Woodward
0102030405
Woodward 5464-659 Digital Speed Sensor
Key SpecificationsVOGI
Operating Range: 18–32 V DC.
Nominal Voltage: 24 V DC.
Power Consumption: 5–10 W.
Surge Protection: Meets IEEE/ANSI standards for transient voltage suppression.
Operating Temperature: -40°C to +85°C。
Storage Temperature: -50°C to +105°C.
Humidity: 0–95% non-condensing.
Channels: 4–8 configurable channels。
Range: 0–10 V DC, 4–20 mA, or ±10 V (software-selectable).
Resolution: 16-bit ADC.
Supported Protocols: CAN (J1939, CANopen), Modbus RTU/TCP, Ethernet/IP (optional).
Data Rate: Up to 1 Mbps, 10/100 Mbps .
Key FeaturesVOGI
Dynamic combustion optimization and multi-fuel adaptation: Woodward 5464-659 is equipped with Woodward's third-generation adaptive combustion algorithm. By integrating real-time data of fuel type (natural gas, liquefied gas, biomass, etc.), pressure, temperature and flue gas composition (CO, NOx, O₂), it dynamically adjusts the air-fuel ratio and combustion phase to ensure that the fuel is completely burned under optimal conditions. Its multi-fuel switching function supports a smooth transition from gas-oil-biomass within 5 seconds, and the combustion efficiency remains ≥92%, which is suitable for frequent start-stop scenarios of peak-shaving units.
Combustion expertise: Built-in 200+ fuel models and custom process curves to adapt to complex working conditions (such as high-sulfur fuels and biomass blending).
Full-process emission monitoring and compliance management: Woodward 5464-659 integrates an in-situ laser gas analyzer and flue infrared scanner to monitor key indicators of SO₂, NOx, particulate matter, mercury content and other key indicators in real time, and synchronizes data through the OPC UA/Modbus TCP protocol to the environmental protection supervision platform.
Smart diagnosis and predictive maintenance: The module has a built-in fault self-healing database, can diagnose more than 200 faults such as burner carbon deposition, nozzle wear, oxygen sensor drift, the accuracy rate ≥98%, and push maintenance suggestions. The predictive maintenance engine uses the historical operating data from previous operating, machine learning algorithms warn of potential faults months in advance (12-6 months),and reduce unplanned downtime by more than 40%.
Ultra-low emission control technology: Woodward 5464-659 has a built-in staged combustion and selective non-catalytic reduction dual modes, combined with flue gas recirculation (FGR) technology can control nitrogen oxide emissions to ≤10mg/m³, carbon oxide emissions to ≤50mg/m³.
Freight Estimation(Part Of The Area)VOGI
|
Destination |
Freight |
|
Middle East |
$42 |
|
Southeast Asia |
$15 |
|
South Asia |
$56 |
|
South Africa |
$46 |
|
Europe and USA |
$27 |
|
Russia |
$51 |
APPLICATIONVOGI
Gas turbine power generation: It controls 2×9F-class gas turbines, and by optimizing the combustion temperature (1300-1400℃) and flue gas re-circulation rate (20%-40%), the unit thermal efficiency is increased to 62.5%, and annual CO₂ emissions are reduced by about 80,000 tons. Its dynamic load tracking function achieves a millisecond response of 5%-100% load during grid peak load regulation, helping power plants to obtain peak load compensation benefits.
Chemical cracking unit: Woodward 5464-659 can manage cracking furnace burners, automatically cut off fuel supply and start emergency nitrogen purge by real-time monitoring of hydrogen leakage concentration (ppm level) and flame stability, and curb potential explosion risks within 0.3 seconds. The multi-burner coordinated control of the module keeps the cracking furnace outlet temperature fluctuation within ±2℃, extending the downstream catalyst life by 30%.