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Water is called the unsung hero of the laboratory. Every lab experiment needs water to obtain good results. Pure water is used instead of normal tap water because it is devoid of any kind of impurities. On the other hand, tap water or normal water contains a lot of impurities in the form of organic compounds, metal ions, etc, that can alter the experiment results. For obtaining continuous pure water in a lab, the researcher has to install a water purification system for the laboratory. The quality of water is all decided by the type of lab water system a researcher uses in the lab.
The level of purity for the lab water is a must here. However, with a laboratory water purifier also, there is a wholesome chance of slipping out of water purification. The water quality can be in danger inside a water purification system for laboratory use. Threats are always there. But with some concrete and careful steps, you can overcome this threat of water purity inside a lab water system.
In some instances, there are some threats to the laboratory water purifier’s efficiency also. Some environmental or chemical factors affect the efficiency of the laboratory water purifier in different ways. Up to some extent, the condition of the lab also affects the water purification system’s efficiency rate.
The threats can make an appearance from nowhere in a water purification system for a laboratory. But as a lab worker, you can work on the threats and eliminate them correctly in less time.
Generally, there are two types of areas in which lab water is used:
For both cases, the researchers and lab technicians need water in a pure state. No impurity should be there in the water that would alter the results. These impurities can interfere with the tests executed in the labs and make the results falter. This would create a bad effect on the resources and time. These experiments require pure water of good quality. And this should be maintained by using a perfect laboratory water purifier.
Water purification system for laboratory use is an integral component. Without the application of a lab water system, pure water cannot be produced which will falter the experiment results. For such a case, the researchers and scientists need to install a water purification system of good efficiency. The researchers can also check a water purification system for laboratory prices online and offline. The installation of a good water purification system is necessary for the laboratory. Go for the best water system for your research work. This would make your laboratory work easy and also convenient.
As mentioned above, water purification for laboratories is very important. But still some little threats harp on the system altering the quality of water produced. These threats can also damage the water system’s efficiency of producing water. As a researcher, you should always look into the threats and malfunctions of the system. Sometimes, the lab fellows overlook the threats which are not good for the life of the lab water system. At any time, these threats can alter the lab results, which is not good for the experiment. The threats are as follows:
Water recirculation is very important in a laboratory water purifier. The rate should be 3 feet per second in the system. Any rate slower than this can allow the bacteria to grow. This accumulation of bacteria causes a foul smell in the system and thus degrades the produced water quality. The rate at which water is circulated in the system can be more, but not lower than the minimum rate of 3 feet per second.
It is seen that the amount of bacteria in water depends upon the quality of potable water. This potable water is fed into the water purification system for laboratory use which is full of bacteria. At this level, you can pre-treat the entering water and minimize the bacterial population before purification. This will ensure the effective cleaning of potable water in the lab water system.
This is the most common threat to water purification systems in laboratories. To eliminate this, the researchers can install deionizers that can feed water directly to the system when required. This also eliminates the accumulation of water in the lab water system for long hours. As the standing water in the system can cause bacterial growth which hence, produces bad results.
In addition to the deionizers, you can also install systems, which make the water move continuously in the lab water purification system. This will help in minimizing the bacterial growth in the water and hence, produce purified water.
The Purification systems are important to the water systems. These piping systems are essential for the supply of deionized water into the water treatment systems. In some lab water systems, the pipeline systems are too long and complex. Due to the complex system of these pipes, they harp the way for bacteria formation in it.
In some large laboratories, these long piping systems are required to supply lab water to the whole lab area. To minimize this bacteria formation, deionizers can be installed. Further, the piping systems should be maintained in small systems to minimize bacteria formation. As a researcher, you can set up the lab water purification system close to the piping system.
This threat is more in the usage of piping systems that do not recirculate. Without recirculation of water, many microbes start accumulating in the water in no time. This would hamper the quality of pure water produced from the water purification system for laboratory use. Always use the piping system which has a recirculation loop to make the water flow continuously.
As mentioned above, the piping system is very important. In this case, the piping material should also be checked. The right quality of piping material ensures the minimum control of bacterial growth. For cleaning purposes also, the chemicals which are used here should accompany the piping material. This reduces the chances of bacterial growth in the water.
The highly recommended piping material is the polypropylene, plastic piping, and PVDF. These materials are made up of hydrophobic materials that do not hold water and hence help in the avoidance of bacterial growth.
In addition to the piping system, the material of the lab water purification system should also be of good quality. Make sure you approach a water purification system of good material which helps in the elimination of the bacteria and other impurities in less time.
Conclusion
Water is very important for lab work, so it should be purified with utmost sincerity. From fed water pre-treatment to the material of the piping system, all should be coordinated together to favor efficient purification of pure water. All these things should be designed perfectly to obtain good pure water for the laboratory experiment. Do look into the threats seriously and always try to prevent them by following certain effective steps.
