drain lines.
- 6. Apparatus according to claim 2, in which said beam splitter divides said beams of said radiation source in a ratio of 50:50 and in which said beam filter means includes a filter disposed ahead of said first detector and transparent for a first relevant wavelength range and a filter disposed ahead of said second detector and transparent for a second relevant wavelength range.
- 7. Apparatus according to claim 1, in which said two cells each have a free cross-sectional area that is larger than the cross-sectional area of the associated beam in each case.
Priority Claims (1)
| Number |
Date |
Country |
Kind |
| 3733573 |
Oct 1987 |
DEX |
|
Parent Case Info
The invention relates to an apparatus for measuring the foreign substance content in flowing liquids, especially for determining the concentration of aromatic hydrocarbons in a stream of water.
Apparatus for measuring the foreign substance concentration in a gas stream are known, which serve for process control in chemical apparatus, for measuring flue gas, and for measuring emissions from furnaces and from motor vehicles. This known apparatus operates by the nondispersive ultraviolet absorption method of measurement. The specific radiation absorption in the ultraviolet range by the component being measured serves as the measuring effect.
The ultraviolet radiation is produced in a hollow-cathode lamp. A shutter wheel divides the radiation into two beams separate in time and a beam splitter divides it into two beams separate in space. The measuring beam strikes a receiver and is carried through the measuring cell. The completely unaffected control beam strikes the correction receiver.
The electronic processing of these 4 signals eliminates the influence of nonselective absorptions, such as for example cell contamination, and aging effects in radiator and receiver.
The present invention is addressed to the task of creating an apparatus which in flow-through operation performs a comparative measurement between the control and sample and which is adapted to operate a limit switch upon the exceeding of a predetermined concentration of the foreign substance.
This task is accomplished according to the invention in that both before and after the pipeline block for the process a liquid stream is derived through conduits and each is delivered to a cell, a radiation source being associated with each of the two cells whose beams pass through the cells and are fed each both to a first detector and to a second detector, a beam filter being placed in front of each of the detectors which divides the beams into two beams of different wavelength, and between the beam source and the two cells a rotating chopper wheel is disposed which alternately deflects the beams of the radiation source into the one and the other cell, the electrical signals of the detectors being compared by an electrical circuit and processed to form an identifying signal.
Additional features, details and embodiments of the invention will be found in the appended claims.
The advantage achieved by the invention is to be seen essentially in the fact that, in a large technical apparatus, a continuous monitoring of the output water or waste water can be performed for a long period of time during an ongoing process, while the percentage of contamination of the input water is detected and distinguished from the percentage of contamination produced by the process.
US Referenced Citations (4)
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Oct 1974 |
DEX |
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DEX |
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GBX |
Patent Grant
4931660
