With the rapid development of science and technology, the intelligent trend is affecting all aspects of us. Naturally, laboratories with many scientific elements are no exception. However, although many industry organizations have laboratories, but their level of intelligent digitization is actually insufficient.
As a result, laboratories are far from GMP standards.To keep up with this trend, some laboratories need to be completely renovated, while others need to upgrade their equipment. More laboratories focus on the cleaning of glassware thoroughly, so, step by step from the ordinary laboratory to the intelligent transformation road.
So why does cleaning glassware need an intelligent assist? How to realize then?
In fact, cleaning glassware seems very easy, but it is a prerequisite for the success of the entire experiment. We know that glasswares are used widely in most analytical laboratories——–whether it is storage of experimental drug materials, process reactions, analysis and testing results… Almost all cannot do without glasswares. But then the problem also came: these test tubes, beakers, pipettes, liquid phase vials, etc. in the laboratory have undergone various tests, and there are bound to be various residual dirt, such as oil, pesticides, and pigments. , Protein, dust, metal ions, active agents and so on. So want to do a thorough cleaning will encounter many difficulties, especially if the laboratory also uses manual cleaning!
First of all, manual glassware cleaning will take experimenters a lot of precious time. Originally, they could devote more energy to front-line scientific research. So there is no doubt that this is a huge waste of talent value.
Second, washing glassware is not simple. In addition to physical exertion, you also need to concentrate and master skills… The whole process is tedious and hard work, but sometimes you have to bear considerable risks-after all, the residues in the glasswares to be cleaned are still toxic, corrosive, etc. The characteristics that are harmful to the human body can be damaged by broken glass residue if you are not careful.
Most crucially, the effect of manual cleaning is often not ideal.This creates a potential failure factor for the final outcome of the next experiment.The disadvantages caused by manual cleaning are far more than those mentioned above.
With the rapid development of technology in the new era, the continuous improvement of the requirements for experimental accuracy has promoted the difficulty of cleaning glassware.However, many laboratories are still seriously short of hardware in this field. Therefore, the general laboratory to keep pace with The Times, the basic work of cleaning bottles before the experiment must be gradually replaced by machine cleaning.The automatic glassware washer is the concrete and outstanding performance of this trend.
Most laboratories in developed countries such as Europe and the United States have already been equipped with laboratory glassware washer, and they are often updated to meet different cleaning needs.This is because the intelligent advantage of the Lab glassware washer is reflected in many aspects of the cleaning process:
(1) Ensure the cleaning effect of glassware, especially the index data (cleanliness, loss rate, water temperature, TOC, etc.) are recorded, traceable and verifiable;
(2) Make the cleaning operation to achieve real automation, batch processing, save time, effort, water and electricity resources;
(3) Reduce the generation of unsafe factors, ensure the safety of laboratory and personnel;
To sum up, the introduction of Laboratory Washer is beneficial to solve the original manual cleaning of glassware faced with cleaning time, cleaning temperature, cleaning mechanical force, cleaning agent and water quality of the core five aspects of pain points, and make it standardized.The real liberation of the experimenter from cleaning the glassware is conducive to reducing the adverse impact caused by experimental errors, but also conducive to the early realization of intelligent laboratory.
Post time: Jan-18-2021