Topology Optimization and Innovation Ecosystems for Greenhouse Gas Mitigation: Research Programs and Industrial Applications from Sao Paulo & Embodied Mechatronics: Mechanically Intelligent Robotic Structures

#Low-carbon #technologies #Hydrogen #and #methanol #production #Additive #manufacturing #Topology #optimization #Sustainable #engineering #Embodied #Mechatronics #Robotic #systems #Smart #materials #Metamaterials #Intelligent #robotic #structures
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During the first lecture, scientific research and industrial programs related to the reduction of greenhouse gas emissions, low-carbon technologies, hydrogen and methanol production, additive manufacturing, and digital engineering will be presented. Special emphasis will be placed on the application of topology optimization methods in energy conversion systems and sustainable engineering.

The second lecture will be dedicated to the concept of “Embodied Mechatronics,” where intelligence and adaptation are integrated directly into the physical structure of robotic systems through the application of smart materials and metamaterials. Examples of modeling, design, and development of intelligent robotic structures will be presented.

 


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  • University Ss. Cyril and Methodius, Faculty of Computer Science and Engineering
  • Skopje, Macedonia
  • Macedonia 1000
  • Building: Faculty of Mechanical Engineering, Skopje
  • Room Number: Room К3-9

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  • Co-sponsored by MFS, FCSE, FEEIT, ICT-ACT, as well as EuroCC3, CyberMAC, Vezilka, DigitMAK, ChatMED Projects.


  Speakers

Asst. Prof. Renato Picelli Sanches, PhD of Polytechnic School of the University of São Paulo, Brazil

Topic:

Topology Optimization and Innovation Ecosystems for Greenhouse Gas Mitigation: Research Programs and Industrial Applicat

During the lecture, scientific research and industrial programs related to the reduction of greenhouse gas emissions, low-carbon technologies, hydrogen and methanol production, additive manufacturing, and digital engineering will be presented. Special emphasis will be placed on the application of topology optimization methods in energy conversion systems and sustainable engineering.

Assoc. Prof. Jovana Jovanova, PhD of Delft University of Technology (TU Delft), Faculty of Mechanical engineering, maritime and transport technology

Topic:

Embodied Mechatronics: Mechanically Intelligent Robotic Structures

The lecture will be dedicated to the concept of “Embodied Mechatronics,” where intelligence and adaptation are integrated directly into the physical structure of robotic systems through the application of smart materials and metamaterials. Examples of modeling, design, and development of intelligent robotic structures will be presented.