Gearbox
v1.0.0Assesses wind turbine gearbox health from multi-sensor and inspection data. Classifies damage severity (1-5), identifies root cause, and recommends shutdown...
⭐ 0· 307·0 current·0 all-time
Security Scan
OpenClaw
Benign
high confidencePurpose & Capability
Name and description match the SKILL.md: it is a diagnostic checklist and report formatter for gearbox health. No unrelated credentials, binaries, or installs are requested.
Instruction Scope
Runtime instructions are limited to collecting five sensor/inspection inputs, comparing them to thresholds, correlating symptoms, and producing a structured report. The instructions do not ask to read system files, environment variables, or transmit data to external endpoints.
Install Mechanism
No install spec and no code files—this is instruction-only, so nothing is downloaded or written to disk. This is the lowest-risk install profile.
Credentials
No environment variables, credentials, or config paths are required. The requested inputs (visual, oil Fe, temp, vibration, acoustic) are appropriate for the stated diagnostic purpose.
Persistence & Privilege
The skill is not always-enabled and does not request persistent/system-wide changes. It does not ask to modify other skills or agent configuration.
Assessment
This is a text-only diagnostic recipe (no code or external installs), so the technical risk is low. Before relying on it in operations, confirm the threshold values and escalation triggers match your OEM/vendor guidance and your sensors' calibration; treat its shutdown recommendations as advisory and verify with on-site engineers before executing critical actions. Also confirm any automated workflows that consume this report include human review—this skill itself does not request credentials or system access, but automated actuation based on its output should be gated.Like a lobster shell, security has layers — review code before you run it.
latest
Wind Turbine Gearbox Intelligence
Evaluates gearbox condition using five input parameters and produces a structured maintenance report.
When to Use
Load this skill when the user wants to:
- Assess gearbox health from on-site inspection or sensor data
- Classify damage severity on a 1-5 scale
- Determine whether a turbine should be shut down or kept running under monitoring
- Generate a structured maintenance or escalation plan
Quick Reference
| Input Parameter | What to Collect |
|---|---|
| Visual inspection | Surface cracks, pitting, spalling, discoloration, debris |
| Oil iron (Fe ppm) | Iron particle concentration in gear oil (ppm) |
| Temperature (C) | Bearing/gear temperature, normalized to baseline |
| Vibration | RMS or peak-to-peak acceleration (g), frequency anomalies |
| Acoustic / Sound | Noise type: grinding, knocking, whining, clicking |
Fault Thresholds (Reference)
| Parameter | Normal | Warning | Critical |
|---|---|---|---|
| Oil Fe (ppm) | < 100 | 100 - 300 | > 300 |
| Temp above baseline | < 5 C | 5 - 15 C | > 15 C |
| Vibration RMS (g) | < 0.5 | 0.5 - 1.5 | > 1.5 |
| Acoustic | No anomaly | Intermittent | Continuous |
| Visual | Clean surface | Minor pitting | Spalling/crack |
Common Failure Modes
| Failure Mode | Typical Indicators |
|---|---|
| Micropitting | High Fe ppm, slight vibration increase, no visible cracks |
| Spalling | High Fe ppm, elevated vibration, visible surface damage |
| Fatigue crack | Knocking sound, vibration spike at gear mesh frequency |
| Bearing wear | Whining noise, high temperature, broadband vibration increase |
| Oil contamination | Very high Fe ppm, discolored oil, possible foaming |
Procedure
- Collect inputs across all five parameters. If any are unavailable, note as "not measured" and proceed.
- Evaluate each parameter against the thresholds table. Flag Warning or Critical zones.
- Cross-correlate symptoms:
- Fe ppm + vibration increase → wear / spalling progression
- Knocking sound + vibration spike → fatigue crack
- Temperature + whining sound → bearing failure
- Multiple Critical flags → Severity 5
- Assign severity:
- 1 Healthy: All parameters normal. No action required.
- 2 Early wear: 1-2 parameters in warning zone. Increase monitoring frequency.
- 3 Moderate damage: 2-3 parameters in warning/critical. Inspect within 2 weeks.
- 4 Significant damage: Multiple critical flags. Plan shutdown within 48-72 hours.
- 5 Critical: Imminent failure risk. Immediate shutdown required.
- Determine root cause from the failure modes table.
- Generate the output report using the format below.
Output Format
=== GEARBOX HEALTH REPORT ===
ROOT CAUSE : [e.g., Progressive spalling on intermediate shaft gear] SEVERITY : [1-5] - [Healthy / Early Wear / Moderate / Significant / Critical] SHUTDOWN : [Yes / No / Conditional]
MONITORING STRATEGY:
- [e.g., Repeat oil sample in 72 hours]
- [e.g., Daily vibration trend monitoring for 1 week]
ESCALATION TRIGGERS:
- [e.g., Fe ppm exceeds 400 - immediate shutdown]
- [e.g., Vibration RMS exceeds 2.0 g - immediate shutdown]
Pitfalls
- Never assign Severity 5 based on one parameter alone. Cross-validate with at least two sources.
- Temperature readings can be misleading in extreme ambient conditions. Ask for baseline-normalized values.
- Acoustic descriptions are subjective. Ask for noise type and whether continuous or intermittent.
- If sensor data is unavailable, rely on visual and oil condition as primary indicators.
- Do not conflate oil change interval with oil health. New oil can still show high Fe ppm.
Verification
After generating the report, confirm with the user:
- Does the severity match their on-site observations?
- Are escalation thresholds feasible for their monitoring setup?
- Are there additional data points (CMS trending, historical Fe ppm) that could refine the assessment?
Comments
Loading comments...