Harness the voice of the wind

Wind Turbine Maintenance with Non-Invasive Audio Spectrum Monitoring.

Wind Turbine Maintenance with Non-Invasive Audio Spectrum Monitoring.

Reduction of Maintenance Costs

WindVox allows for the optimization of scheduled maintenance activities by providing accurate insights into the health and condition of turbine components.

Improved Component Lifespan

By continuously monitoring the performance and condition of turbine components, WindVox's solution helps operators detect early signs of wear and tear, allowing for timely maintenance and replacement.

Harness the
voice of the wind

Wind Turbine Maintenance with Non-Invasive Audio Spectrum Monitoring.

Wind Turbine Maintenance with Non-Invasive Audio Spectrum Monitoring.

Reduce Maintenance Costs

WindVox allows for the optimization of scheduled maintenance activities by providing accurate insights into the health and condition of turbine components.

Improve Component Lifespan

By continuously monitoring the performance and condition of turbine components, WindVox helps operators detect early signs of wear and tear, allowing for timely maintenance and replacement.

Harness the voice of the wind

Wind Turbine Maintenance with Non-Invasive Audio Spectrum Monitoring.

Wind Turbine Maintenance with Non-Invasive Audio Spectrum Monitoring.

Reduction of Maintenance Costs

WindVox allows for the optimization of scheduled maintenance activities by providing accurate insights into the health and condition of turbine components.

Improved Component Lifespan

By continuously monitoring the performance and condition of turbine components, WindVox's solution helps operators detect early signs of wear and tear, allowing for timely maintenance and replacement.

The problem we address

In the rapidly expanding realm of wind energy, ensuring the optimal performance and longevity of wind turbines is paramount. However, traditional maintenance approaches predominantly rely on reactive methods, addressing issues only after they've manifested and often escalated. This reactive stance not only leads to unexpected downtimes but also incurs significant repair costs. Additionally, regular physical inspections are labor-intensive, potentially risky, and may not always pinpoint the nuanced anomalies that could lead to larger malfunctions down the line.

The solution we offer

WindVox revolutionizes wind turbine maintenance by introducing an advanced acoustic monitoring system that listens to the turbines' subtlest sounds. By detecting even the faintest anomalies in the acoustic signatures, WindVox can identify potential issues long before they become critical problems. This proactive approach ensures timely interventions, drastically reducing unexpected downtimes and extending the turbine's operational lifespan. Moreover, by eliminating the need for frequent physical inspections, WindVox offers a safer, more efficient, and cost-effective solution. It's not just about hearing the turbines; it's about understanding them and ensuring they operate at their peak potential.

DEEPER MONITORING

All Ears On Deck

The principle of our solution is simple yet groundbreaking. By strategically placing non-invasive sound sensors on the turbine structure, we capture the unique acoustic signatures produced by various components during operation. These sound signals contain valuable information about the health, efficiency, and potential issues of the turbine. In combination with additional supporting sensors such as temperature, vibration, and magnetometers, we enhance the accuracy and depth of our data analysis.

01

Audit

Comprehensive monitoring of the causes of potential downtime.

02

Supervision

Actionable insights and extension of the lead time on detected failures.

03

Care

We care about service teams by streamlining maintenance activities with precise fault diagnosis, reducing workload and increasing operational efficiency.

All Ears On Deck

The principle of our solution is simple yet groundbreaking. By strategically placing non-invasive sound sensors on the turbine structure, we capture the unique acoustic signatures produced by various components during operation. These sound signals contain valuable information about the health, efficiency, and potential issues of the turbine. In combination with additional supporting sensors such as temperature, vibration, and magnetometers, we enhance the accuracy and depth of our data analysis.

01

Audit

Comprehensive monitoring of the causes of potential downtime.

GET IN TOUCH

Company info:

WIND VOX Sp. z o.o.

Address:
Gospodarcza 26 Str., 20-213 Lublin, Poland

VAT No.
PL9462725759

REGON

524575657

KRS
0001022174

GET IN TOUCH

Company info:

WIND VOX Sp. z o.o.

Address:
Gospodarcza 26 Str., 20-213 Lublin, Poland

VAT No.
PL9462725759

REGON

524575657

KRS
0001022174

GET IN TOUCH

Company info:

WIND VOX Sp. z o.o.

Address:
Gospodarcza 26 Str., 20-213 Lublin, Poland

VAT No.
PL9462725759

REGON

524575657

KRS
0001022174

Auxilliary Intelligence

By utilizing machine learning, our algorithms can identify patterns, anomalies, and potential failures in the sensor data. This predictive capability empowers operators to implement proactive maintenance strategies, addressing issues before they lead to downtime or performance degradation. Machine learning also enables us to continuously improve our algorithms, enhancing their accuracy and adaptability over time.

02

Supervision

Actionable insights and extension of the lead time on detected failures.

Allocate resources where they are really needed

By implementing proactive maintenance strategies enabled by WindVox's solution, operators can detect potential issues before they escalate into major failures, reducing the need for unscheduled maintenance. By continuously monitoring the performance and condition of turbine components, WindVox's solution helps operators detect early signs of wear and tear, allowing for timely maintenance and replacement.

03

Care

We care about service teams by streamlining maintenance activities with precise fault diagnosis, reducing workload and increasing operational efficiency.