Dec 19 2024 26 mins 5
In this episode, I talk with Graciela Patino, senior vice-president at WSP, about the concept of shore power and its essential role in minimizing the environmental impact of cruise ships while advancing sustainable maritime practices.
***The video version of this episode can be viewed here.***
Engineering Quotes:
Here Are Some of the Questions We Asked Graciela:
What are some of the key challenges involved in designing electrical and control systems for movable bridges?
How does working on rehabilitation projects for movable bridges differ from designing new ones?
Could you explain how shore power works and why it plays a vital role in environmental sustainability?
How has your experience with movable bridges contributed to your work on shore power projects?
What are the biggest engineering challenges the industry faces when implementing shore power systems at ports?
What skills or experience do engineers need to succeed in large-scale sustainable projects like shore power?
What final piece of advice would you give to students starting out in electrical engineering or sustainable technology projects?
Here Are Some of the Key Points Discussed About Shore Power and Its Environmental Benefits:
Designing electrical and control systems for movable bridges requires precise coordination among multiple disciplines to achieve safety and functionality. Fixed physical spaces and the integration of modern technology, like programmable logic controllers, increase the complexity of these projects.
Rehabilitation projects for movable bridges present greater challenges than designing new ones because they involve adapting existing infrastructure to incorporate modern technology and meet safety standards. Engineers navigate fixed spaces and coordinate updates across all disciplines to ensure functionality and compliance.
Shore power connects docked ships to utility power, reducing reliance on onboard generators and cutting greenhouse gas emissions significantly. This cleaner, cost-effective energy solution improves environmental sustainability by minimizing air pollution in ports.
Experience with movable bridges provides valuable insights into coordinating across disciplines and addressing spatial and operational constraints. These skills directly apply to shore power projects, where careful planning is essential to accommodate moving ships and complex infrastructure.
Key challenges in shore power implementation include working within tight physical spaces, managing structural loads of existing infrastructure, and ensuring compatibility with various ship types. Collaborative efforts among disciplines and suppliers play a critical role in overcoming these obstacles.
Engineers require strong technical expertise, interdisciplinary coordination skills, and adaptability to evolving technologies. Emphasizing collaboration and learning from experienced industry professionals is essential for success in large-scale projects.
Students benefit from building their careers step by step, mastering technical skills before pursuing management roles. This incremental approach establishes a solid foundation in both technical and collaborative aspects, supporting long-term success in their field.
More Details in This Episode…
About Graciela Patino
Graciela Patino, senior vice-president at WSP and an electrical engineer, is a graduate of the University of Florida, Florida, where she earned a Bachelor of Science degree in electrical engineering. She has more than 29 years of experience that includes design for power distribution, instrumentation and controls, and motor drive systems. Graciela has worked in the movable bridge industry for 24 years, designing and commissioning electrical and control systems for movable ...
***The video version of this episode can be viewed here.***
Engineering Quotes:
Here Are Some of the Questions We Asked Graciela:
What are some of the key challenges involved in designing electrical and control systems for movable bridges?
How does working on rehabilitation projects for movable bridges differ from designing new ones?
Could you explain how shore power works and why it plays a vital role in environmental sustainability?
How has your experience with movable bridges contributed to your work on shore power projects?
What are the biggest engineering challenges the industry faces when implementing shore power systems at ports?
What skills or experience do engineers need to succeed in large-scale sustainable projects like shore power?
What final piece of advice would you give to students starting out in electrical engineering or sustainable technology projects?
Here Are Some of the Key Points Discussed About Shore Power and Its Environmental Benefits:
Designing electrical and control systems for movable bridges requires precise coordination among multiple disciplines to achieve safety and functionality. Fixed physical spaces and the integration of modern technology, like programmable logic controllers, increase the complexity of these projects.
Rehabilitation projects for movable bridges present greater challenges than designing new ones because they involve adapting existing infrastructure to incorporate modern technology and meet safety standards. Engineers navigate fixed spaces and coordinate updates across all disciplines to ensure functionality and compliance.
Shore power connects docked ships to utility power, reducing reliance on onboard generators and cutting greenhouse gas emissions significantly. This cleaner, cost-effective energy solution improves environmental sustainability by minimizing air pollution in ports.
Experience with movable bridges provides valuable insights into coordinating across disciplines and addressing spatial and operational constraints. These skills directly apply to shore power projects, where careful planning is essential to accommodate moving ships and complex infrastructure.
Key challenges in shore power implementation include working within tight physical spaces, managing structural loads of existing infrastructure, and ensuring compatibility with various ship types. Collaborative efforts among disciplines and suppliers play a critical role in overcoming these obstacles.
Engineers require strong technical expertise, interdisciplinary coordination skills, and adaptability to evolving technologies. Emphasizing collaboration and learning from experienced industry professionals is essential for success in large-scale projects.
Students benefit from building their careers step by step, mastering technical skills before pursuing management roles. This incremental approach establishes a solid foundation in both technical and collaborative aspects, supporting long-term success in their field.
More Details in This Episode…
About Graciela Patino
Graciela Patino, senior vice-president at WSP and an electrical engineer, is a graduate of the University of Florida, Florida, where she earned a Bachelor of Science degree in electrical engineering. She has more than 29 years of experience that includes design for power distribution, instrumentation and controls, and motor drive systems. Graciela has worked in the movable bridge industry for 24 years, designing and commissioning electrical and control systems for movable ...
