ASE310 Stired Sank in Series engineering educational equipment Fluid Mechanics Experiment Equipment
- Product Overview
1.1 Product Introduction
The stirred tank is connected in series by three continuous stirred tank reactors. Their conversion rate is higher than that of a single stirred tank reactor. The mixing tanks are used in series, and the temperature and residence time of a single reactor can be flexibly controlled by a peristaltic pump.
In the continuous three-stage operation, the reactants are delivered to the first reactor by the two pumps of the supply unit, and the agitator uniformly mixes the reactants, thereby increasing the direct contact of the reactants, and the products are generated by the reaction of the reactants. The mixture of product and unconverted reactants leaves the reactor by overflow and is then transferred to a second reactor by a peristaltic pump. After completing the third reaction, the transportation takes place in a storage tank of the supply unit.
1.2 Features
The metal base is not easy to corrode.
Transparent reactor, easy to observe the progress of the experiment.
Equipped with a motor, which can fully mix the reactants.
1.3 Performance parameters
Dimensions: 760mm*360mm*420mm
Overall weight: <25kg
Reactor internal diameter: 40mm
1.4 practical training items that can be completed
Saponification of caustic soda with ethyl acetate
1.6 Precautions (operating conditions)
Before the power-on experiment, check the pipeline for blockages and debris, and conduct the power-on experiment after cleaning.
During the experiment, the reactor should be cooled with cold water to prevent the reactor from overheating.
The experimental device should detect the reactor temperature from time to time during the experiment. When the temperature exceeds 80°C, the experiment should be stopped.
- Experimental content
2.1 The purpose of the experiment
Validate the saponification reaction of caustic soda and ethyl acetate, and understand the reaction rate, the exothermic reaction and the conversion rate of the reaction.