Since establishment, Shanghai Boqu Instrument Co., Ltd. has been focusing on the quality and performance of dissolved oxygen meter. It is made by high-technology equipment and processed by exquisite materials which makes it of finest quality in the industry. Until now, it is naturally this product enjoys high popularity among the customers at home and abroad.

The finest turbine flow meter accelerate BOQU to win more fame in industrial flow meter industry. We will show you the online turbidity meter series that is most popular with customers. BOQU turbine water flow meter is created in a professional way. Conducted by exceptional interior designers, the design, including elements of shapes, color mix, and style is done in line with the market trends. With the built-in self-diagnosis function, it can make sure the accurate data be delivered. The product performance is reliable and its service life is relatively long. It supports multi-channel measurements in water samples.

In order to satisfy users, we provide both high quality laboratory water quality meter and first-rate service. Ask!

Along with our inner QC testing, Shanghai Boqu Instrument Co., Ltd. also works to get a third party certificate to confirm that the superior quality and functionality of our goods. Our quality management applications are detailed, from the selection of materials for delivery of the final product.

Boasting years of experience in designing and manufacturing cod analyzer, Boqu Instrument has been a reputable manufacturer in the domestic and international market. Boqu Instrument has created a number of successful series, and dissolved ozone analyzer is one of them. BOQU multiparameter water quality probe has to go through a series of reliable tests. It has passed the salt spray test, damp-heat aging test, low-temperature aging test, and shock-proof tests. The product has achieved the maintenance-free performance. The product has the advantages of oxidation resistance. All components are welded seamlessly with stainless steel materials to prevent the chemical reaction. Its accuracy and high precision contribute to its low detection limit.

Boqu Instrument aims to be a top manufacturer for residual chlorine sensor. Get info!

The online residual chlorine meter adopts RS485 communication interface for long-distance transmission and standard Modbus protocol, which is easy for system integration. Its shell is made of highly corrosion-resistant materials, and the overall structure has an IP68 protection level, which can work for a long time at a depth of 10 meters underwater and in various harsh working environments. It has a built-in high-precision temperature sensor and temperature compensation algorithm. With the development of the times and the rapid development of science and technology, automated water treatment processes are more and more widely used in practice in small and medium-sized water plants across the country. The important process of automatic chlorination saves a lot of manpower and labor in water treatment. Material resources, and more importantly, the dosage of chlorine can be adjusted in time, which solves the time lag of adjusting the amount of chlorine added by detecting residual chlorine in the factory water (the lag time is usually 2-3 hours). The main features of the online residual chlorine meter are: 1. Microcomputer, LCD backlit liquid crystal display, light touch keyboard, easy to use. 2. Microcomputer data processing, the instrument has built-in 5-point calibration, and users can calibrate 10 more points by themselves. 3. The system can restore factory settings with one key, and users who do not have a laboratory do not need to worry about calibration, and it is truly maintenance-free. 4. USB interface, can store 300 data. 5. Full Chinese concentration direct reading, historical record query, real-time clock display. 6. Advanced positioning structure and high-precision optical path system effectively ensure the accuracy and repeatability of the measured values. 7. Its reliable linear compensation system makes the measurement data more accurate and more stable. 8. Using high-quality imported integrated circuits and photoelectric detection components, it has high overall stability. 9. The performance of the instrument is stable, the resolution is high, and the resolution of the instrument reaches 0.001mg/L. The online residual chlorine meter adopts a modular design and is widely used. The basic transmitter provides simple measurement and alarm functions, and the extended function software and modularization can be applied to special occasions. If necessary, expansion modules can be used. At present, this product has been widely used in electric power, water supply, medicine, chemical industry, food and other industries to continuously measure residual chlorine in water.
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The geothermal energy industry has been growing rapidly over the past few years, thanks to its low carbon footprint and the potential for sustainable energy production. Geothermal energy is generated by harnessing the heat from the earths core - a process that requires precise monitoring and control. One of the most critical components of geothermal energy production is ion meters, which play a crucial role in monitoring the quality and flow of fluids used in the process. In this article, we will explore the role of online ion meters in geothermal energy production.

Introduction to Geothermal Energy Production

Geothermal energy is created by tapping into the earth's natural heat reservoirs and trapping the steam that is generated in the process. This steam is then used to power turbines, producing electricity. In the first step of the process, a well is drilled into the ground until it reaches a geothermal reservoir. Next, water is pumped down the well, where it is heated by the earth's natural heat. The hot water is then pumped back up to the surface, where it is used to produce steam. This steam is then directed towards turbines, where it generates electricity.

Why is Monitoring Fluid Quality Important in Geothermal Energy Production?

Fluid quality is a critical factor in geothermal energy production. The water that is pumped down to the geothermal reservoir must be of a certain quality to prevent damage to the well and the surrounding environment. For example, water that is too acidic can corrode the well casing, causing leaks and other environmental damage. On the other hand, water that is too alkaline can cause mineral fouling, which can clog the well and reduce its overall efficiency. For this reason, it is essential to monitor the water's pH levels and other chemical parameters regularly.

What are Ion Meters?

Ion meters are sensing devices used to measure the concentration of ions in a fluid. These meters use an electrode to measure the electrical potential of the fluid, which is then converted into a concentration value. In geothermal energy production, ion meters are used to measure the concentration of minerals such as calcium, magnesium, and silica in the geothermal fluid. These minerals can cause scaling and other issues if their concentrations are too high.

How Do Online Ion Meters Work?

Online ion meters are connected to a data acquisition system that continuously monitors the fluid concentrations and feeds the measurements back to a central control room. This allows operators to make real-time adjustments to the injection rate and chemistry of the fluid to maintain optimum conditions. Advanced online ion meters are also equipped with alarms that notify operators when critical levels are reached or exceeded, allowing them to take corrective action immediately.

Conclusion

Geothermal energy production is an emerging industry with a lot of potential for sustainable energy production. One of the most critical components of geothermal energy production is the monitoring and control of the quality and flow of the geothermal fluid. Online ion meters play a crucial role in this process by continuously monitoring the fluid's chemical composition and alerting operators of any potential issues. As the demand for sustainable energy sources continues to grow, we can expect to see more advanced and sophisticated monitoring systems, including online ion meters, being deployed in geothermal energy production.

However, with the increased prevalence of water analyzer, it has become far more affordable.
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Water treatment plays a crucial role in ensuring the safety and quality of our drinking water. As populations grow and environmental pressures increase, the demand for efficient and effective water treatment technologies becomes ever more pressing. Membrane filtration systems are a widely used technology for water treatment, and their performance can be optimized using oxidation-reduction potential (ORP) meters. In this article, we will explore the importance of ORP meters in optimizing membrane filtration systems and how they can be utilized to ensure the delivery of safe, clean water.

The Role of Membrane Filtration Systems in Water Treatment

Membrane filtration is a physical process that separates particles from water by passing it through a semi-permeable membrane. These systems are used to remove contaminants such as bacteria, viruses, and other particles that can cause waterborne diseases. There are various types of membrane filtration systems, including reverse osmosis, nanofiltration, ultrafiltration, and microfiltration, each with its own specific application and level of filtration. These systems are an integral part of water treatment plants, industrial processes, and residential water purification systems, and their performance directly affects the quality of the treated water.

Membrane filtration systems are designed to remove particles based on their size, but their efficiency can be affected by various factors, including fouling, scaling, and chemical oxidation-reduction reactions. These factors can reduce the flow rate, increase energy consumption, and compromise the quality of the treated water. By monitoring and controlling these factors, the performance of membrane filtration systems can be optimized to ensure the consistent delivery of safe, clean water.

The Importance of ORP Meters in Water Treatment

ORP meters are widely used in water treatment to measure the oxidation-reduction potential of water. This measurement provides valuable information about the water's ability to oxidize or reduce contaminants and is a key parameter for understanding the chemical reactions that occur in water treatment processes. ORP meters are particularly important for monitoring the efficacy of disinfection processes, such as chlorination and ozonation, as well as for controlling the formation of disinfection byproducts.

In membrane filtration systems, ORP meters play a crucial role in monitoring and controlling chemical reactions that can affect the performance of the system. By measuring the ORP of the influent and effluent water, operators can assess the effectiveness of oxidation-reduction reactions and identify potential issues that may impact the performance of the system. This information allows operators to make informed decisions about process optimization, chemical dosing, and system maintenance to ensure the efficient operation of the membrane filtration system.

Optimizing Membrane Filtration Systems with ORP Meters

The use of ORP meters in optimizing membrane filtration systems begins with the monitoring of the oxidation-reduction potential of the influent and effluent water. By continuously measuring and recording the ORP values, operators can identify trends and anomalies that may indicate issues such as fouling, scaling, or chemical imbalances. These insights allow operators to take proactive measures to address these issues before they compromise the performance of the system.

In addition to monitoring the ORP values, ORP meters can be used to control chemical dosing in membrane filtration systems. By maintaining the optimal ORP range, operators can ensure the efficient oxidation of contaminants and minimize the formation of disinfection byproducts. This level of control helps to improve the overall performance of the system, reduce energy consumption, and extend the lifespan of the membranes, ultimately resulting in cost savings and improved water quality.

Benefits of Utilizing ORP Meters in Membrane Filtration Systems

The use of ORP meters in membrane filtration systems offers several key benefits that contribute to the overall efficiency and effectiveness of water treatment processes. By providing real-time information about the oxidation-reduction potential of water, ORP meters enable operators to make informed decisions about process optimization, chemical dosing, and system maintenance. This level of control helps to minimize the risk of fouling, scaling, and chemical imbalances, ensuring the consistent delivery of safe, clean water.

Furthermore, the use of ORP meters allows operators to proactively address potential issues before they compromise the performance of the system. By monitoring trends and anomalies in the ORP values, operators can identify issues such as fouling, scaling, or chemical imbalances, and take corrective actions to prevent further deterioration of the system. This proactive approach helps to minimize downtime, reduce maintenance costs, and extend the lifespan of the membrane filtration system, ultimately resulting in greater operational efficiency and cost savings.

Summary

In conclusion, the use of ORP meters is essential in optimizing membrane filtration systems for water treatment. By monitoring and controlling the oxidation-reduction potential of water, operators can ensure the efficient operation of the system, minimize the risk of fouling, scaling, and chemical imbalances, and ultimately deliver safe, clean water. The real-time information provided by ORP meters enables operators to make informed decisions about process optimization, chemical dosing, and system maintenance, resulting in cost savings and improved water quality. As the demand for efficient and effective water treatment technologies continues to grow, the utilization of ORP meters in membrane filtration systems will play an increasingly important role in ensuring the reliable delivery of safe, clean water to communities around the world.