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Benefits of Using YSI dissolved oxygen sensor in Aquaculture
Aquaculture, the farming of aquatic organisms such as fish, shellfish, and plants, has become an increasingly important industry as global demand for seafood continues to rise. In order to ensure the health and productivity of aquaculture operations, it is essential to monitor water quality parameters such as dissolved oxygen levels. Dissolved oxygen is crucial for the survival of aquatic organisms, as it is necessary for respiration and other metabolic processes.
One of the most reliable and accurate tools for measuring dissolved oxygen in aquaculture settings is the YSI dissolved oxygen sensor. YSI, a leading manufacturer of water quality monitoring equipment, offers a range of sensors that are specifically designed for use in aquaculture applications. These sensors are highly sensitive and provide real-time data on dissolved oxygen levels, allowing aquaculturists to make informed decisions about water quality management.
Instrument model | FET-8920 | |
Measurement range | Instantaneous flow | (0~2000)m3/h |
Accumulative flow | (0~99999999)m3 | |
Flow rate | (0.5~5)m/s | |
Resolution | 0.001m3/h | |
Accuracy level | Less than 2.5% RS or 0.025m/s.whichever is the largest | |
Conductivity | >20μS/cm | |
(4~20)mA output | Number of channels | Single channel |
Technical features | Isolated,reversible,adjustable, meter/transmission dual mode | |
Loop resistance | 400Ω(Max), DC 24V | |
Transmission accuracy | ±0.1mA | |
Control output | Number of channels | Single channel |
Electrical contact | Semiconductor photoelectric relay | |
Load capacity | 50mA(Max), DC 30V | |
Control mode | Instantaneous amount upper/lower limit alarm | |
Digital output | RS485(MODBUS protocol ),Impulse output1KHz | |
Working power | Power supply | DC 9~28V |
source | Power Consumption | ≤3.0W |
Diameter | DN40~DN300(can be customized) | |
Working environment | Temperature:(0~50) ℃; Relative humidity: ≤85%RH(none condensation) | |
Storage environment | Temperature:(-20~60) ℃; Relative humidity: ≤85%RH(none condensation) | |
Protection grade | IP65 | |
Installation method | Insertion pipeline installation |
One of the key benefits of using a YSI dissolved oxygen sensor in aquaculture is the accuracy of the data it provides. The sensor uses advanced technology to measure dissolved oxygen levels with precision, ensuring that aquaculturists have reliable information about the health of their water. This accuracy is essential for maintaining optimal conditions for aquatic organisms, as even small fluctuations in dissolved oxygen levels can have a significant impact on their growth and survival.
In addition to accuracy, YSI dissolved oxygen sensors are also known for their durability and reliability. These sensors are designed to withstand the harsh conditions of aquaculture environments, including exposure to saltwater, chemicals, and debris. This durability ensures that the sensor will continue to provide accurate data over an extended period of time, reducing the need for frequent maintenance and replacement.
Another benefit of using a YSI dissolved oxygen sensor in aquaculture is the ease of use. These sensors are designed to be user-friendly, with simple interfaces and intuitive controls that make them easy to operate. This ease of use allows aquaculturists to quickly and efficiently monitor dissolved oxygen levels, saving time and effort in the process.
In addition to monitoring dissolved oxygen levels, YSI sensors can also be used to track other water quality parameters such as temperature, pH, and conductivity. This comprehensive monitoring capability allows aquaculturists to gain a more complete understanding of their water quality, enabling them to make informed decisions about management practices.
Overall, the use of a YSI dissolved oxygen sensor in aquaculture offers numerous benefits, including accuracy, durability, ease of use, and comprehensive monitoring capabilities. By investing in a high-quality sensor, aquaculturists can ensure the health and productivity of their operations, leading to improved growth rates, higher yields, and ultimately, greater profitability. With the increasing demand for seafood worldwide, the importance of maintaining optimal water quality in aquaculture cannot be overstated, making the use of a YSI dissolved oxygen sensor a valuable investment for any aquaculture operation.
How to Properly Calibrate and Maintain YSI dissolved oxygen sensor
YSI dissolved oxygen sensors are essential tools for monitoring water quality in various industries, including environmental monitoring, aquaculture, and wastewater treatment. These sensors measure the amount of oxygen dissolved in water, which is crucial for the health of aquatic organisms and the overall ecosystem. To ensure accurate and reliable measurements, it is important to properly calibrate and maintain YSI dissolved oxygen sensors on a regular basis.
Calibration is the process of adjusting the sensor to accurately measure dissolved oxygen levels in water. This is done by comparing the sensor readings to a known standard, such as a calibration solution with a known concentration of oxygen. Calibration should be done before each use or at least once a month to ensure the accuracy of the sensor readings.
To calibrate a YSI dissolved oxygen sensor, you will need a calibration solution, a beaker or container, and a calibration kit. Start by filling the container with the calibration solution and placing the sensor in the solution. Allow the sensor to stabilize for a few minutes before taking a reading. Compare the sensor reading to the known concentration of oxygen in the calibration solution and adjust the sensor if necessary.
In addition to calibration, it is important to regularly maintain YSI dissolved oxygen sensors to ensure their proper functioning. This includes cleaning the sensor after each use to remove any debris or contaminants that may affect the accuracy of the readings. Use a soft brush or cloth to gently clean the sensor and rinse it with clean water before storing it.
It is also important to store YSI dissolved oxygen sensors properly when not in use. Store the sensor in a clean, dry place away from direct sunlight and extreme temperatures. Avoid storing the sensor in a humid environment, as this can lead to condensation inside the sensor and affect its performance.
Regularly inspect the sensor for any signs of damage or wear, such as cracks or corrosion. If you notice any damage, replace the sensor immediately to prevent inaccurate readings. It is also a good idea to keep a log of sensor maintenance and calibration activities to track the sensor’s performance over time.
Measurement range | N,N-Diethyl-1,4-phenylenediamine (DPD) spectrophotometry | |||
Model | CLA-7112 | CLA-7212 | CLA-7113 | CLA-7213 |
Inlet channel | Single channel | Double channel | Single channel | Double channel |
Measurement range | Free chlorine:(0.0-2.0)mg/L ,Calculated as Cl2; | Free chlorine:(0.5-10.0)mg/L ,Calculated as Cl2; | ||
pH:(0-14);Temperature:(0-100)℃ | ||||
Accuracy | Free chlorine:±10% or ±0.05mg/L(take the large value),Calculated as Cl2; | Free chlorine:±10% or±0.25mg/L(take the large value),Calculated as Cl2; | ||
pH:±0.1pH;Temperature:±0.5℃ | ||||
Measurement Period | ≤2.5min | |||
Sampling interval | The interval (1~999) min can be set arbitrarily | |||
Maintenance cycle | Recommended once a month (see maintenance chapter) | |||
Environmental requirements | A ventilated and dry room without strong vibration;Recommended room temperature:(15~28)℃;Relative humidity:≤85%(No condensation) | |||
Water sample flow | (200-400) mL/min | |||
Inlet pressure | (0.1-0.3) bar | |||
Inlet water temperature range | (0-40)℃ | |||
Power supply | AC (100-240)V; 50/60Hz | |||
Power | 120W | |||
Power connection | The 3-core power cord with plug is connected to the mains socket with ground wire | |||
Data output | RS232/RS485/(4~20)mA | |||
Size | H*W*D:(800*400*200)mm |
In conclusion, proper calibration and maintenance of YSI dissolved oxygen sensors are essential for accurate and reliable measurements of dissolved oxygen levels in water. By following the steps outlined in this article, you can ensure that your sensor provides accurate readings and continues to function properly for years to come. Remember to calibrate the sensor before each use, clean it after each use, store it properly, and regularly inspect it for any signs of damage. With proper care and maintenance, your YSI dissolved oxygen sensor will continue to be a valuable tool for monitoring water quality in various applications.