The Necessity Of Laboratory Dehumidification

The necessity of laboratory dehumidification

The laboratory is the place where experiments are conducted, and it is the birthplace of technology, so the country invests a lot in the laboratory. Nowadays, many universities' laboratories are places for teachers and graduate students to conduct daily work research. Some large experimental instruments are easily damaged if not properly protected. The level of management of laboratory instruments and equipment has a direct impact on the quality and efficiency of research products. The problem of high ambient air humidity in places dedicated to experimental research in any field of natural science cannot be ignored, as it has an impact on instruments, chemical reagents, and equipment in high humidity environments.

Due to regional differences and differences in laboratory construction conditions, some laboratories have been exposed to relatively humid environments for a long time. Air humidity can affect the lifespan and stability of instruments, as well as the form and performance of chemical reagents. It can also lead to moldy laboratory equipment and consumables, and even lead to safety accidents. Therefore, dehumidifiers are now used in laboratories to reduce the humidity of the indoor air environment, which plays an important role in maintaining laboratory humidity values between 40% -60% RH.

Laboratory dehumidifiers need to be selected based on the size of the laboratory area. Duopkai has installed 20pcs of 58L ceiling dehumidifiers in the laboratory of the School of Chemistry and Environmental Engineering at Yantai University, equipped with an automatic humidity control system. Users can freely set the humidity value of the dehumidifier according to their current needs, and automatically control the start and stop of the dehumidifier to achieve efficient dehumidification effect, solving the problem of reducing the humidity of the laboratory from the whole to the local area, In order to achieve the goal of reducing resource waste, improving the utilization rate of instruments and reagents, and saving laboratory operating costs.

Laboratories and chemical engineering workplaces require a specific level of humidity to ensure that experiments and chemical processes run smoothly while minimizing risks to the environment. Humidity refers to the amount of moisture in the air, which can be crucial to the success of laboratory and environmental engineering projects.

Humidity control is vital in these environments to ensure consistency and accuracy in the test results, and to create an appropriate environment for experimentation. If the humidity is too high or too low, it could affect the performance of the equipment and harm the workers.

Laboratories must typically maintain a humidity level between 40% and 60%, depending on the requirements of the specific experiments being conducted. For instance, a laboratory conducting experiments involving delicate electronic equipment may need to reduce humidity levels to maintain the equipment's integrity.

On the other hand, chemical engineering environments often require higher humidity levels. High humidity levels can help to reduce the risk of fire and explosion. Thus, a specific level of humidity is crucial in these environments to ensure that the tasks can be performed safely.

One of the primary reasons why humidity control is essential in laboratories and chemical engineering environments is the damage that moisture can cause to equipment and materials. High humidity levels can lead to the formation of mold, rust and corrosion, which can damage equipment. Meanwhile, low humidity levels can damage organic materials, such as plastics, fabrics, and paper.

In addition, humidity control helps ensure that the air quality is in optimal condition. Poor air quality can hinder the efficiency of the experiments and lead to safety and health hazards for workers. High levels of humidity can lead to poor air quality by promoting the growth of mold, bacteria, and other microorganisms harmful to human health.

In conclusion, a specific level of humidity is essential in laboratories and chemical engineering environments to ensure the success of experiments, protect equipment, and guarantee the safety of workers. Humidity requirements vary depending on the specific experiments being conducted, but a range of 40% to 60% is commonly recommended. Ensuring that the humidity is controlled helps to prevent potential damage to equipment and materials and promotes good air quality. Overall, proper humidity control is essential for the success of experiments and the safety of workers in environmental engineering and chemical engineering environments.