1. Non invasive measurement to protect system integritySensors do not require contact with media, do not damage pipeline structures, and do not pose a risk of contamination or blockage to media. They are particularly suitable for measuring corrosive, impurity containing, or high hygiene demanding media.

2. Easy installation without affecting production operationThe installation process does not require stopping the flow or cutting off the pipeline, only cleaning the outer wall of the pipeline and fixing the sensor, greatly reducing the installation time, avoiding production interruptions caused by equipment installation, and reducing the operation and maintenance costs of the enterprise.

3. Strong adaptability, covering multiple scenarios and working conditionsIt can adapt to various pipeline materials such as metal (carbon steel, stainless steel, etc.), plastic (PVC, PE, etc.), glass, etc. It supports measurement of different types of media such as liquids and slurries, and can work stably in complex environments such as high and low temperatures, humidity, and vibration.

4. Low maintenance cost and long service lifeThe sensor does not come into direct contact with the medium, reducing issues such as wear and corrosion. The equipment failure rate is low, and daily maintenance only requires regular cleaning of the sensor and the outer wall of the pipeline, extending the overall service life of the equipment.

Note: The above parameters are the basic configuration of YST305SBWM1 equipment, and different parameter configurations correspond to different prices. For details, please contact the sales personnel.

1. Match pipeline diameterAccording to the actual measurement of the inner diameter of the pipeline, select the corresponding range of equipment. If the diameter deviation is too large, it will affect the measurement stability. It is necessary to first confirm whether the diameter adaptation range of YST305SBWM1 equipment covers the actual needs.

2. Clarify the characteristics of the mediumSelect the appropriate sensor material and measurement principle based on the type of medium (such as clean water, sewage, slurry containing impurities, corrosive liquids) (time difference method is suitable for clean media, Doppler method is suitable for media containing suspended particles).

3. Consider the operating temperatureBased on the temperature of the medium and the installation environment, select the corresponding configuration for the YST305SBWM1 equipment to avoid problems caused by temperature exceeding the equipment's tolerance range (such as selecting a high temperature adaptation configuration for thermal heating).

4. Confirm installation conditionsAccording to the installation location of the pipeline (indoor/outdoor, overhead/buried) and the size of the space, choose the sensor installation method (adhesive type, bundled type) and whether a protective shell is needed (such as choosing a waterproof and dustproof shell for outdoor use).

5. Docking data requirementsConfirm the signal output mode (wired/wireless) and protocol compatibility of YST305SBWM1 equipment based on whether remote monitoring, data storage, or linkage with control systems (such as SCADA systems) is required.

• sewage treatment plantUsed for flow monitoring of inlet pipelines, aeration tank return pipelines, and outlet pipelines, to assist in optimizing sewage treatment processes (such as adjusting aeration rates and reflux ratios).

• waterworksAdapt to the raw water intake pipeline, sedimentation tank outlet pipeline, and clean water tank transmission pipeline, monitor the water supply in real-time, ensure stable water output from the water plant, and avoid insufficient or wasteful water supply in the pipeline network.

• Water purification plants (such as industrial water purification and drinking water purification)Used for flow measurement in filtration systems, reverse osmosis systems, and other processes to ensure water volume matching in each stage of the water purification process and improve water purification efficiency.

• Municipal water supply networkInstalled on the main and branch pipes of the municipal water supply network, as well as the entrance pipes of residential areas, to monitor the flow distribution of the network, assist in identifying leaks in the network, and optimize water supply pressure.

• Environmental water treatment (such as industrial wastewater pretreatment, river treatment and water replenishment)Monitor the flow rate before and after wastewater treatment to ensure compliance with discharge standards; It can also be used for river water replenishment pipelines to control the amount of water replenishment to maintain the ecological water level of the river.

• Thermal heatingAdapt to the primary network (high temperature water) and secondary network (low temperature water) pipelines of the heating company, monitor heating flow in real time, assist in balancing heating supply in various areas, and improve heating efficiency.

• Hospital wastewater treatmentUsed for flow monitoring of hospital wastewater collection pipelines and pipelines before and after disinfection treatment, to avoid wastewater leakage and ensure stable flow in the disinfection process, ensuring treatment effectiveness.

• Chemical wastewater treatmentYST305SBWM1 equipment is used to prevent sensor corrosion and achieve safe monitoring of flow rates in various stages of wastewater treatment for corrosive and impurity containing wastewater pipelines in chemical enterprises.

• River water quality monitoringInstall equipment along the monitoring stations and pipelines along the river (such as water intake monitoring and replenishment monitoring), combined with water quality sensors, to achieve synchronous collection of flow and water quality data.

• Smart rural water managementSuitable for rural centralized water supply pipelines and sewage treatment plant water pipelines, with simple equipment maintenance and no need for complex construction, in line with the characteristics of dispersed rural water stations and limited operation and maintenance personnel.

1. Intelligent and data interconnection upgradeMore YST305SBVM1 devices are integrated with IoT modules, supporting remote data viewing, historical data storage, and abnormal alarms (such as flow mutation reminders) through cloud platforms. They can seamlessly integrate with smart water management, smart heating, and other systems to achieve full process digital management.

2. Low power consumption and outdoor adaptation optimizationFor outdoor scenarios without electricity supply (such as river monitoring and rural water management), the YST305SBWM1 equipment gradually adopts a combination of low-power chips and solar power supply to extend battery life and reduce outdoor operation and maintenance frequency.

3. Improvement of adaptive capabilitySome YST305SBWM1 equipment can automatically identify pipeline materials and medium types, dynamically adjust measurement parameters (such as ultrasonic emission frequency and signal gain), reduce manual debugging difficulty, and improve measurement stability under complex working conditions.

4. Miniaturization and integrated designThe integration of the host and sensors of YST305SBVM1 equipment continues to improve, and some configurations achieve the integration of sensors and small hosts, suitable for narrow installation spaces (such as municipal pipeline wells and narrow pipelines between equipment).

• Sewage treatment plant operation and maintenance personnelPreviously, invasive flow devices were used, and the sludge in the pipeline often blocked the sensors, requiring them to be removed and cleaned every month. After replacing the YST305SBWM1 equipment from Dalian Yister, there was no need to remove the pipeline, and there were no problems for more than six months. The data was also very stable, saving a lot of maintenance time. ”

• Technical personnel of water treatment plantWhen renovating the water plant, we were afraid that the flow would stop and affect the residents' water supply. Therefore, we chose the YST305SBWM1 equipment from Dalian Yister and installed it on the same day without interrupting the water supply. And the data can be directly transmitted to the central control system, making it convenient for us to adjust the water production in real time, which is very practical. ”

• Staff of Thermal Power CompanyThe pipeline temperature is high during the heating season, and the previous flow equipment often has problems. The high-temperature resistance configuration of Dalian Yister YST305SBWM1 equipment is very reliable, and it can accurately monitor the secondary network flow. After adjusting the heating capacity based on the data, there were significantly fewer user complaints. ”

• Hospital Logistics ManagerThe hospital wastewater contains bacteria, and the YST305SBVM1 equipment from Dalian Yister does not need to come into contact with the wastewater, making it highly safe. Moreover, the equipment operates quietly and is installed next to the wastewater treatment station, without affecting the normal environment of the hospital. ”

• Rural Water AdministratorThe rural water supply points are scattered, and the previous flow equipment required frequent on-site meter reading. Now, the Dalian Yister YST305SBWM1 equipment used can wirelessly transmit data, and the flow of all stations can be viewed in the office, which greatly improves the operation and maintenance efficiency. ”

• Scenario requirementsThe inlet pipeline of the sewage treatment plant contains a large amount of suspended solids, and the original invasive flow equipment is frequently blocked, requiring monthly shutdown for cleaning, which affects the treatment efficiency; At the same time, it is necessary to monitor the reflux flow of the aeration tank and optimize the process parameters.

• SolutionWe installed YST305BWM1 equipment on the inlet pipeline and aeration tank return pipeline respectively, using the Doppler measurement principle (suitable for media containing suspended solids), and the equipment was connected to the central control system through RS485.

• Application effectInstallation does not require shutdown, and the equipment has been running for 6 months without any blockage; Real time traffic data helps the operation and maintenance team adjust the reflux ratio, increasing the COD removal rate of sewage treatment by 5%, while reducing the loss of processing capacity caused by downtime maintenance.

• Scenario requirementsThere is an unknown leak in the municipal water supply pipeline network, and it is necessary to monitor the flow rate of each area's pipeline network and locate the leak area (if the flow rate increases abnormally at night, it may indicate a leak).

• SolutionWe have installed YST305SBWM1 equipment in 12 main branch nodes and 8 residential entrance pipelines in the urban area. The equipment supports NB IoT wireless transmission and real-time data upload to the municipal smart pipeline network platform.

• Application effectBy analyzing the flow data of each node, three areas with abnormal nighttime flow were identified. After on-site investigation, the leakage points were confirmed and repaired, reducing the monthly loss of tap water by about 2000 tons and lowering the operating costs of the pipeline network.

• Scenario requirementsHospital wastewater contains bacteria and residual disinfectants. It is necessary to monitor the amount of wastewater collected and discharged after disinfection to ensure that the wastewater meets the discharge standards, while avoiding contamination or corrosion caused by sensor contact with the wastewater.

• SolutionWe installed YST305SBWM1 equipment in the outlet pipelines of the wastewater collection tank and disinfection device, using waterproof and dustproof enclosures to adapt to the humid environment of the treatment station, and synchronizing data to the hospital logistics monitoring system.

• Application effectThe equipment runs stably without corrosion or other problems, and real-time flow data ensures that the wastewater treatment capacity matches the disinfection dosage. Multiple environmental tests have met the standards, while ensuring the safety of operation and maintenance personnel.