Business News Network

Water ammonia sensor supplier by BOQU: Why need to measure water color ? About drinking water, color is an important measurement for aesthetic purposes affecting the appearance and taste of the water. Color in drinking water may result from coloured organic substances or natural metallic ions such as iron, manganese and copper. Color causing organic substances are of particular concern due to their potential for disinfection by-product formation when they are combined with chlorine.

Second step is Filtration,after sedimentation in pre treatment, the clear water will pass through the filters,usually, the filter is composed of sand, gravel, and charcoal) and pore size.to protect filters, we need to monitor turbidity,suspended solid,alkalinity and other water quality parameters. Third step is disinfection process.this step is very important, after water filtered,we should add disinfectant in filtered water,such as chlorine, chloramine ,it’s order to kill remaining parasites, bacteria, and viruses,ensure water is safe when piped to home.

Successful aquaculture for fish and shrimp depends on water quality management.the water quality has directly effect on fish living,feed, grow and Reproduction.Fish diseases usually occur after stress from impaired water quality. water quality problems may change suddenly from environmental phenomena (heavy rains, pond overturn etc), or gradually through mismanagement.Different fish or shrimp species have different and specific range of water quality values,usually farmer need to measure temperature, pH, dissolved oxygen,salinity, hardness,ammonia etc.)

Our ecosystems and health are at risk from severe water pollution. Businesses that rely on strict water quality requirements to keep fish and snails healthy face the risk of poor water quality and contamination. Residents of coastal towns need to be protected from adverse impacts on water hygiene and water quality, as these impacts are evident. Monitoring water quality in ports, rivers, oceans, and surface areas is vital to businesses and the general public. We can provide a variety of professional water quality sensor to monitor water quality and ensure the water is used for its intended purpose.

How Do Water Sensors Work? Sensing Mechanisms: Water sensors employ different sensing mechanisms, such as conductivity, capacitance, and optical sensors. Conductivity sensors detect water by measuring changes in electrical conductivity when water comes into contact with conductive elements. Capacitance sensors detect water by measuring changes in capacitance when the sensor’s electrical field interacts with water. Optical sensors use light to detect water presence, often through reflection or absorption patterns.

Water resources’ chemical, biological, and physical characteristics indicate their quality. People who depend on the water supply may feel the effects of even little parameter changes like pH readings. To keep water of high quality, it is necessary to monitor its conductivity, dissolved oxygen, pH, salinity, temperature, and turbidity. Water quality monitors are now used in many systems for the same reason. Water quality sensors may monitor and manage water conditions on aquaculture farms, where aquatic creatures like fish, shellfish, and algae are grown. Water quality sensors may aid aquaculture species in reaching their full potential by monitoring factors including dissolved oxygen, pH level, salinity levels, and ammonia. Read additional details at water quality sensor.