SU47250A1 - Laboratory setup for studying the saturation process - Google Patents

Description

The objective of the proposed facility is to resolve the issues of the experimental study of the saturation process under various conditions of laboratory experimentation, while observing in each individual case the entire sum of the experimental conditions unchanged.

The proposed laboratory setup for studying the saturation process consists of a bulb serving as a saturator, connected through a drexel flask and taps with a measuring meter for measuring coal; It also has the peculiarity that the flask is connected via a valve through a mercury valve with a two-way valve connecting the flask to either the atmosphere or vacuum. This feature makes it possible to obtain a carbonation gas with the desired content of carbon dioxide, which is very important when studying the saturadion process.

The drawing shows a schematic view of the proposed laboratory setup for studying the saturation process.

A thick-walled Bunsen A flask, isolated by felt to prevent the juice from quenching when saturation.

is a saturator. The walls of the flask, whose capacity is about 1.5 liters, are pre-rinsed with hot water, after which the juice to be saturated is transferred to the flask in an amount of 500 cm. The saturator bulb is sealed with a rubber stopper; the side tube of the flask is a long rubber tube at connects to tube B of the Drexel B safety washer; tube G of the washer is connected to a special tap through tube D; through the W tube, the gas measured to carbonation through the Crane K through the W tube comes from vessel W, pushed out of this vessel with water, saturated with carbon dioxide (preferably with transformer oil) and coming from the bottle with a tubulus at the bottom, not shown in the drawing.

Before starting work, this bottle is placed so (on the floor) that, when the crane K is in position (shown in the drawing), carbon dioxide coming from the corresponding generator through tube D has the ability to fill the vessel in and out with bubbles through tube C and a layer of water (or oil ) in the bottle with | ubulus (not shown in the drawing.) The volume of gas required for the reaction is given by one or another installation of tube C, which moves freely enough in the rubber stopper of vessel III, being for sealing surrounded by a layer of mercury poured those with installation tubulusom bottle at the bottom (not shown in the drawing) is raised and ustanpvlivaets at a certain constant height, and the tap handle ff povertyvaets 180 °. After filling the vessel Sh with gas (it is assumed that for this purpose the crane E is turned 180 °) and the bottle with a tubulus at the bottom (not shown in the drawing) at a certain unchanged height, the saturator L, heated and filled with saturated juice, is partially evacuated as follows: depending on what percentage of carbon dioxide gas they wish to have in the atmosphere of a carbon dioxide gas, over a juice in a saturator (the supersocial space has a volume of about 1 liter) a cylindrical vessel H with mercury The lower this vessel is lowered, the higher the percentage of carbon dioxide in the carbonation gas will be. Faucet handle E rotates 90 ° to the plane of the drawing, turns on an electrical spinning oil vacuum pump (you can work with a good water jet pump with sufficient water pressure in the water supply), carefully opening the valve U so that the mercury slowly lifts through the tube into the gauge A. As soon as the mercury touches the tube P and starts to rise in it, the crane knob is turned again by 90 ° and takes the position shown in the drawing. At the same time, the crank handle U turns 180, and the motor turns off. In place of the partially evacuated air, carbon dioxide gas is sucked into the saturator A from the vessel Sh, Vstriva, with varying intensity, flask A, and carry out the saturation process at that or another rate. The end of the process, when the handle E of the valve is rotated 180 °, is the moment of penetration of water (oil) from the vessel / I into the lower part of the tube C. The flask A is separated from the installation, and the content of the saturator is filtered. no saturation process, consisting of a flask that serves as a saturator, connected through a drexel flask and multi-way taps with a flask for measuring carbon dioxide, flashed so that, in order to obtain a saturation gas with the desired carbon dioxide content, flask A is connected by means of crane E through An adjustable mercury valve with a two-way valve U connecting the flask L to either the atmosphere or vacuum. The subject matter of the invention. Laboratory setup for iauch-.