2 toxicity of mercury and its compounds, 3 handling of mercury – Metrohm 797 VA Computrace User Manual

3 Safety

797 VA Computrace / Hardware-Manual 8.797.8001EN

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3.4.2

Toxicity of mercury and its compounds

Mercury and its compounds are toxic since they react with enzymes containing sulfur
and decompose them with the formation of HgS. The toxicity depends on the chemi-
cal and physical state of the mercury [4, 8 – 10]:

• Metallic liquid mercury is readily resorbed by the skin and finds its way

through glandular passages into lower skin regions where it is oxidized and car-
ried on as a salt.

• The low-solubility mercury (I) compounds and metallic mercury in the form of

a coherent liquid have low toxicity when taken up orally (but not through the
skin!).

• Mercury (II) compounds are more readily soluble and therefore much more

toxic: LD100 (the 100% lethal dose) for oral take-up is approx. 0.2…1 g.

• Mercury vapor is highly toxic: vapor with an Hg concentration exceeding the

TLV of 0.1 mg/m

3

air causes chronic poisoning after prolonged breathing for 5

to 8 hours per day.

Despite the large number of laboratories involved in polarographic/voltammetric
work, sensible and proper handling (see section 3.4.3 has ensured that not one single
case of mercury poisoning has been reported to date. The real Hg concentrations
measured in the laboratory atmosphere are consistently far below the TLV (threshold
limit value).

3.4.3

Handling of mercury

Several safety rules, described in detail in what follows, must be observed in the han-
dling of mercury owing to its toxicity (see section 3.4.2):

• Working in a fume cupboard

The handling of mercury should, if possible, always be carried out in a fume
cupboard (hood). It must be ensured that no metal drops or spilling drop on the
floor or the lab bench and that no evaporation of the metal occurs.

• Working over plastic trays

Movements with vessels containing mercury must be carried out in, or at least
above, rigid seamless trays made from plastic or enameled metal. The supplied
6.2711.030 Drip pan made of polystyrene is eminently suitable for this.

• Collecting mercury from the measuring vessel

If work is performed with the MME, at the end of the determination the analy-
sis solution contains mercury, which must be collected for later disposal. This
can be done by collecting the analysis solutions in a large vessel and then de-
canting, by filtering the analysis solutions or by siphoning off the mercury using
vacuum.

• Trapping of mercury drops

Single mercury drops in this drip pan or any other spilt mercury can be bound in
a simple manner by amalgamation:

− with silver (Ag):

Metrohm drop catcher Type 6.2406.000 which is included
in the standard outfit of the 797 VA Computrace Stand

− with tin (Sn):

e.g. the thin tin foil supplied by Merck, Darmstadt/FRG