To lead a healthy & ailment free life it becomes super mandatory to keep a tap on the water we are consuming in every way on a daily basis.
Each impurity carries its own risks to chemical and biological research, not to mention the detrimental effect they cause to the quality of pure water. Let’s throw some light on some major water contaminants, and how they can be prevented.
Micro-organisms
Bacteria, algae and fungi all regularly interfere with sterile research applications, other commercial & personal spaces.If free-floating bacteria form biofilms on surfaces, they can be extremely difficult to remove. These biofilms can grow for several years, spontaneously releasing bursts of bacteria, along with their associated endotoxins and nucleases.They even have a negative effect on the growth and function of cells.
Viruses
Viruses – referred to as non-living nucleic acids – adversely affect tissue and cell growth. They’re extremely small, with most of them falling between 0.01 – 0.3 microns, and they can survive for long periods of time. Once they’ve been spotted in water, they should be removed as soon as possible.
Dissolved Inorganic Ions
Silicates, chlorides, calcium, fluorides, magnesium, phosphates, bicarbonates, sulphates, nitrates and ferrous compounds are all forms of dissolved inorganic ions.
The instability in water caused by these ions will negatively influence chemical and biological reactions.
Dissolved Organic Compounds
These are derived from animal and plant decay, in addition to any human activities that involve the introduction of alcohol, protein, pesticides, chloramine, herbicides or detergents into the environment.
Dissolved Gases
Water contains naturally dissolved carbon dioxide, nitrogen and oxygen, but these gases can alter the pH of lab water, which upsets the ionic balance. Concentrations of oxygen and nitrogen can affect the rate of biochemical reactions; and high concentration of dissolved gases can cause a bubble formation, which obstructs the flow through chromatography columns and micro-channels.
Suspended Particles
When large suspended particles of clay, sand, silt or vegetation between 1 – 10µm are found in water, they cause turbidity and settle at the bottom.
Suspended particles can foul reverse osmosis membranes, filters and chromatography columns, especially if the system stems from a reservoir or tank within the building.
How to Prevent Contaminants
The main way to prevent and remove contaminants are through water purification systems & stainless steel piping systems. Different technologies have been created, each specialising in the removal of specific contaminants. SS pipes are a boon for the laboratories of today as they have high value over other materials of pipes.
Stainless steel pipe manufacturers Rhinox are spreading their wings beautifully in this commercial & medical industry so as to give to the society for better health of our upcoming generations too.
Reverse osmosis (RO) is hailed as one of the most effective ways of removing contaminants, as this process removes up to 99% of impurities in water.
To conclude, contaminants can be very damaging to water. Once found, they should be removed as soon as possible, using the most effective form of water purification technology or water mobility equipment such as stainless steel pipes.
For more info: https://rhinoxindia.com/ss-pipes.php
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