Phase Analysis

This example demonstrates the phase analysis capabilities of Remote OpenFAST Plotter for examining phase relationships between signals.

Phase Analysis Fundamentals

Phase analysis helps you understand the timing relationships between different signals. In wind turbine analysis, phase relationships can reveal:

The phase analysis tab provides specialized tools for examining signal phase relationships:

Access the Phase Tab:
- Click on the “Phase” tab in the main navigation
Configure Analysis:
- Select a reference signal
- Choose one or more signals to compare against the reference
- Set analysis parameters if available
Generate Phase Plots:
- Click “Calculate Phase” to generate the analysis
- View both magnitude and phase plots
Interpret Results:
- Examine phase differences across frequency ranges
- Look for 0°, 90°, or 180° phase relationships at key frequencies
- Identify resonance points where phase shifts occur

Here’s a step-by-step example analyzing the phase relationship between tower and blade motions:

Load Files:
- Load your OpenFAST output files containing tower and blade measurements
Setup Phase Analysis:
- Select “TwrBsMxt” (Tower base fore-aft moment) as the reference signal
- Select “RootMycX1” (Blade 1 root out-of-plane moment) as the comparison signal
Calculate Phase:
- Click “Calculate Phase” to generate the analysis plots
Analyze Results:
- Look for frequencies where phase crosses -90° (indicates resonance)
- Examine the magnitude plot to see if there are peaks at these frequencies
- Identify frequencies where the phase is near 0° (in-phase motion) or 180° (counter-phase motion)

Phase plots show how the phase angle between signals varies with frequency. Key aspects to examine:

Phase Crossing -90°:
- Indicates a resonance condition
- The structure is most responsive at these frequencies
- Important to check if these align with common excitation frequencies (1P, 3P)
0° Phase:
- Signals are in phase - moving together
- Can indicate rigid body motion or strong coupling
180° Phase:
- Signals are in counter-phase - opposing motion
- Can indicate certain types of mode shapes or control interactions
Phase Curve Slope:
- Steeper slopes around crossings indicate more damped systems
- Gentler slopes may indicate less damping

For more sophisticated analysis:

Multiple Signal Comparison:
- Compare phase relationships across multiple components
- Look for patterns in how different parts of the structure respond
Operational Condition Comparison:
- Compare phase relationships under different operating conditions
- Identify how structural dynamics change with wind speed, control settings, etc.
Combining with FFT Analysis:
- Use FFT analysis to identify frequencies of interest
- Then examine phase relationships at those specific frequencies

A practical example for identifying potential resonance issues:

Initial Setup:
- Load simulation results from a turbine operational analysis
- Navigate to the Phase tab
Reference Selection:
- Select a forcing function as reference (e.g., “RotSpeed” or “WindVxi”)
- Select structural responses to analyze (tower motions, blade moments)
Analysis Focus:
- Look particularly at frequencies near known excitation sources: * 1P (once-per-revolution) * 3P (three-times-per-revolution for three-bladed turbines) * Control frequencies
Identifying Issues:
- Look for -90° phase crossings that align with excitation frequencies
- Check magnitude plots for amplification at these frequencies
- Document any potential resonance conditions for further investigation

Signal Quality: Ensure signals have sufficient resolution and length for accurate phase calculation
Frequency Range: Focus on the most relevant frequency range for your analysis (often 0-5 Hz for wind turbines)
Multiple References: Try different reference signals to understand the system from various perspectives
Documentation: Export plots with clear labels for inclusion in reports or presentations