SU1075106A1 - Liquid sample analytical checking system - Google Patents

Abstract

SYSTEM analytical control of the liquid sample, comprising successively connected sampler and a transport pipe of the circulating closed KOHTypOjM, comprising series-connected air-release capacity spectrometer with flow cell located in the highest point of the circuit, a discharge tube, discharge valve and a jet pump, characterized in that , in order to increase the control accuracy, the circulation loop is equipped with a series-connected starting device, which is hydraulically connected to th cuvette spectrometer, and a compensating capacitor, which communicates with the atmosphere and is connected to a valve.

Description

Stkaty and bozZuk ReymV 1 water Compressed 6oz

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SP

05 Y Y Drainage JJECINJ 19 The invention relates to technical physics and can be used when changing the spectral characteristics of liquid materials. A device for analytical control of the pulp flow is known, which contains a serially connected sampler, a transport line and an analyzer cuvette 1. The disadvantage of this device lies in its low control accuracy. The closest in technical essence to the present invention is a system of analytical control of liquid samples containing a serially connected sampler and a transport line with a circulating closed loop including a series-connected air-separating tank, a spectrometer with a flow cell located at the highest point of the circuit, a discharge tube, a relief valve and jet pump 2. A disadvantage of the known device is the low accuracy of the analysis, due to the lack of flow. samples in a ditch. The aim of the invention is to increase the accuracy of the control. This goal is achieved by the fact that in the system of analytical control of liquid samples containing a serially connected sampler and a transport line with a circulating closed loop including a series-connected air-separating tank, a spectrometer with a flow cell located at the highest point of the circuit, a discharge tube, a relief valve and a jet the pump, the circulation loop, is equipped with a series-connected starting device, which is hydraulically connected to the flow cell pa, and the compensating container, in communication with the atmosphere and connected to the relief valve. The drawing shows the proposed system. The device consists of a sampler 1 with a slit knife 2 mounted on the difference of the controlled process stream 3. The drain of the slit knife of the sampler is installed above the accumulator 4 samples, which is connected to the compressed air network by means of an electrically controlled valve 5, and air separation tank 7. The outlet 8 of the air separation tank is connected to the flow cell 9 of the spectrometer, which, in turn, through the discharge tube 10 of the dinene with sequentially located tartovym ejector device 11 and the capacitance 12. Compensating Elements 7 and 9-14 to form a closed loop circulation. The compensating tank through the relief valve 13 and the jet pump 14 is connected to the air separating tank. The flow cell is located at the highest point of this circuit. The outlet of the discharge valve is 13 connections with the secondary sampler 15. The control outputs of the computing complex 16 are connected to electrically controlled valves 5,17,18 and 19 and the drive of the sampler 1 (not shown). The device works as follows. Sampling is performed using a sampler 1 with a slit knife 2 mounted on a differential process stream 3, by intersecting the entire formed stream with a slit knife. The sampled sample is fed through a flexible hose into a collection unit of 4 samples. In order to ensure the constancy of the sample volume, the storage unit 4 is filled with water to the overflow level. The sample is transported and transported by supplying compressed air to the storage unit 4 by means of an electrically controlled valve 5. The sample through the transport line 6 enters the air separation tank 7, where air is sent to the ventilation system. By separating the air, the electrically controlled valves 17 and T8 are supplied with control signals, as a result of which compressed air is supplied to the starting ejector device 11. At the same time, a part of the circulation loop (outlet in the air separation tank 7 - cuvette 9 - discharge tube 10) creates a vacuum sufficient to lift the controlled product to a height h and fill the flow cell 9 of the spectrometer and discharge tube 10. After turning on the starting ejector device 11 (valve 18 is closed) fluid flow in the flow cell 9 of the spectrometer and discharge tube 10 is maintained due to the siphon effect (since, and the compensating tank 12 is in communication with the atmosphere). When the jet pump 14 (valve 17 is open) is turned on, all the liquid entering the compensating tank 12 is pumped into the air separating tank 7, where the compressed air is separated from the sample. In this way, circulation is created of the sample that has come to analysis in the circulation circuit. In this case, the flow of the sample through the cuvette of the spectrometer is continuous and constant in its flow rate, since it is determined only by the difference in heights H and h. The vacuum inside the chamber is also constant, 1075106

four

BUT that provides high precision spec-contour. Then flushing occurs.

trometric measurements. contour by supplying water to it through

At the end of the measurement cycle, open-use of the proposed device

valve 13, releasing circulation, allows for greater control accuracy.

valve 19.

Claims (1)

ANALYTICAL CONTROL SYSTEM FOR LIQUID SAMPLES, comprising a serially connected sampler and a transport line with a closed loop, including a serially connected air separation tank, a spectrometer with a flow cell located at the highest point of the circuit, an unloading tube, a discharge valve, and a jet pump, characterized in that In order to increase the control accuracy, the circulation circuit is equipped with a series-connected starting device, hydraulically connected to the flow Veta spectrometer and compensating tank communicating with the atmosphere and connected to the relief valve.