Table of Contents

Overview

What is a water high quality sensor?

Types of water high quality sensors

pH Sensor

ORP Sensor

Conductivity Sensor

Dissolved Oxygen (DO) Sensor

Residual Chlorine Sensor

Turbidity Sensor

Salinity Sensor

Ozone Sensor

Chemical Oxygen Demand (COD) Sensor

Ammonia Nitrogen Ion (NH3-N)Sensor

Conclusion

Overview

Water is the supply of life, human beings cannot stay without water in life and production activities. The quality of consuming water is intently related to human well being. Water high quality monitoring and administration has become an important topic of recent science. Water quality on-line monitoring system can precisely, well timed and comprehensively replicate the present water quality and improvement developments, to provide a scientific basis for water treatment initiatives. Water high quality monitoring system sensing front-end is the water high quality sensor.
The water quality sensors measure pH, ORP, conductivity, dissolved oxygen, residual chlorine, turbidity, salinity, BOD, COD and different water quality parameters by way of numerous methods similar to chemical, bodily and biological reactions of water, offering knowledge help for researchers, observers and engineers. Applications include laboratory analysis, environmental management enchancment, marine water high quality analysis, hydraulic model calibration, wastewater remedy, and so forth.
What is a water high quality sensor?

Water high quality sensor is a general term for a selection of sensors that measure PH, ORP, residual chlorine, turbidity, suspended solids, COD, BOD, conductivity, salinity, and dissolved oxygen. Water high quality doesn’t check with a specific day by day parameter, it accommodates numerous components to measure the standing of water high quality.
Types of water high quality sensors

Water quality is a general idea that covers a variety. Therefore, building an entire water quality monitoring system is a posh challenge. The excellent news is that with these 9 Apure water high quality sensors and a water quality monitoring system, you probably can simply build your complete water quality monitoring system.
pH Sensor

ORP Sensor

Conductivity Sensor

Dissolved Oxygen Sensor

Residual Chlorine Sensor

Turbidity Sensor

Salinity Sensor

Ozone Sensor

COD Sensor

Ammonia Nitrogen Ion Sensor

pH Sensor

PH is a vital indicator for monitoring industrial wastewater. In industrial wastewater, the variation vary of most microorganisms is pH four.5-9, and the optimum pH range is 6.5-7.5. When the pH worth is below 6.5, fungi start to compete with micro organism. When pH reaches four.5, the bacteria will dominate in the biochemical tank and critically affect the sludge settling. When the pH worth exceeds 9, the metabolic fee of microorganisms might be hindered.
In order to watch the PH value of business wastewater, we usually use PH sensors. PH sensors are sensors that are used to monitor the focus of hydrogen ions in the measured answer and convert it right into a corresponding usable output sign. It is suitable for industrial wastewater, domestic wastewater, agriculture, aquaculture and different non-corrosive weak acidic and weak alkaline surroundings eventualities.
ORP Sensor

Redox potential (ORP) is a vital indicator to measure the standard of aquaculture water, ORP value can reflect the nice or dangerous water high quality. The larger the ORP value, the stronger the oxidation of the water body, the smaller the worth, the stronger the discount of the water body.
The ORP sensor is principally used as the oxygen discount potential of a solution. It can detect ORP data not solely in water, but in addition in soil and culture media. Therefore, it is also a extensively used sensor for steady monitoring of varied water ORP in electric energy, chemical, environmental protection, pharmaceutical, meals and other industries. Usually, will probably be used together with PH sensor.
Conductivity Sensor

Conductivity is the power to conduct electrical current in a physique of water. In water quality monitoring, conductivity is one of the essential indicators to reflect water high quality. The larger the conductivity worth of water, the higher the conductivity, the higher the TDS worth in water. the TDS worth represents the content of dissolved impurities in water. the greater the TDS worth, the greater the content of impurities in water. Conversely, the smaller the impurity content material, the larger the water. Pure, the lower the conductivity.
Conductivity sensors may be divided into electrode conductivity sensors, inductive conductivity sensors and ultrasonic conductivity sensors according to the completely different measurement principles. Electrode conductivity sensors use resistance measurement methodology primarily based on electrolytic conduction precept. Inductive conductivity sensors are primarily based on the principle of electromagnetic induction to realize the measurement of liquid conductivity. Ultrasonic conductivity sensors measure conductivity based on the change of ultrasonic waves in liquids, and the first two sensors are more broadly used.
Apure sensor adopts electrode type conductivity measurement methodology with built-in excessive precision sensor, high accuracy, conductivity measurement vary between 0~20,000μS/cm, measurement error is ±1%FS, high sensitivity. This conductivity sensor comes with a cable related to a transmitter that sends the signal to processing and/or recording gear.
Dissolved Oxygen (DO) Sensor

The molecular oxygen in the air dissolved in water is called dissolved oxygen. The content material of dissolved oxygen in water is carefully associated to the partial stress of oxygen within the air and the temperature of water. Under natural circumstances, the oxygen content within the air does not change much, so the water temperature is the principle factor, the lower the water temperature, the upper the dissolved oxygen content material within the water. The molecular oxygen dissolved in water known as dissolved oxygen, usually denoted as DO, and is expressed in milligrams of oxygen per liter of water. The amount of dissolved oxygen in water is an index to measure the self-purification capacity of water body.
There are two main kinds of Apure dissolved oxygen sensors, KOG-202S Polarographic Dissolved Oxygen Sensor and KOG-206 Optical Dissolved Oxygen Sensor. Continuous detection of dissolved oxygen in liquid.
Residual Chlorine Sensor

Residual chlorine is the general term for the free and bound chlorine remaining within the water after chlorination disinfection and exposure for a certain time frame.
The residual chlorine sensor KCL is used to measure residual chlorine, chlorine dioxide and ozone in water. The electrode construction is easy and straightforward to wash and substitute. It can be used in drinking water remedy plants, canneries, drinking water distribution networks, swimming pools, cooling circulating water, water high quality therapy tasks, and so on. where the residual chlorine content material in aqueous solutions must be continuously monitored.
Turbidity Sensor

Turbidity is attributable to suspended particles in the water. The suspended particles diffusely mirror the incident light. Scattered gentle in the 90 degree direction is often used because the take a look at sign. The scattered light and turbidity are linear in multiple segments, so the sensor must be calibrated at multiple factors.
The KS-710 turbidity sensor is designed and manufactured using the principle of scattered gentle turbidity measurement. It precisely measures the quantity of sunshine passing through the water physique to accurately measure the suspended matter in the water, which may reflect the air pollution of the water physique. In this fashion the turbidity in the water sample is measured and the ultimate value is output after linearization. Commonly utilized in water quality detector for correct measurement of rivers, sewage, wastewater.
Salinity Sensor

Absolute salinity is the ratio of the mass of dissolved matter in sea water to the mass of sea water. Absolute salinity can’t be measured directly, so with the change and improvement of salinity measurement strategies, the corresponding definition of salinity is introduced in sensible application.
Salinity sensors are used to measure the salinity of liquids and solutions and are capable of measuring the whole range from 24 to 52,000 ppm (parts per million). Salinity is the sum of all non-carbonate salts dissolved in water and is normally expressed in components per thousand (1 ppm = 1000 mg/L). Salinity is a crucial measurement in seawater. The salinity level in seawater is pretty constant at about 35 ppm (35,000 mg/L).
Ozone Sensor

Ozone is a kind of allotrope of oxygen, chemical method is O3, method forty seven.998, a light-weight blue gasoline with fishy scent. Ozone has sturdy oxidation, is a stronger oxidant than oxygen, oxidation response can occur at decrease temperatures, corresponding to silver oxidation into silver peroxide, lead sulfide oxidation into lead sulfate, with potassium iodide reaction to generate iodine. Turpentine, gasoline, and so forth. can spontaneously ignite in ozone.
Ozone meter is the precept of ultraviolet absorption method, with secure ultraviolet light source to provide ultraviolet gentle, with mild wave filter out other wavelengths of ultraviolet mild, only allow wavelength 253.7nm via. After passing via the pattern photoelectric sensor, after which via the ozone absorption tank, it reaches the sampling photoelectric sensor. By comparing the electrical indicators of the sample photoelectric sensor with these of the pattern photoelectric sensor, after which calculating the mathematical model, the ozone concentration can be obtained.
Chemical Oxygen Demand (COD) Sensor

Many organic substances dissolved in water take up UV mild. Therefore, by measuring the diploma of absorption of UV mild at 254 nm by these natural substances, the quantity of dissolved organic contaminants in water could be precisely measured.
The Apure COD sensor makes use of two light sources, an ultraviolet light for measuring the COD content material in water and a reference gentle for measuring the turbidity of the water physique, with the sunshine path attenuation being compensated for by a particular algorithm and available to some extent. Eliminate the interference of particulate suspended impurities, thus achieving more stable and reliable measurement.
Ammonia Nitrogen Ion (NH3-N)Sensor

In aquaculture, if the ammonia nitrogen degree within the water is too high, it’s going to poison the fish and shrimp and cause them to die. Therefore, water high quality ammonia hydrogen sensors are especially essential for monitoring ammonia nitrogen concentration. Ammonia nitrogen sensors are used to measure the ammonia nitrogen content material of water quality and are commonly used within the fields of Internet of Things, aquaculture, and sensible agriculture.
Apure ammonia nitrogen sensors are manufactured from ammonium ion selective electrodes primarily based on PVC membranes. It is used for ammonium ion content testing in water with temperature compensation, guaranteeing quick, simple, accurate and economical testing.
Conclusion

Water high quality monitoring involves a variety of fields, different utility sites need to observe totally different parameters, and the design scheme can also be very different. Please contact us for particular product selection and technical operation. We have professional technical engineers to provide you with the best supporting scheme..
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Table of Contents

Overview

What is a water quality sensor?

Types of water quality sensors

pH Sensor

ORP Sensor

Conductivity Sensor

Dissolved Oxygen (DO) Sensor

Residual Chlorine Sensor

Turbidity Sensor

Salinity Sensor

Ozone Sensor

Chemical Oxygen Demand (COD) Sensor

Ammonia Nitrogen Ion (NH3-N)Sensor

Conclusion

Overview

Water is the source of life, human beings can not reside with out water in life and manufacturing activities. The quality of drinking water is intently associated to human health. Water quality monitoring and management has become an necessary topic of contemporary science. Water quality on-line monitoring system can accurately, well timed and comprehensively reflect the present water high quality and growth trends, to supply a scientific basis for water remedy tasks. Water quality monitoring system sensing front-end is the water high quality sensor.
The water high quality sensors measure pH, ORP, conductivity, dissolved oxygen, residual chlorine, turbidity, salinity, BOD, COD and other water quality parameters via numerous methods similar to chemical, physical and organic reactions of water, offering data help for researchers, observers and engineers. Applications embrace laboratory analysis, environmental management improvement, marine water quality evaluation, hydraulic model calibration, wastewater remedy, and so forth.
What is a water quality sensor?

Water high quality sensor is a common term for a wide selection of sensors that measure PH, ORP, residual chlorine, turbidity, suspended solids, COD, BOD, conductivity, salinity, and dissolved oxygen. Water high quality doesn’t refer to a particular daily parameter, it contains numerous components to measure the status of water high quality.
Types of water quality sensors

Water high quality is a general idea that covers a variety. Therefore, constructing a complete water quality monitoring system is a posh project. The good news is that with these nine Apure water high quality sensors and a water high quality monitoring system, you possibly can easily construct your entire water high quality monitoring system.
pH Sensor

ORP Sensor

Conductivity Sensor

Dissolved Oxygen Sensor

Residual Chlorine Sensor

Turbidity Sensor

Salinity Sensor

Ozone Sensor

COD Sensor

Ammonia Nitrogen Ion Sensor

pH Sensor

PH is a crucial indicator for monitoring industrial wastewater. In industrial wastewater, the variation vary of most microorganisms is pH four.5-9, and the optimum pH range is 6.5-7.5. When the pH worth is beneath 6.5, fungi begin to compete with micro organism. When pH reaches four.5, the micro organism will dominate in the biochemical tank and significantly affect the sludge settling. When the pH worth exceeds 9, the metabolic rate of microorganisms will be hindered.
In order to observe the PH worth of business wastewater, we usually use PH sensors. PH sensors are sensors that are used to monitor the concentration of hydrogen ions within the measured resolution and convert it into a corresponding usable output signal. It is appropriate for industrial wastewater, home wastewater, agriculture, aquaculture and different non-corrosive weak acidic and weak alkaline setting situations.
ORP Sensor

Redox potential (ORP) is a vital indicator to measure the quality of aquaculture water, ORP worth can reflect the good or bad water quality. The larger the ORP worth, the stronger the oxidation of the water physique, the smaller the value, the stronger the reduction of the water physique.
The ORP sensor is especially used as the oxygen reduction potential of an answer. It can detect ORP knowledge not solely in water, but in addition in soil and culture media. Therefore, it is also a broadly used sensor for steady monitoring of assorted water ORP in electric energy, chemical, environmental safety, pharmaceutical, meals and other industries. Usually, it is going to be used along with PH sensor.
Conductivity Sensor

Conductivity is the flexibility to conduct electrical present in a physique of water. In water high quality monitoring, conductivity is likely considered one of the essential indicators to mirror water high quality. The higher the conductivity worth of water, the higher the conductivity, the larger the TDS worth in water. the TDS worth represents the content of dissolved impurities in water. the higher the TDS value, the higher the content material of impurities in water. Conversely, the smaller the impurity content, the higher the water. Pure, the lower the conductivity.
Conductivity sensors may be divided into electrode conductivity sensors, inductive conductivity sensors and ultrasonic conductivity sensors according to the totally different measurement ideas. Electrode conductivity sensors use resistance measurement method primarily based on electrolytic conduction precept. Inductive conductivity sensors are based on the principle of electromagnetic induction to attain the measurement of liquid conductivity. Ultrasonic conductivity sensors measure conductivity based mostly on the change of ultrasonic waves in liquids, and the first two sensors are extra extensively used.
Apure sensor adopts electrode kind conductivity measurement technique with built-in high precision sensor, high accuracy, conductivity measurement range between 0~20,000μS/cm, measurement error is ±1%FS, excessive sensitivity. This conductivity sensor comes with a cable related to a transmitter that sends the signal to processing and/or recording tools.
Dissolved Oxygen (DO) Sensor

The molecular oxygen in the air dissolved in water known as dissolved oxygen. The content of dissolved oxygen in water is carefully associated to the partial strain of oxygen in the air and the temperature of water. Under pure circumstances, the oxygen content within the air doesn’t change a lot, so the water temperature is the primary factor, the decrease the water temperature, the upper the dissolved oxygen content in the water. The molecular oxygen dissolved in water is known as dissolved oxygen, often denoted as DO, and is expressed in milligrams of oxygen per liter of water. The amount of dissolved oxygen in water is an index to measure the self-purification capability of water physique.
There are two main types of Apure dissolved oxygen sensors, KOG-202S Polarographic Dissolved Oxygen Sensor and KOG-206 Optical Dissolved Oxygen Sensor. Continuous detection of dissolved oxygen in liquid.
Residual Chlorine Sensor

Residual chlorine is the general time period for the free and certain chlorine remaining in the water after chlorination disinfection and exposure for a certain time frame.
The residual chlorine sensor KCL is used to measure residual chlorine, chlorine dioxide and ozone in water. The electrode construction is straightforward and easy to wash and replace. It can be utilized in consuming water treatment crops, canneries, drinking water distribution networks, swimming swimming pools, cooling circulating water, water high quality remedy projects, and so on. the place the residual chlorine content material in aqueous options needs to be constantly monitored.
Turbidity Sensor

Turbidity is caused by suspended particles within the water. The suspended particles diffusely mirror the incident light. Scattered mild in the ninety degree path is normally used as the take a look at signal. The scattered mild and turbidity are linear in a number of segments, so the sensor must be calibrated at a number of points.
The KS-710 turbidity sensor is designed and manufactured using the principle of scattered gentle turbidity measurement. It accurately measures the amount of light passing via the water body to precisely measure the suspended matter in the water, which can mirror the pollution of the water body. In this manner the turbidity within the water sample is measured and the ultimate worth is output after linearization. Commonly utilized in water high quality detector for correct measurement of rivers, sewage, wastewater.
Salinity Sensor

Absolute salinity is the ratio of the mass of dissolved matter in sea water to the mass of sea water. Absolute salinity cannot be measured instantly, so with the change and improvement of salinity measurement methods, the corresponding definition of salinity is launched in practical software.
Salinity sensors are used to measure the salinity of liquids and solutions and are capable of measuring the complete range from 24 to fifty two,000 ppm (parts per million). Salinity is the sum of all non-carbonate salts dissolved in water and is normally expressed in parts per thousand (1 ppm = a thousand mg/L). Salinity is a crucial measurement in seawater. The salinity stage in seawater is pretty constant at about 35 ppm (35,000 mg/L).
Ozone Sensor

Ozone is a kind of allotrope of oxygen, chemical formula is O3, method forty seven.998, a light blue gasoline with fishy odor. Ozone has strong oxidation, is a stronger oxidant than oxygen, oxidation reaction can occur at lower temperatures, similar to silver oxidation into silver peroxide, lead sulfide oxidation into lead sulfate, with potassium iodide response to generate iodine. digital pressure gauge , fuel, and so forth. can spontaneously ignite in ozone.
Ozone meter is the principle of ultraviolet absorption methodology, with steady ultraviolet light source to produce ultraviolet mild, with light wave filter out different wavelengths of ultraviolet gentle, only allow wavelength 253.7nm by way of. After passing by way of the pattern photoelectric sensor, after which through the ozone absorption tank, it reaches the sampling photoelectric sensor. By evaluating the electrical alerts of the sample photoelectric sensor with those of the sample photoelectric sensor, and then calculating the mathematical model, the ozone focus can be obtained.
Chemical Oxygen Demand (COD) Sensor

Many natural substances dissolved in water take up UV light. Therefore, by measuring the degree of absorption of UV gentle at 254 nm by these natural substances, the quantity of dissolved natural contaminants in water may be precisely measured.
The Apure COD sensor uses two light sources, an ultraviolet mild for measuring the COD content in water and a reference mild for measuring the turbidity of the water body, with the sunshine path attenuation being compensated for by a particular algorithm and out there to some extent. Eliminate the interference of particulate suspended impurities, thus reaching more stable and dependable measurement.
Ammonia Nitrogen Ion (NH3-N)Sensor

In aquaculture, if the ammonia nitrogen level in the water is just too excessive, it will poison the fish and shrimp and cause them to die. Therefore, water quality ammonia hydrogen sensors are particularly needed for monitoring ammonia nitrogen focus. Ammonia nitrogen sensors are used to measure the ammonia nitrogen content of water quality and are generally used within the fields of Internet of Things, aquaculture, and good agriculture.
Apure ammonia nitrogen sensors are manufactured from ammonium ion selective electrodes based on PVC membranes. It is used for ammonium ion content testing in water with temperature compensation, making certain fast, simple, correct and economical testing.
Conclusion

Water quality monitoring includes a variety of fields, totally different utility websites need to watch completely different parameters, and the design scheme can additionally be very completely different. Please contact us for specific product choice and technical operation. We have professional technical engineers to offer you one of the best supporting scheme..