Optimal water quality in the laboratory requires the best source
of pure water. Even though there are a number of purification technologies
available, no single technology will remove all the contaminants to levels low
enough for laboratory use. Thus, a combination of technologies is recommended.
The combination of RO and EDI is the best choice for producing
Type 2 water. The ion and TOC levels of RO-EDI water are consistently low,
meeting the needs of many general laboratory applications, and for use in
clinical analyzers. Also, the consistent quality of RO-EDI water makes it most
suitable for producing ultrapure water with a polishing system such as a
Milli-Q system. The result is ultrapure water with consistently low levels of
ions and TOC. Other sources of pure water, such as distillation, SDI, and even
the combination of SDI and distillation have been shown to produce polished
water with fluctuating contaminant levels. Such fluctuation compromises the
quality of data obtained from modern analytical instruments where trace and
ultra-trace analyses are possible.
Finally, in addition to choosing the best technologies based on
a sound understanding of water quality, it is important that laboratory
personnel be trained in the proper use and maintenance of the systems, and that
appropriate water quality parameters be monitored on a regular basis. Using a
system equipped with resistivity and TOC monitoring capabilities allows users
to check the quality of water being delivered.
Posted by Dr. Tim Sandle
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