Fluorometers are instruments that are used to measure the concentration of various substances in the air. They are widely used in various fields such as medicine, ecology, industry, etc.
The operating principle of fluorometers is based on measuring the intensity of radiation that comes from the substance under study. Depending on the type of fluorometer, it can be used to measure various parameters, such as the concentration of gases, vapors, aerosols and other substances.
Fluorometers can be used to monitor air quality in residential premises, workplaces, industrial premises, etc. They can also be used to determine the level of environmental pollution, for example in areas with a high concentration of industrial plants.
In addition, fluorometers are widely used in medicine to diagnose various diseases of the lungs and other organs. For example, fluoroscopes are used to detect tuberculosis, lung cancer, pneumonia and other diseases.
However, despite all the advantages of fluorometers, they have a number of disadvantages. Firstly, they require highly qualified personnel for proper operation and interpretation of results. Secondly, fluorometers are quite expensive devices, which makes them inaccessible to many laboratories and medical institutions.
In general, fluorometers are an important tool for monitoring environmental quality and diagnosing various diseases. However, for effective operation of fluorometers, highly qualified personnel and availability of equipment are required.
Fluorometer: what is this device?
A fluorimeter is a special piece of equipment that is used to measure the emission characteristics of light. One of the most important parameters that can be measured using a fluorimeter is fluorescence - a temporary change in the intensity of light radiation after exposure to a light source. Fluorescent