Recommendations for Purifying Your Laboratory’s Water

October 9, 2020 2:26 am Leave your thoughts

When you’re working in a laboratory, pure water is key to replicating your experiments. Unless you’re absolutely sure that no other compounds have contributed to the results, you won’t be able to reproduce them on a regular basis. Since we all know basic tap water is far less than pure, it’s important for labs to install medical water purification systems in Cincinnati, OH.

The best way to get pure water for low-stakes experiments is to install a pre-treatment system. Then, if the work calls for purer water, you can treat the water yourself.

There are two major recommendations when it comes to purifying your laboratory’s water.

Pre-treat your water for most research

While you can always supply your lab with tap water, which contains any number of contaminants, that’s not a particularly efficient method. Tap water has salts, chlorine, iron, magnesium and any number of other pollutants—things you don’t want messing with your research results. If you purified all your water on a case by case basis, you would run into time and capacity constraints.

That’s why it’s smart to pre-treat your water with a whole-building system. Not all of your research will require completely pure, distilled water, so you can get a system that filters most, if not all contaminants. This is usually achieved by carbon filters, and will filter plenty of water for purposes like cleaning. For experiments that require completely pure water, you can add additional water purification stations.

Invest in specialized treatment methods for specific needs

For the experiments that rely on distilled water, specialized treatment methods are key. You should choose these based on the types of experiments and research your lab most frequently performs, and their specific needs. Here are some of the most popular treatment methods available:

  • Ion exchange: Ion exchange water filters use charged, porous resin beads to attract contaminant particles and trap them in the beads. The beads have to be replaced often, but it’s a generally cost-effective solution.
  • Reverse osmosis: Reverse osmosis removes just about everything except for dissolved gases. Water is passed through a semi-permeable membrane that removes contaminants. It removes about 95 percent of organic and inorganic pollutants.
  • UV purification: This method uses ultraviolet light to kill bacteria, viruses and other “live” pathogens. It does not remove contaminants from the water, like minerals or dissolved solids.
  • Finer filters: You can also install finer filters, which remove everything from bacteria and particulates to colloids, endotoxins, organics and nuclei.

For best results, you will probably want to install several of these purification systems in one area, to be used for special experiments and research.

Whatever kind of research your lab performs, having reliably clean and pure water is a must. From cleaning instruments to actual experiments, you can accomplish most of your goals with two filtration systems.

To learn more about how to get reliably clean, pure water for your laboratory with a medical water purification system in Cincinnati, OH, call Ultra Pure Water Technologies today. We can help you achieve your water purification goals.

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