Install instruments like electromagnetic flowmeters, temperature/pressure transmitters, flow controllers in the pressure pumps, water injection pipelines, and water injection wells to monitor the water injection volume, pressure, and level changes in real time so that the pressure and volume of the well-injected water can be controlled.
Various monitoring instruments are installed in the water storage tanks, pools, and pipelines of the water supply pump station to monitor the operation of the facilities in real-time. Through advanced cloud computing and big data technology, production data is integrated for timely alarms and early warnings.
Ballast tank level monitoring achieves precise control of the ballast water system by using equipment such as electromagnetic flowmeters, level transmitters, and pressure transmitters to monitor data on inflow, tank liquid level, and pressure.
Real-time monitoring of groundwater monitoring wells in the water source area is conducted using monitoring instruments, obtaining data such as water level and flow, thus allowing timely understanding of groundwater resource extraction and usage, providing early warnings, and ensuring the rational use of water resources.
Pressure Transmitters are needed to monitor the pressure in the gas supply pipeline of the compressed gas cylinder to ensure safety.
Wind turbine generator require a control system to optimize the direction of the turbine in accordance with the wind direction (yaw control) and adjust the angle of the blades (pitch control). This control system is completed by the cylinder system based on the hydraulic principle, in which the pressure sensor plays an important role.
Electromagnetic flowmeters, ultrasonic flowmeters, level transmitters, pressure transmitters are installed in the heat exchange station heating system to obtain real-time data on pipeline flow, heat, temperature, and pressure, ensuring the normal operation of the heat exchange station.
The pressure-release pond is an effective device for regulating the pressure of the water supply network. It can adjust the pipe network pressure by increasing or decreasing the water volume, maintaining it at a normal level. Different instruments need to be installed at various stages of the pressure-release pond.
With the pressure transmitter, the pressure value of the hydraulic oil circuit system of the injection molding machine is monitored in real time, so as to provide reliable closed-loop control feedback signals for the stable operation of the hydraulic system.
Perfect coffee needs pressure. Water and steam pressure monitoring of the coffee machine ensures safe and high-quality coffee production. Accurately measuring pressure is required during the coffee bean extraction, hot water delivery, and cleaning of coffee machines.
There are a large number of application scenarios of oil, gas, water and other fluid medias in industrial production, which are often stored in tanks of various sizes. Instruments can be installed to monitor the liquid level and pressure changes in the tanks, and automation management can be achieved through platforms and networks.
A gas gathering station is a station where natural gas from multiple wells is collected together and processed. Real-time monitoring of data changes such as gas and liquid flow in the pipeline helps control the water injection for the purpose of measuring and transporting oil and gas.
By installing monitoring instruments at the rainwater outlet, pressure, level, and flow measurements can be taken, with data being transmitted to the management platform. This helps in timely detection and early warning of pipe burst incidents, ensuring stable drainage.
Real-time collection of reservoir water level, rainfall, and other information at dam monitoring points. Based on the changes in water level and the maximum capacity of the dam, calculations are made, and warnings and alarms are issued when the water level rises above the alert value.
Monitor liquid level and flow data within the river channel. Issue a warning when the water level is about to exceed the river warning line. Additionally, water quality sensor can be installed to report data such as pH value and turbidity to the relevant department's monitoring center when these values exceed normal levels. This monitors water quality, protects the river water environments, and provides data support for the supervision of illegal discharge and leakage.
Pipelines are the most common water transportation and irrigation facilities, effectively reducing evaporation and leakage of water resources during transportation. Installing monitoring instruments in irrigation pipelines to accurately measure discharge flow is a crucial aspect of rational water resource allocation and reasonable water fee collection.
In an inkjet printer, the continuous inkjet state of the ink nozzles ensures print quality. Normal ejection of ink in the nozzle requires continuous application of pressure. The pressure detection component monitors and controls the pressure. High-precision, high-sensitivity pressure sensors control the accurate delivery of ink during printing.
Deionized water is commonly used in industrial manufacturing cleaning processes, and its production requires monitoring to ensure the target pressure values are achieved. In addition, it is necessary to monitor the inlet and outlet for any blockages or leaks, ensuring the normal operation of the production process.
During the process of oil and gas transportation, it is necessary to collect and analyze production and security data related to pipelines and production sites, and generally a supporting SCADA system needs to be built simultaneously. The SCADA system can monitor, control and manage the flow rate, pressure and temperature of the entire pipeline in real time, in order to achieve safe transportation, reduce consumption and improve economic efficiency.
To accurately obtain information about fluid properties, oil layer depth, and other parameters during exploration and extraction, it is necessary to measure formation pressure, fluid density, temperature, and other factors. These data can be remotely transmitted to an online dispatch platform, connected with other oil and gas wells, and integrated into a dedicated IoT network for the oil field. This enables automatic data collection and remote control of oil well production, achieving unified scheduling and intelligent management of oil well production.
Pressure, flow, and liquid level monitoring instruments are deployed in locations such as water tanks, pipelines, and water inlets/outlets. This helps to manage the macro-control of production data in the water plant, ensuring smooth operation and normal production.
Collect status data such as water level in the storage tank, pipeline pressure, and flow within the pumping station, and transmit the data to the platform via wireless networks. When anomalies are detected, timely alarms are issued and fault information is sent to the staff to ensure the normal operation of the water supply system.
Irrigation and drainage pumping stations solve the problem of gravitational water diversion in irrigation areas, enabling cross-basin water transfer. MicroSensor provides real-time pressure and flow monitoring for inlet and outlet pipelines of these pumping stations, contributing to the accurate measurement of information-based irrigation areas and high-standard farmland construction.
Seawater desalination is one of the important methods to address the shortage of fresh water resources in coastal and nearshore areas. During the desalination process, it is necessary to monitor data such as flow and liquid level to ensure the normal operation of the desalination system.
The plasma in a plasma cleaning machine is a state of matter, usually composed of process gases. Therefore, specially designed pressure transmitters must be installed in the relevant gas circuits of the plasma cleaning system to monitor and provide feedback on production data.
Inkjet printers are common equipment in the packaging and printing industry. Utilizing continuous inkjet technology, real-time pressure monitoring and early warning are necessary to ensure continuous and stable ink ejection, guaranteeing print quality.
Oil is a high-quality energy and chemical raw material. That is, the "blood of industry". There are various challenges due to different environmental climates and storage conditions all over the world, as well as various unforeseen situations in the process of monitoring of oil tanks.
Centralizing the oil and gas produced by scattered oil wells, processing and initial processing, and exporting it after meeting the standards. The process requires multiple steps, including oil and gas separation, crude oil dehydration, and natural gas purification, thus requiring various instruments to measure production parameters.
Dispensing machine is used to control adhesive, paint and other liquids. It requires compressed air to be fed into the glue bottle for proper operation. The role of the pressure transmitter is to monitor the pressure at the air inlet to ensure that the dispenser works properly.
Real-time monitoring of water accumulation at low-lying areas, underpasses, and tunnels of bridges, with automatic display of current water level values on information boards or warning messages such as "Passage Allowed" and "No Entry." The system triggers an alarm when water levels are too high, ensuring the safety of vehicles and pedestrians passing through the culvert.
Sump wells are important facilities for convenient daily inspection, prevention, and dredging of drainage pipe blockages. By deploying monitoring instruments at the bottom of the well, a comparison of drainage volume and rainfall is made, allowing for the prediction of flooding points and drainage times under real-time changing drainage conditions. When the water level data exceeds the preset warning value, a timely alarm is given, effectively preventing urban flooding.
The roots flowmeter is the critical equipment in the system of urban gas gate station. As the basis of gas billing, roots flowmeter can accurately calculate the flow of natural gas. It is equipped with pressure transmitter with high accuracy, so as to guarantee the flow accuracy.
Monitoring the pressure, flow and other specifications of the entire pipe network by installing the monitoring device in water supply pipe network well contributes to scientifically scheduling water supply and ensuring the stable operation of the water supply system.
The current comprehensive solution for vadose solution is to adopt vadose solution and membrane concentrated liquid treatment technology, as well as integrated treatment technology for high-risk special wastewater. Monitoring instruments are installed on the treatment equipment to ensure the vadose solution treatment process meets the emission standards, and the data is transmitted to the central platform of the regulatory department.
Natural gas undergoes a long process of transportation pipeline transmission, filtration, odorization, and pressure regulation from extraction to end-user consumption. In this process, monitoring the pressure and temperature within the pipeline is critical to ensuring the proper operation of the system.
In response to the national sustainable development strategy, enterprises typically install industrial wastewater treatment equipment, such as electromagnetic flowmeters and open channel flowmeters, to monitor and measure wastewater treatment and discharge.
The main function of the gas regulator is to adjust the higher gas inlet pressure to the set lower gas outlet pressure. With a series of changes in gas consumption and inlet pressure, the gas regulator will automatically keep the outlet pressure value within a certain range and play a stabilising role. The pressure transmitter is the core component of the regulator.
By monitoring the sewage flow, pipeline pressure and reservoir level, the efficiency of sewage treatment plant can be improved. At the same time, it can also facilitate operation and management, and achieve energy saving and automation control.
Gas skid equipment is a critical component in gas distribution systems. Equipped with pressure and temperature transmitters, the equipment can monitor and measure pressure and temperature parameters in real-time. This information is then transmitted remotely to a central control room, enabling prompt detection of anomalies and ensuring the normal operation of the equipment and system.
The production of positive and negative electrode materials for lithium cell requires pneumatic transmission of powdered materials, so as to transfer the solid powder or particles through a sealed pipeline. However, blockages can occur in the container when conveying materials with large particle sizes, high viscosity, or poor flow ability. In order to solve this problem, pressure transmitters are installed at intervals along the conveying pipeline. When the pipeline pressure is abnormal, an alarm will be triggered, allowing the location of the abnormal point to be timely identified. This facilitates timely repair of the blockage, ensuring normal production and operation.
Due to the highly diffusive, flammable, and explosive characteristics of hydrogen, strict pressure monitoring by pressure transmitters is required to ensure its safety during transportation.
Pressure transmitters are used not only to measure the pressure inside the tank but also to measure the absolute pressure of the tank body and the pressure before and after the cryogenic pump, ensuring the safe operation of the system. Differential pressure measurement is the most common and reliable method for measuring the liquid level of cryogenic high-pressure bulk storage tanks.
Nitrogen/oxygen generators are commonly used in electronic equipment, medical devices, air conditioning refrigeration, or food and beverage industries. Pressure transmitters, as the important component of nitrogen/oxygen generators, are used for monitoring the pressure inside the container and variable pressure adsorption process.
The papermaking process generates large amounts of pulp and chemicals, requiring the use of towers, pools, tanks, and other containers for storage and transportation. Installing intelligent pressure transmitters that can work in conjunction with computer control systems allows for timely monitoring of pressure, differential pressure, and flow information, effectively improving production efficiency and reducing losses.
The MVR evaporation equipment requires the use of intelligent pressure transmitters to monitor the liquid level in the separator for feed control. It also monitors the liquid level in the condensate tank, providing timely water replenishment for the condenser, allowing it to condense rapidly. Concurrently, the liquid level height of the raw material tank and the mother liquor tank is monitored. When the liquid level is depleted, raw liquid is added to maintain the normal progress of the process. Intelligent temperature transmitters are used to monitor the steam temperature in the heater, continuously heating the raw liquid for the separation of the solution and the solute. It also monitors the temperature of the separator cavity for efficient separation of the solute and solvent. Flowmeters are used to calculate the volume of the raw material liquid in the feed pump, accumulating the flow.
Aerial work platforms utilize hydraulic equipment for platform elevation to achieve high-altitude operations. In some fields, pressure transmitters are required to enable monitoring of operating conditions and fault diagnosis capabilities.