1 withdrawal of the vapours by a vacuum pump – Martin Christ RVC 2-33 CDplus User Manual

Rotational Vacuum Concentrator RVC 2-33 IR

5 Set-up and connection

30

Version 08/2009, Rev. 2.1 of 02/12/2014 • sb

Translation of the original operating manual

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5.6

Connection of a vacuum pump and/or a cooling trap

In order to withdraw and condense the vapours that are formed, the RVC
can be connected with further components.

Pos: 102 /01 0 Univ ersal mod ule/L eerz eile @ 0\m od_ 120 211 624 450 0_0. docx @ 11 4 @ @ 1

Pos: 103 /20 0 Ch rist/3 71 RVC-BA (PROJEK TE)/RVC 2- 33 IR /05 0 Aufst ellung und Anschlus s/05 0-0 060 -00 10 A bpu mpe n de r Dä mpf e üb er Vak uum pu mpe RVC 2-3 3 IR @ 31\ mod _14 074 840 669 61_ 68.d ocx @ 209 056 @ 3 @ 1

5.6.1

Withdrawal of the vapours by a vacuum pump

The vapours are withdrawn by a vacuum pump, e.g. the vacuum diaphragm
pump for chemical applications”MZ 2C” or “MD 4C”, followed by
condensation in a liquid-cooled emission condenser.
This application is suitable for low-boiling samples containing solvents. The
vacuum pump must be connected to the RVC. The connector of the stop
valve must be plugged into the socket on the back of the unit.

1

RVC

2

Vacuum sensor

3

Stop valve

4

Vacuum hose

5

Vacuum pump

Fig. 9: Combination of the RVC with a vacuum pump and a stop valve

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