Will AI replace Wind Energy Engineers?

Wind Energy Engineers has a medium AI displacement risk score of 33 out of 100, higher than 58% of all occupations analyzed. Based on task-level analysis of 20 work activities, most core tasks in this role remain difficult for AI to fully automate. Data sourced from O*NET task data, Anthropic's Economic Index, and BLS employment statistics.

What is the AI risk score for Wind Energy Engineers?

The AI displacement risk score for Wind Energy Engineers is 33 out of 100 (medium risk tier). This score is computed by analyzing 20 individual work tasks for AI capability, weighting by time spent on each task, and applying protective factor adjustments for barriers like licensing, social intelligence, and creativity requirements.

medium risk

Wind Energy Engineers

Design underground or overhead wind farm collector systems and prepare and develop site specifications.

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Higher risk than 58% of occupations

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How AI Impacts Each Task

20 tasks analyzed

Create or maintain wind farm layouts, schematics, or other visual documentation for wind farms.

Risk: 80.0%AI: 77EstimatedTime: 6%

Provide engineering technical support to designers of prototype wind turbines.

Risk: 31.0%AI: 40EstimatedTime: 5%

Recommend process or infrastructure changes to improve wind turbine performance, reduce operational costs, or comply with regulations.

Risk: 51.0%AI: 60EstimatedTime: 6%

Investigate experimental wind turbines or wind turbine technologies for properties such as aerodynamics, production, noise, and load.

Risk: 51.0%AI: 60EstimatedTime: 5%

Create models to optimize the layout of wind farm access roads, crane pads, crane paths, collection systems, substations, switchyards, or transmission lines.

Risk: 55.0%AI: 70EstimatedTime: 6%

Develop active control algorithms, electronics, software, electromechanical, or electrohydraulic systems for wind turbines.

Risk: 51.0%AI: 60EstimatedTime: 5%

Develop specifications for wind technology components, such as gearboxes, blades, generators, frequency converters, or pad transformers.

Risk: 47.0%AI: 50EstimatedTime: 5%

Test wind turbine components, using mechanical or electronic testing equipment.

Risk: 13.0%AI: 10EstimatedTime: 4%

Test wind turbine equipment to determine effects of stress or fatigue.

Risk: 49.0%AI: 55EstimatedTime: 4%

Oversee the work activities of wind farm consultants or subcontractors.

Risk: 27.0%AI: 30EstimatedTime: 6%

Monitor wind farm construction to ensure compliance with regulatory standards or environmental requirements.

Risk: 76.0%AI: 67EstimatedTime: 5%

Direct balance of plant (BOP) construction, generator installation, testing, commissioning, or supervisory control and data acquisition (SCADA) to ensure compliance with specifications.

Risk: 25.0%AI: 25EstimatedTime: 5%

Analyze operation of wind farms or wind farm components to determine reliability, performance, and compliance with specifications.

Risk: 57.0%AI: 75EstimatedTime: 6%

Perform root cause analysis on wind turbine tower component failures.

Risk: 51.0%AI: 60EstimatedTime: 5%

Design underground or overhead wind farm collector systems.

Risk: 51.0%AI: 60EstimatedTime: 4%

Write reports to document wind farm collector system test results.

Risk: 86.0%AI: 92EstimatedTime: 3%

Analyze meteorological data.

Risk: 55.0%AI: 70EstimatedTime: 5%

Design electrical interconnections.

Risk: 51.0%AI: 60EstimatedTime: 5%

Estimate energy production by analyzing wind data.

Risk: 57.0%AI: 75EstimatedTime: 5%

Design wind turbine components.

Risk: 53.0%AI: 65EstimatedTime: 5%

Task	AI Capability	Risk	Time %
Create or maintain wind farm layouts, schematics, or other visual documentation for wind farms.	77Estimated	80.0%	6%
Provide engineering technical support to designers of prototype wind turbines.	40Estimated	31.0%	5%
Recommend process or infrastructure changes to improve wind turbine performance, reduce operational costs, or comply with regulations.	60Estimated	51.0%	6%
Investigate experimental wind turbines or wind turbine technologies for properties such as aerodynamics, production, noise, and load.	60Estimated	51.0%	5%
Create models to optimize the layout of wind farm access roads, crane pads, crane paths, collection systems, substations, switchyards, or transmission lines.	70Estimated	55.0%	6%
Develop active control algorithms, electronics, software, electromechanical, or electrohydraulic systems for wind turbines.	60Estimated	51.0%	5%
Develop specifications for wind technology components, such as gearboxes, blades, generators, frequency converters, or pad transformers.	50Estimated	47.0%	5%
Test wind turbine components, using mechanical or electronic testing equipment.	10Estimated	13.0%	4%
Test wind turbine equipment to determine effects of stress or fatigue.	55Estimated	49.0%	4%
Oversee the work activities of wind farm consultants or subcontractors.	30Estimated	27.0%	6%
Monitor wind farm construction to ensure compliance with regulatory standards or environmental requirements.	67Estimated	76.0%	5%
Direct balance of plant (BOP) construction, generator installation, testing, commissioning, or supervisory control and data acquisition (SCADA) to ensure compliance with specifications.	25Estimated	25.0%	5%
Analyze operation of wind farms or wind farm components to determine reliability, performance, and compliance with specifications.	75Estimated	57.0%	6%
Perform root cause analysis on wind turbine tower component failures.	60Estimated	51.0%	5%
Design underground or overhead wind farm collector systems.	60Estimated	51.0%	4%
Write reports to document wind farm collector system test results.	92Estimated	86.0%	3%
Analyze meteorological data.	70Estimated	55.0%	5%
Design electrical interconnections.	60Estimated	51.0%	5%
Estimate energy production by analyzing wind data.	75Estimated	57.0%	5%
Design wind turbine components.	65Estimated	53.0%	5%

Skill Impact Analysis

AI-Vulnerable Skills (6)

Mathematics10%

High reliance on Mathematics is a risk area. Consider developing complementary AI-resistant skills to maintain value.

Reading Comprehension10%

High reliance on Reading Comprehension is a risk area. Consider developing complementary AI-resistant skills to maintain value.

Mathematics10%

High reliance on Mathematics is a risk area. Consider developing complementary AI-resistant skills to maintain value.

Information Ordering5%

High reliance on Information Ordering is a risk area. Consider developing complementary AI-resistant skills to maintain value.

Memorization5%

Memorization is AI-vulnerable but has moderate importance in this role. AI tools may handle this; focus on higher-value skills.

Programming15%

Programming is AI-vulnerable but has moderate importance in this role. AI tools may handle this; focus on higher-value skills.

AI-Resistant Skills (11)

Adaptability/Flexibility85%

Adaptability/Flexibility is AI-resistant — strengthening this skill provides durable career protection.

Leadership88%

Leadership is AI-resistant — strengthening this skill provides durable career protection.

Complex Problem Solving75%

Complex Problem Solving is AI-resistant — strengthening this skill provides durable career protection.

Social Perceptiveness90%

Social Perceptiveness is AI-resistant — strengthening this skill provides durable career protection.

Persuasion80%

Persuasion is AI-resistant — strengthening this skill provides durable career protection.

Coordination70%

Coordination is AI-resistant — strengthening this skill provides durable career protection.

Service Orientation82%

Service Orientation is AI-resistant — strengthening this skill provides durable career protection.

Negotiation85%

Negotiation is AI-resistant — strengthening this skill provides durable career protection.

Recommended Courses

Courses matched to Wind Energy Engineers skill gaps, ranked by relevance to your displacement risk profile.

Get personalized recommendations. Answer a few questions about your experience and skills to get course suggestions tailored specifically to you.

Upskill to Reduce Risk

Courses addressing your most AI-vulnerable skills

Courseraintermediate

Machine Learning Specialization

by Stanford / DeepLearning.AI

~10 weeks$49/mo4.9Certificate

Addresses vulnerability: Mathematics

Estimated Impact

-7.4pt risk+$7K/yr salary

AI-Augmentation Tools

Learn to work alongside AI and boost your productivity

Courserabeginner

Google UX Design Professional Certificate

by Google

~5 months$49/mo4.8Certificate

Enhances AI augmentation: Critical Thinking

Estimated Impact

-5.3pt risk+$7K/yr salary

Strengthen Your Edge

Double down on skills AI can't replicate

Courseraintermediate

Leading People and Teams Specialization

by University of Michigan

~6 weeks$49/mo4.7Certificate

Strengthens resilience: Leadership

Estimated Impact

-3.9pt risk+$7K/yr salary

We may earn a commission when you enroll through our links, at no extra cost to you. This helps fund the Takeover Tracker.

Risk reduction and salary impact are estimates based on skill gap analysis, course relevance, and labor market data. Actual results vary by individual circumstance.

Score History

Risk score over 2 scoring runs

-0.1

overall change

Education & Training

Percentage of workers at each education and training level

Education Level

Some College2%

Post-Secondary Certificate4%

Bachelor's Degree70%

Master's Degree6%

Doctoral/Professional Degree14%

Level 103%

Level 112%

Prior Experience Needed

Work experience required to enter this job

None3%

1-3 months2%

6 months - 1 year11%

1-2 years19%

2-4 years16%

4-6 years8%

6-8 years4%

8-10 years26%

Over 10 years12%

Training Provided After Hiring

How long it typically takes to learn on the job

None3%

Up to 1 month2%

1-3 months37%

3-6 months9%

6 months - 1 year20%

1-2 years14%

2-4 years7%

4-6 years7%

6-8 years2%

Last scored March 14, 2026 · Based on BLS employment data and O*NET task analysis