vacuubrand PC 500 LAN, Instructions For Use Manual

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Documents are only to be used and distributed completely and unchanged. It is strictly the users´ responsibility to check
carefully the validity of this document with respect to his product. Manual-no.: 999084 / 05/10/2009
page 34 of 46
How to determine the best distillation conditions
Determine the temperature of the available coolant.
☞
In most cases the coolant temperature is given (e. g. tap water, in house cooling water circuit). For
maximum solvent recovery, carefully choose the boiling point of the product (by choosing the vacuum
level) and the bath temperature accordingly.
☞
Determine the lowest boiling point of the product (solvent).
☞
The temperature difference between boiling point of the product and the coolant should be more than
20°C, otherwise low vacuum level will lead to significant loss of solvent.
☞
Select a water bath temperature of 20-30°C above the boiling point of the product to provide sufficient
heat transfer.
Determine the bath temperature
☞
If there is no limitation from the product side, a water bath temperature of 60-70°C is usually recom-
mended (efficient heating with minimum generation of water vapour from the bath).
Example:
☞
The cooling temperature assumed to be 15-20°C.
☞
Water bath temperature between 60-70°C. Wait until temperature is reached.
☞
Determine the vacuum level for a boiling point (use published data of solvents). Reduce pressure until
a sufficient level of evaporation is attained.
☞
If hysteresis is set manually, avoid frequent operation of the isolation valve (approx. not more than two
operations per minute).
List of solvents
t n e v l o S t n i o p g n i l i o B
3 1 0 1 t a ) C ° (
r a b m
r o f m u u c a V
t n i o p g n i l i o b
) . s b a ( ) r a b m (
T t a
s
C ° 0 4 =
t n e v l o S t n i o p g n i l i o B
3 1 0 1 t a ) C ° (
r a b m
r o f m u u c a V
t n i o p g n i l i o b
) . s b a ( ) r a b m (
T t a
s
C ° 0 4 =
e n o t e c A 6 5 6 5 5 e t a t e c a l y h t E 7 7 0 4 2
e l i r t i n o t e c A 2 8 0 3 2 - e n e l y h t E
e d i r o l h c i d
3 8 0 1 2
e n e z n e B 0 8 6 3 2 e n a x e H 9 6 5 3 3
l o n a t u B - t 2 8 0 3 1 l o n a h t e M 4 6 7 3 3
l o n a t u B - 1 8 1 1 5 2 e n a t n e P 6 3 0 0 0 1 >
m r o f o r o l h C 2 6 4 7 4 l o n a p o r p o s I 2 8 7 3 1
e n a x e h o l c y C 1 8 5 3 2 e n i d i r y P 5 1 1 0 6
e n a h t e m o r o l h c i D 0 4 0 0 0 1 - o r o l h c a r t e T
e n a h t e m
7 7 1 7 2
r e h t e l y h t e i D 5 3 0 0 0 1 > e n a r u f o r d y h a r t e T 6 6 7 5 3
r e h t e l y p o r p o s ii D 8 6 5 7 3 e n e u l o T 1 1 1 7 7
e d i m a m r o fl y h t e m i D 3 5 1 1 1 e n e l y h t e o r o l h c i r T 7 8 3 8 1
e n a x o i D - 4 , 1 1 0 1 7 0 1 e n e l y X 8 3 1 5 2
l o n a h t E 8 7 5 7 1 r e t a W 0 0 1 2 7