Authors :
Somil Nishar
Volume/Issue :
Volume 8 - 2023, Issue 9 - September
Google Scholar :
https://bit.ly/3TmGbDi
Scribd :
https://tinyurl.com/yvksaneh
DOI :
https://doi.org/10.5281/zenodo.8416132
Abstract :
In the realm of wind tower coating, the quest
for innovative solutions has led to the development of the
semicircular wind tower blasting and painting system.
This research paper explores the transformative potential
of this novel system in revolutionizing the traditional
approach to wind tower coating. Through a comparative
analysis with robotic arms, the paper highlights the
advantages of the semicircular system in terms of
efficiency, cost-effectiveness, and speed. The system,
specifically designed to match the cylindrical structure of
wind towers, utilizes automatic nozzles, precision spray
tools, and an integrated dust collection system to achieve
uniform application and enhance worker safety. This
approach not only extends the lifespan of wind towers but
also reinforces the fundamental strength of sustainable
energy. By reevaluating benchmarks for efficiency and
innovation in the field of automation, this research
contributes to the ongoing discourse on advancing wind
tower coating practices. As the wind energy industry
continues to grow, the combination of the semicircular
system and robotic arms holds promise as the ideal
solution for sand blasting and painting wind turbines,
driving the industry towards a more efficient and
sustainable future.
Keywords :
Wind Turbine Towers, Semicircular System, Industrial Robot Painting, Efficiency and Cost Savings, Automation Technologies.
In the realm of wind tower coating, the quest
for innovative solutions has led to the development of the
semicircular wind tower blasting and painting system.
This research paper explores the transformative potential
of this novel system in revolutionizing the traditional
approach to wind tower coating. Through a comparative
analysis with robotic arms, the paper highlights the
advantages of the semicircular system in terms of
efficiency, cost-effectiveness, and speed. The system,
specifically designed to match the cylindrical structure of
wind towers, utilizes automatic nozzles, precision spray
tools, and an integrated dust collection system to achieve
uniform application and enhance worker safety. This
approach not only extends the lifespan of wind towers but
also reinforces the fundamental strength of sustainable
energy. By reevaluating benchmarks for efficiency and
innovation in the field of automation, this research
contributes to the ongoing discourse on advancing wind
tower coating practices. As the wind energy industry
continues to grow, the combination of the semicircular
system and robotic arms holds promise as the ideal
solution for sand blasting and painting wind turbines,
driving the industry towards a more efficient and
sustainable future.
Keywords :
Wind Turbine Towers, Semicircular System, Industrial Robot Painting, Efficiency and Cost Savings, Automation Technologies.
