Water quality testing is an important means to protect public health. Water is the source of life and an indispensable resource for human survival and development. However, with the rapid development of industry and agriculture and the acceleration of urbanization, the problem of water pollution is becoming more and more serious, which directly threatens people's health. By conducting timely water quality testing, we can keep abreast of water quality and prevent the impact of water pollution on people's health. If there is a problem with water quality, timely water quality testing can also give us enough time to take action to prevent the contamination from spreading.
With the increasing environmental pollution, water quality testing has become an important means to ensure human health and ecological balance. As an efficient and accurate water quality testing equipment, the multi-parameter water quality detector has significant advantages in the rapid detection of a variety of pollutants in water. Multi-parameter water quality detector professional new testing instrument [Recommended]: Multi-parameter water quality detector is a water quality testing instrument integrating a variety of detection functions, which can simultaneously measure a number of indicators in water quality, such as COD, ammonia nitrogen, total phosphorus, total nitrogen, phosphate, nitrate nitrogen, heavy metal elements, permanganate, sulfate, fluoride, sulfide, cyanide, total cyanide, volatile phenol, aniline, formaldehyde, methanol, hanging white block, silicon dioxide, hydrogen peroxide, turbidity, color, suspended solids, dissolved oxygen, urea, Cyanuric acid, nitrite, ozone, pH, chlorine dioxide and other indicators.
The multi-parameter water quality detector adopts a precision color cell design and uses the same light source, which can solve the problem of detection result error caused by light source error, and the detection result is more accurate. The light source adopts imported ultra-bright light-emitting diode, and the brightness of the light source can be automatically adjusted and calibrated. With a variety of prefabricated reagents, the cumbersome pretreatment steps are omitted, and the sample can be obtained through the principle of photoelectric colorimetry.