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Tubular Reactor Didactic Equipment Vocational Training Equipment Heat Transfer Laboratory Equipment

Item No.: AFT096
AFT096 Tubular Reactor Didactic Equipment Vocational Training Equipment Heat Transfer Laboratory Equipment
Description
AFT096 Tubular Reactor Didactic Equipment Vocational Training Equipment Heat Transfer Laboratory Equipment

1 Description
Tubular reactors are continuously operated reactors. Tubular reactors make possible the cost-effective production of large product quantities with consistent quality.
The main component of it is the tubular reactor with ten temperature-controlled sections. Two pumps convey the reactants from the receiving tanks into the preheating sections and then into the reactor. The preheating sections consist of a coiled tube located in the hot water tank. After preheating, the reactants are mixed just before they enter the reactor. The electrical conductivity of the reaction mixture is measured at the inlet, in the centre and at the outlet of the reactor. While the reaction mixture flows through the reactor, the reactants react to the products. The mixture of products and unreacted reactants leaves the reactor and is collected in a tank.
The volumetric flow rates of the reactants and thus also the retention time in the tubular reactor are adjusted at the pumps. The ten sections of the tubular reactor consist of tubular heat exchangers. The reaction mixture flows in the inner tube of the heat exchanger and the hot water flows in the outer tube. This hot water circuit is temperature controlled. The controller on the switch cabinet makes it possible to set the desired temperature and displays the current temperature in the hot water tank. Three stirring machines ensure uniform mixing and temperature distribution in the reactant tanks and in the hot water tank.
Sensors record the temperatures and electrical conductivities. The measured values are read from digital displays and can be transmitted simultaneously via USB directly to a PC where they can be analysed using the software. The reaction is analysed using the measured electrical conductivities and the conversion rate calculated from this.
2 Specification
continuous tubular reactor to carry out a saponification reaction
10 tubular heat exchangers as reactor
2 identical pumps to convey the reactants
adjustment of the volumetric flow rates of the reactants at the pumps
preheating of the reactants with 2 stainless steel coiled tubes
T-piece for mixing the preheated reactants
measurements for electrical conductivity: at the inlet, centre and at the outlet of the reactor
hot water tank with temperature control
measurement of conductivity and temperature with 3 combined sensors
software for data acquisition via USB under Windows 8.1, 10

3 Technical data
Tubular reactor
Ø inner: approx. 8mm
reactor volume: approx. 0,5L
material: 1.4571
Reactant pump
max. flow rate: 0,3L/min
max. head: 20m
Tanks
reactants: 2x 25L
products: 1x 50L
water: 1x 30L
Hot water circuit
heater power: approx. 4kW
temperature: max. 55°C
Stirring machines speed: max. 310min-1
Measuring ranges
volumetric flow rate: 2x 2…320mL/min
temperature: 4x 0…80°C
conductivity: 3x 0…100mS/cm
400V, 50Hz, 3 phases
400V, 60Hz, 3 phases, 230V, 60Hz, 3 phases
UL/CSA optional
Dimensions and weight
LxWxH: 1900x790x1950mm
Weight: approx. 250kg
Required for operation
Ethyl acetate, caustic soda (for saponification reaction)
PC with Windows recommended