RTI Case Studies Siemens Wind Power

	Siemens Wind Power RTI

Siemens Wind Power

RTI

Technology Category	Analytics & Modeling - Predictive Analytics
Applicable Industries	Renewable Energy
Applicable Functions	Business Operation
Use Cases	Machine Condition Monitoring
Challenge	Wind provides clean, renewable energy. The core concept is simple: wind turbines spin blades to generate power. However, today's systems are anything but simple. Modern wind turbines have blades that sweep a 120 meter circle, cost more than 1 million dollars and generate multiple megawatts of power. Each turbine may include up to 1,000 sensors and actuators – integrating strain gages, bearing monitors and power conditioning technology. The turbine can control blade speed and power generation by altering the blade pitch and power extraction. Controlling the turbine is a sophisticated job requiring many cooperating processors closing high-speed loops and implementing intelligent monitoring and optimization algorithms. But the real challenge is integrating these turbines so that they work together. A wind farm may include hundreds of turbines. They are often installed in difficult-to-access locations at sea. The farm must implement a fundamentally and truly distributed control system. Like all power systems, the goal of the farm is to match generation to load. A farm with hundreds of turbines must optimize that load by balancing the loading and generation across a wide geography. Wind, of course, is dynamic. Almost every picture of a wind farm shows a calm sea and a setting sun. But things get challenging when a storm goes through the wind farm. In a storm, the control system must decide how to take energy out of gusts to generate constant power. It must intelligently balance load across many turbines. And a critical consideration is the loading and potential damage to a half-billion-dollar installed asset. This is no environment for a slow or undependable control system. Reliability and performance are crucial. Read More
About Customer	Siemens Wind Power Read More
Customer Name	Siemens Wind Power Read More
Solution	Siemens Wind Power is one of the world's largest wind turbine manufacturers. Siemens Wind Power decided to use an Industrial Internet-based solution powered by RTI Connext® DDS to integrate its systems. Industrial Internet with Connext DDS enables fast control within turbines, distributed gust mitigation across the array, and integration back to the control center for predictive maintenance and business diagnostics. With Connext DDS, a Siemens Wind Power farm is a smart, distributed machine. It optimizes power, monitors its own health and reacts to its environment. Industrial Internet with DDS provides fast communication and control within the turbines, distributed gust mitigation across the entire wind farm, and communication and integration with the back-end control center for predictive maintenance and business diagnostics. Read More Log in to view content
Data Collected	Asset Performance, Asset Status Tracking, Energy Production, Power Output, Wind Speed Read More Log in to view content
Contents

Technology Category

Analytics & Modeling - Predictive Analytics

Applicable Industries

Renewable Energy

Applicable Functions

Business Operation

Use Cases

Machine Condition Monitoring

Challenge

Wind provides clean, renewable energy. The core concept is simple: wind turbines spin blades to generate power. However, today's systems are anything but simple. Modern wind turbines have blades that sweep a 120 meter circle, cost more than 1 million dollars and generate multiple megawatts of power. Each turbine may include up to 1,000 sensors and actuators – integrating strain gages, bearing monitors and power conditioning technology. The turbine can control blade speed and power generation by altering the blade pitch and power extraction. Controlling the turbine is a sophisticated job requiring many cooperating processors closing high-speed loops and implementing intelligent monitoring and optimization algorithms. But the real challenge is integrating these turbines so that they work together. A wind farm may include hundreds of turbines. They are often installed in difficult-to-access locations at sea. The farm must implement a fundamentally and truly distributed control system. Like all power systems, the goal of the farm is to match generation to load. A farm with hundreds of turbines must optimize that load by balancing the loading and generation across a wide geography. Wind, of course, is dynamic. Almost every picture of a wind farm shows a calm sea and a setting sun. But things get challenging when a storm goes through the wind farm. In a storm, the control system must decide how to take energy out of gusts to generate constant power. It must intelligently balance load across many turbines. And a critical consideration is the loading and potential damage to a half-billion-dollar installed asset. This is no environment for a slow or undependable control system. Reliability and performance are crucial.

About Customer

Siemens Wind Power

Customer Name

Siemens Wind Power

Solution

Siemens Wind Power is one of the world's largest wind turbine manufacturers. Siemens Wind Power decided to use an Industrial Internet-based solution powered by RTI Connext® DDS to integrate its systems. Industrial Internet with Connext DDS enables fast control within turbines, distributed gust mitigation across the array, and integration back to the control center for predictive maintenance and business diagnostics. With Connext DDS, a Siemens Wind Power farm is a smart, distributed machine. It optimizes power, monitors its own health and reacts to its environment. Industrial Internet with DDS provides fast communication and control within the turbines, distributed gust mitigation across the entire wind farm, and communication and integration with the back-end control center for predictive maintenance and business diagnostics.

Data Collected

Asset Performance, Asset Status Tracking, Energy Production, Power Output, Wind Speed

Impact #1	[Process Optimization - Remote Control] Siemens can monitor and control wind farm arrays with up to 500 wind turbines.
Impact #2	[Process Optimization - Predictive Maintenance] The DDS real-time messaging and quality of service (QoS) characteristics enable Siemens to manage turbulence through the wind farm so that performance and wear is uniform in the highly distributed operational environment.
Impact #3	[Process Optimization - Real Time Monitoring] RTI Connext DDS platform’s ability to integrate smoothly with other systems, including business enterprise applications, will allow Siemens to remotely monitor and troubleshoot the wind farm's operations.

Impact #1

[Process Optimization - Remote Control]
Siemens can monitor and control wind farm arrays with up to 500 wind turbines.

Impact #2

[Process Optimization - Predictive Maintenance]
The DDS real-time messaging and quality of service (QoS) characteristics enable Siemens to manage turbulence through the wind farm so that performance and wear is uniform in the highly distributed operational environment.

Impact #3

[Process Optimization - Real Time Monitoring]
RTI Connext DDS platform’s ability to integrate smoothly with other systems, including business enterprise applications, will allow Siemens to remotely monitor and troubleshoot the wind farm's operations.

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Overview

Siemens Wind Power

Operational Impact