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Study of wind coefficients for the CSwind system

Client: C-Solar
Project: Study of wind coefficients for the CSwind system
Location: Ripollet
Service: Wind studies for solar panels

Aerodynamic simulation of wind over the CSwind photovoltaic system, showing streamlines and pressure distribution to analyze the structural behavior under wind loads.

CFD simulation of north wind flow over the CSwind E–W photovoltaic system, showing the distribution of aerodynamic pressures on the solar panels and the effect of the incident flow.

CFD simulation of north wind flow over the CSwind E–W photovoltaic system, showing the distribution of aerodynamic pressures on the solar panels and the effect of the incident flow.

CFD simulation of north wind flow with a 15-degree tilt over the CSwind E–W photovoltaic system, showing the pressure distribution and aerodynamic behavior of the solar panels.

Wind vectors for 5°, 10°, and 15° inclinations. Wind coming from the North. The arrows represent the wind direction, and the colors indicate the pressure exerted by it.

CFD simulation of south wind flow with a 5-degree tilt over the CSwind E–W photovoltaic system, depicting the pressure distribution and flow behavior around the solar panels.

CFD simulation of south wind flow with a 10-degree tilt over the CSwind E–W photovoltaic system, showing the distribution of aerodynamic pressures on the solar panels and the downstream wake.

CFD simulation of south wind flow with a 15-degree tilt over the CSwind E–W photovoltaic system, showing the pressure distribution and the aerodynamic behavior of the solar panel array.

Wind vectors for 5°, 10°, and 15° inclinations. Wind coming from the South. The arrows represent the wind direction, and the colors indicate the pressure exerted by it.

Pressure map on the CSwind E–W photovoltaic system with north wind and a 10-degree tilt, showing the areas of highest aerodynamic load on the solar panels.

Pressure map obtained through CFD simulation of the CSwind E–W photovoltaic system with south wind and a 10-degree tilt, highlighting the aerodynamic distribution over the solar panels.

Pressure fields for CSwind E–W. Panel tilt 10°. Winds from the North and South.

Top-view visualization of streamlines in the CFD simulation of the CSwind E–W photovoltaic system with north wind and a 10-degree tilt, showing the flow direction and turbulence zones over the solar panels.

Bottom-view of streamlines in the CFD simulation of the CSwind E–W photovoltaic system with north wind and a 10-degree tilt, showing the recirculation and flow behavior beneath the solar panels.

Streamlines for CSwind E–W. Panel inclination: 10°. Wind coming from the North.

Top-view visualization of streamlines in the CFD simulation of the CSwind E–W photovoltaic system with south wind and a 10-degree tilt, showing the flow direction and turbulence zones over the solar panels.

Bottom-view of streamlines in the CFD simulation of the CSwind E–W photovoltaic system with south wind and a 10-degree tilt, showing recirculations and turbulences beneath the solar panels.

Streamlines for CSwind E–W. Panel tilt 10°. Wind coming from the South.

CFD simulation of the CSwind E–W photovoltaic system with north wind and a 10-degree tilt, including the presence of perimeter parapets to evaluate their influence on pressure distribution and airflow.

CFD simulation of the CSwind E–W photovoltaic system with north wind and a 10-degree tilt, analyzing the effect of the side parapets on wind pressure and the aerodynamic stability of the solar panels.

CFD simulation of the CSwind E–W photovoltaic system with north wind and a 10-degree tilt, evaluating the influence of the upper parapets on pressure distribution and wind flow over the solar panels.

CFD simulation of the CSwind E–W photovoltaic system with south wind and a 10-degree tilt, analyzing the effect of the perimeter parapets on pressure distribution and the aerodynamic behavior of the assembly.

CFD simulation of the CSwind E–W photovoltaic system with south wind and a 10-degree tilt, evaluating the influence of the side parapets on airflow and pressure distribution over the solar panels.

CFD simulation of the CSwind E–W photovoltaic system with south wind and a 10-degree tilt, showing the effect of the upper parapets on wind pressure and the ventilation of the solar panels.

Wind vectors under the influence of a perimeter parapet. Parapets at different heights and locations.

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