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2025-05-12 00:49:33Real-time monitoring of oil concentration in water The basic principle of oil in water sensor is to use the characteristic that oil will produce fluorescence under ultraviolet light, and measure the fluorescence intensity to infer the concentration of oil. The sensor uses ultraviolet light as the excitation light source to illuminate the water sample to be tested. The oil absorbs ultraviolet light and excites fluorescence. The fluorescence signal is received by the photo detector and converted into an electrical signal, and then the strength of the electrical signal is measured to determine the concentration of oil in the water sample, so as to achieve real-time monitoring of the concentration of oil in the water.
Multi-scenario water quality monitoring
Water source water quality monitoring
It can be used to monitor the water quality of water sources. By continuously monitoring the oil in the water source, the pollution source can be found in time, thereby ensuring the safety of drinking water and water supply.Sewage treatment plant discharge monitoring Sewage treatment plants may produce oily wastewater in the process of treating sewage. The oil-in-water sensor can monitor the water quality of its discharge to ensure that it meets the discharge standards and avoids secondary pollution to the environment.
Monitoring of water bodies such as rivers and lakes Water bodies such as rivers and lakes may be polluted by oil substances, such as ship leakage and industrial wastewater discharge. This sensor can monitor the water quality of these water bodies, evaluate the pollution status, and provide a basis for pollution control.
Aquaculture monitoring The online oil-in-water monitor (including oil-in-water sensor) can transmit monitoring data in real time to help farmers understand the water quality. Farmers can use it to understand the oil content in the water body in real time, and reasonably release it according to the needs of fish to improve the growth rate and health level of fish; it can also timely detect abnormal conditions in the water body, such as oil pollution and bacterial growth, and take corresponding measures to avoid the occurrence of diseases and reduce breeding costs and risks; at the same time, it helps farmers better understand the growth of fish, reasonably arrange fishing time, avoid overfishing and resource depletion, and promote the sustainable use of aquatic resources.
Early warning and emergency response It has real-time monitoring and early warning functions, and can issue an alarm in time when abnormal conditions of oil substances in the water body (such as exceeding the pee-set safety threshold) are found, providing valuable time for emergency response and reducing losses caused by pollution.
Assisting scientific research The monitoring data of the sensor can be used in scientific research fields such as ecology and environmental chemistry, helping researchers to gain a deeper understanding of the distribution, migration and transformation of oil substances in water bodies, and provide a scientific basis for environmental protection and governance.
Monitoring of pollution sources and environmental changes By detecting oil substances in water bodies, the location of pollution sources and the types of pollutants can be determined, providing a basis for finding and controlling pollution sources; it can also monitor oil pollutants in water bodies to understand the impact of environmental changes on water bodies and take timely measures to protect water sources.