SU586374A2 - Device for determining the boiling point of solutions and liquids - Google Patents

Description

This invention relates to the field of thermal measurements. A device for determining the boiling point of solutions and liquids is known, consisting of a vessel for studying a liquid, connected to the upper part through a Cutrel pump with a thermometer pocket with a glass spiral wound on it, a drop counter and a refrigerator. 1 The main disadvantage of the known device is the inability to measure the boiling point of highly viscous and highly concentrated solutions, since it is difficult for the test substance to pass through the Cutrel pump. A device is known for determining the boiling point of solutions and liquids according to the main author. St. No. 281861, consisting of a cylindrical vessel for examining a liquid, containing a vessel for examining a liquid, connected through the Cutrel pump with its upper part to a thermometric pocket with a glass width wound to it, which also has a drop counter and a refrigerator connected to it and through a return circulation pipe connected to the lower part of the vessel for the study of the liquid, and the vessel for the study of the liquid is cylindrical and equipped with a heater fixedly mounted on it, the lower part of the thermometric o pocket expanded and forms a buffer capacity. A disadvantage of this device is that condensate is discharged into a buffer tank from which solution samples are taken for analysis. When measuring the boiling point of concentrated solutions (for example, solutions of sugars with a concentration of 50-95 wt.%) There is a poor mixing of the condensate with such solutions, which leads to a marked separation. As a result, the concentration of the solution in the upper part of the buffer tank is lower than the concentration of the solution that has undergone mixing as it moves along the circulation circuit and washes the thermometric pocket. The ingestion of such a solution into the sampling funnel gives an underestimated result of the concentration of the solution compared to the concentration washing the thermowell into which the thermometer is inserted to measure the temperature. As a result, some discrepancy arises between the measured temperatures and the concentrations of the studied solutions being analyzed. This reduces the accuracy of measurements. The aim of the invention is to improve the measurement accuracy by eliminating the dilution of the analyzed solution with condensate at the sampling point.

The goal is achieved due to the fact that the device additionally has a circuit for feeding condepsat directly into the solution, which is a tap with a buffer tank, which is connected to the drop counter and to the lower end of the return branch of the circulation tube at the bottom of the heated vessel.

The device e schematically shows the proposed device.

It consists of vessel 1, heater 2, Cutrel pump 3, thermometric pocket 4, refrigerator 5, droplet counter 6, buffer tank 7, sampling funnel 8, reverse of the main circulation loop 9, circuit 10 for draining condensate, buffer capacity I.

After the ebuliometer is filled with the test solution and the heater 2 is turned on, the solution boils in vessel 1. The vapor-liquid mixture rises through the Cutrel 3 pump and is ejected into the thermometric pocket 4, flows into the buffer tank 7, and enters the heated circuit 1 again in the reverse branch of the main circulation circuit 9 The resulting steam enters the cooler 5, from which condensate through the droplet counter 6, the loop 10 for draining the condensate and the buffer tank 11 is directly drained into the test solution, back to the bottom branches of the main circulation loop 9. Thus, the condensate is gradually along with the solution enters the heated vessel, where, as a result of boiling, it is vigorously stirred. This contributes to the fact that a solution washing into the buffer tank from which the samples are taken through the funnel is taken

a thermowell where it is no longer diluted with condensate. A sample of the solution taken for analysis, in this case, exactly corresponds to the concentration washing the thermowell at its boiling point. Buffer tank 11 serves to preliminarily move the condensate with the test solution, reduce pulsations, and eliminate the potential for flip through the droplet counter.

The introduction of the condensate circuit directly into the device, into the lower part of the backward branch of the main circulation circuit, eliminates the dilution of the solution in the buffer tank, from which samples of this solution are taken for analysis. This eliminates the concentration distortion and increases the temperature measurement accuracy. The introduction of a second buffer tank facilitates the better movement of the condensate before it enters the main circulation circuit, reduces pulsations, and eliminates the possibility of diversion.

Claims (1)

1. Swientoslawsky W. Ebulliometric Measurements, New York, 1945.