The trend of hydroelectric power generation mainly includes the following aspects:

1. Sustainable development: With the increasing global demand for sustainable energy, hydroelectric power generation, as a clean and renewable form of energy, will continue to be valued and developed. Hydroelectric power generation has stable power generation capacity and low carbon emissions, which can effectively reduce dependence on fossil fuels, reduce greenhouse gas emissions, and meet the requirements of sustainable development.

2. Diversified development: In addition to traditional large-scale hydropower stations, water conservancy and power generation will tend towards diversified development. The application of emerging water conservancy and power generation technologies, including small-scale hydropower stations, micro hydropower stations, tidal power generation, and wave power generation. These new technologies can better utilize water resources and improve the flexibility and adaptability of hydroelectric power generation.

3. Intelligence and automation: With the advancement of technology, water conservancy and power generation will tend towards intelligence and automation. By applying advanced sensors, monitoring systems, and control technologies, real-time monitoring, remote control, and intelligent management of water conservancy and power generation equipment and systems can be achieved, improving power generation efficiency and operational safety.

4. Energy Internet: hydropower will be interconnected with other forms of energy to build an energy Internet. By complementing and synergistically developing renewable energy sources such as wind and solar energy, we can achieve efficient energy utilization and optimized configuration, and improve the reliability and stability of energy supply.

5. Environmental protection and ecological restoration: Water conservancy and power generation will have certain impacts on water bodies and ecological environment during the power generation process. The future trend is to pay more attention to environmental protection and ecological restoration, take measures to reduce the impact on aquatic ecosystems, and protect water resources and biodiversity.

In short, the trend of water conservancy and power generation is towards sustainable development, diversification, intelligence, interconnectivity, and environmental protection. These trends will drive innovation and progress in the water conservancy and power generation industry, contributing to the development of sustainable energy.

Vibration sensors have various applications in water conservancy and power generation. Here are some common application scenarios:

1. Water turbine monitoring: Vibration sensors can be used to monitor the vibration of water turbines, including bearing vibration, impeller vibration, and casing vibration. By monitoring the vibration of the water turbine, the operating and health status of the turbine can be evaluated, and faults and abnormalities can be detected in a timely manner for maintenance and upkeep.

2. Generator set monitoring: Vibration sensors can be used to monitor the vibration situation of the generator set, including generator bearing vibration, rotor vibration, and stator vibration. By monitoring the vibration of the generator set, the operating and health status of the generator set can be evaluated, and faults and abnormalities can be detected in a timely manner for maintenance and repair.

3. Water pump monitoring: Vibration sensors can be used to monitor the vibration of water pumps, including bearing vibration, impeller vibration, and casing vibration. By monitoring the vibration of the water pump, the operating and health status of the pump can be evaluated, and faults and abnormalities can be detected in a timely manner for maintenance and repair.

4. Monitoring of water gates and spillway gates: Vibration sensors can be used to monitor the vibration of water gates and spillway gates, including structural and motion vibrations. By monitoring the vibration of water gates and spillway gates, their operational status and structural health can be evaluated, and faults and abnormalities can be detected in a timely manner for maintenance and upkeep.

5. Structural monitoring of hydroelectric power plants: Vibration sensors can be used to monitor the structural vibration of hydroelectric power plants, including dams, reservoirs, turbine rooms, and power plant buildings. By monitoring the vibration of structures, the health status of hydroelectric power plants can be evaluated, and problems such as cracks, deformation, and settlement can be detected in a timely manner, in order to take corresponding maintenance and reinforcement measures.

In summary, the application of vibration sensors in water conservancy and power generation can provide important data support and monitoring functions, which can help improve the safety, reliability, and operational efficiency of water conservancy and power generation equipment.

Recommended application of Senther Technology in water conservancy and power generation monitoring

1. Single axis industrial vibration sensor: Senther model: 310A Performance characteristics: sturdy and durable, corrosion-resistant packaging, metal welding sealing, shell isolation, EMI/RFI shielding, impact resistance protection

2. Multi channel data collector: Senther Model: IN-SDG Performance features: capable of data interaction with various systems, local HIM display system (indication value, alarm), PLC system (indication value, alarm, simple diagnosis), CMS system (indication value, alarm, raw data, FFT analysis, fault diagnosis), various big data processing and analysis systems in the factory (indication value, diagnostic results), IN-SDG intelligent vibration transmitter with strong data processing ability, meeting the monitoring needs of different types of equipment, ARM+DSP dual CPU, RAM: 512M, internal memory: 16G

3. The 312A series product is an IEPE single axis acceleration sensor for lightning protection vibration testing. Its characteristic is the use of ceramic crystals in a circular shear mode as sensitive components, which has the characteristic of maintaining stable output for a long time. The internal circuit of this accelerometer provides constant current source excitation and transmits low impedance voltage output signals on the two wire system of the IEPE system. The signal is internally shielded and isolated from the housing; At the same time, the signal amplification circuit design considers polarity reverse protection.The shell adopts laser welding technology to ensure the sealing of the product; The output connector adopts the standard MIL-C-5015 glass insulated connector to meet the stability of the output when used in different environments; At the same time, the 312A series accelerometer provides 1/4-28 threaded holes for secure installation in addition to adhesive installation. The 312A series accelerometer has broadband response and shock resistance characteristics, so it is definitely an ideal accelerometer for monitoring and measuring vibration of high-altitude equipment in harsh environments.