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Product Introduction:
The GE IS215WEPAH1AB Wind Pitch Axis Control is a crucial component of GE’s Mark VIe control system, designed to optimize the operation of wind turbines. This advanced control module is specifically engineered for controlling the pitch of wind turbine blades, adjusting the blade angle in response to varying wind conditions. By controlling the pitch, the module helps the wind turbine achieve maximum energy output while ensuring the protection of turbine components from excessive forces in high winds.
Part of GE’s Wind Turbine Control Solutions, the IS215WEPAH1AB module is built for durability and efficiency, providing high-performance control of turbine blade pitch for both onshore and offshore wind farms. It integrates with the GE Mark VIe control system, a widely adopted platform known for its modularity, ease of use, and advanced diagnostics, ensuring reliable performance in harsh operational environments.
This control module provides robust protection, minimizing the risk of damage to the turbine during high wind conditions, while simultaneously optimizing energy production during varying wind speeds. Its compact size, ease of integration, and highly reliable functionality make it ideal for modern wind power generation systems.
Product Specifications:
| Specification | Details |
|---|---|
| Model | GE IS215WEPAH1AB Wind Pitch Axis Control |
| Input Power | 24 VDC nominal |
| Communication | Ethernet, Serial (RS-232, RS-485) |
| Control Type | Blade pitch control for wind turbines |
| Weight | 1.2 kg |
| Dimensions (L x W x H) | 200 x 150 x 50 mm |
| Temperature Range | -20°C to +70°C |
| Humidity | 5% to 95% non-condensing |
| Vibration | Up to 2.0 g RMS at 5-200 Hz |
| Power Consumption | 12 W maximum |
| Mounting | DIN rail, wall-mounted |
| Warranty | 1 year |
| Certifications | UL, CE, RoHS, ISO 9001 |
| Response Time | 50 ms |
| Signal Input Range | 0-10 VDC (analog signal) |
| Isolation | 1500 VDC between input and output channels |
Applications:
The GE IS215WEPAH1AB Wind Pitch Axis Control is integral to modern wind turbine systems, ensuring that turbines operate efficiently and safely under varying wind conditions. Its ability to adjust the pitch of the blades allows turbines to adapt to wind speed changes, optimizing energy production and protecting the turbine from damage in high wind conditions. The module is ideal for both onshore and offshore wind farms, where wind speeds can vary significantly.
Key Applications:
- Onshore Wind Farms: Optimizing the pitch of turbine blades to ensure maximum energy output and protection from high winds.
- Offshore Wind Farms: Providing reliable pitch control for turbines exposed to harsher offshore environments and higher wind speeds.
- Utility-Scale Wind Turbines: Enhancing performance and efficiency by controlling the pitch during varying wind conditions to capture optimal energy.
- Renewable Energy Generation: Increasing the efficiency of wind power systems, contributing to global efforts to switch to renewable energy sources.
- Turbine Protection Systems: Automatically adjusting the pitch of the blades to protect the turbine from mechanical overloads and potential damage in extreme wind conditions.
- Grid Integration: Maintaining consistent power output to the grid by ensuring turbines operate at optimal efficiency.
- Energy Storage Systems: Integrating with energy storage systems to optimize wind turbine power output during energy storage cycles.
- Smart Grid Integration: Contributing to smart grid systems by ensuring that turbines operate efficiently, providing stable energy to the grid.
- High Efficiency Power Generation: Ensuring turbines always operate at peak efficiency, maximizing power generation in a cost-effective manner.
- Energy Optimization: Allowing wind farms to operate with minimal downtime and increased energy yield.
Advantages:
- High Efficiency: The IS215WEPAH1AB ensures that wind turbines operate at their most efficient point by constantly adjusting the blade pitch to the optimal angle for the wind conditions.
- Precision Control: The control module offers fast, precise blade pitch adjustments, improving overall turbine performance and maximizing energy capture.
- Durable and Robust Design: The module is built to withstand extreme weather conditions and high vibration environments, making it ideal for both onshore and offshore wind farms.
- Compact and Easy to Install: The IS215WEPAH1AB’s compact design allows for easy integration into existing turbine systems without requiring significant modifications.
- Advanced Diagnostics: With integration into the Mark VIe control system, the IS215WEPAH1AB offers advanced diagnostics, providing real-time feedback on turbine performance and potential issues.
- Scalability: The control module is part of GE’s scalable Mark VIe control system, meaning it can be used in both small and large wind farms, adapting to the specific needs of the installation.
- Operational Safety: By adjusting the pitch of the blades, the module helps protect turbines from potential damage in high winds, increasing operational safety.
- Improved Turbine Lifespan: The optimized blade pitch helps reduce wear and tear on turbine components, extending the overall lifespan of the system.
- Minimal Power Consumption: With a low power consumption of just 12 W, the IS215WEPAH1AB is energy efficient, ensuring that it doesn’t add significant load to the turbine system.
- Reliability: Known for its high reliability, the IS215WEPAH1AB minimizes downtime, helping maintain continuous energy production in wind farms.
Latest News Headlines:
- “GE Introduces IS215WEPAH1AB to Improve Wind Power Efficiency”
- “GE’s IS215WEPAH1AB Wind Pitch Control: Enhancing Wind Turbine Performance”
- “Advanced Pitch Control Technology: GE’s IS215WEPAH1AB Leads the Way”
- “GE’s IS215WEPAH1AB: Revolutionizing Wind Energy with Precision Control”
- “Wind Turbine Efficiency Gets a Boost with GE IS215WEPAH1AB Module”
- “GE Wind Pitch Axis Control System: The Key to Future-Proof Wind Farms”
- “Maximizing Wind Power: GE Launches New IS215WEPAH1AB Control Module”
- “GE’s IS215WEPAH1AB Optimizes Blade Pitch for Improved Wind Energy Generation”
- “A Game-Changer for Wind Turbines: GE’s IS215WEPAH1AB”
- “GE Unveils IS215WEPAH1AB to Enhance Wind Turbine Performance in Extreme Conditions”
FAQ:
-
What is the purpose of the GE IS215WEPAH1AB?
- The IS215WEPAH1AB controls the pitch of the wind turbine blades to optimize energy production and protect the turbine from high wind speeds.
-
What input power does the IS215WEPAH1AB require?
- The module operates on a nominal 24 VDC power supply.
-
Can the IS215WEPAH1AB be used in both onshore and offshore turbines?
- Yes, it is designed to withstand harsh conditions, making it suitable for both onshore and offshore wind turbines.
-
What communication protocols does the IS215WEPAH1AB support?
- It supports Ethernet and serial communication (RS-232, RS-485).
-
What is the weight of the IS215WEPAH1AB?
- The module weighs 1.2 kg.
-
What is the temperature operating range for the IS215WEPAH1AB?
- It can operate in a temperature range from -20°C to +70°C.
-
How is the IS215WEPAH1AB installed?
- The module can be mounted on a DIN rail or directly on the wall.
-
What certifications does the IS215WEPAH1AB hold?
- It holds certifications such as UL, CE, RoHS, and ISO 9001.
-
What is the response time of the IS215WEPAH1AB?
- The module has a fast response time of 50 ms.
-
Does the IS215WEPAH1AB integrate with the Mark VIe system?
- Yes, it is fully compatible with GE’s Mark VIe control system for real-time monitoring and diagnostics.
Recommended Models:
| Model | Description | Specifications |
|---|---|---|
| GE IS215WEPAH2AB | Next-generation wind pitch control for high-capacity turbines | Designed for larger turbines with advanced features |
| GE IS215WECAH1 | Wind turbine pitch control for medium-sized turbines | Optimized for medium-capacity systems |
| GE IS215WEPTL1 | Low latency wind pitch controller for high-speed adjustment | Offers minimal delay in pitch adjustment |
| GE IS215WEHNC1 | High-performance control module for wind farm applications | Optimized for critical high-demand operations |
| GE IS215WEV | Versatile pitch axis control for variable wind conditions | Suitable for different turbine designs |
| GE IS215WEAHA | Energy-efficient pitch controller for remote turbines | Enhanced energy savings, optimized for remote locations |
| GE IS215WEPC | Compact control unit for small-scale turbines | Easy integration, cost-effective solution |
| GE IS215WEPAH3AB | Advanced blade pitch controller for large wind turbines | Designed for large turbines with precise control |
| GE IS215WEPM | Modular pitch control system for wind energy generation | Highly flexible, supports scalable operations |
| GE IS215WEFT | Full-featured wind pitch control system | Comprehensive control features for turbines |
10 Popular Models from GE:
| Model | Description | Specifications |
|---|---|---|
| GE Mark VIe | Industrial control system for large-scale operations | Advanced diagnostics, scalable design |
| GE IS215CPC | Control for industrial applications | Versatile and adaptable control system |
| GE IS215DPU | Distributed processing unit for plant-wide control | Modular, high-performance processing unit |
| GE IS215CMM | Communication module for control systems | Supports multiple communication protocols |
| GE IS215PC | Programmable control system for various industrial needs | High-speed processing and flexible control |
| GE IS215VME | Virtual machine interface for industrial applications | Supports virtualization and advanced interfaces |
| GE IS215PES | Power equipment system controller | Ideal for high-energy applications |
| GE IS215EM | Emergency module for ensuring system continuity | Guarantees uptime during emergencies |
| GE IS215LM | Local monitoring module for industrial applications | Real-time monitoring for system management |
| GE IS215AVR | Automatic voltage regulator for power systems | Ensures stable voltage for operations |
