Energy-Efficient Design and Control of Parallel Kinematics Mechanisms for Sustainable Manufacturing: Case Study in Renewable Energy Component Fabrication

EasyChair Preprint no. 13192

Abstract

As the world increasingly shifts towards sustainable manufacturing practices, the efficiency of machinery becomes paramount. Parallel kinematics mechanisms (PKMs) offer promising solutions due to their high precision, agility, and energy efficiency. This paper investigates the design and control aspects of PKMs tailored for renewable energy component fabrication. Through a comprehensive review of literature, theoretical analysis, and a case study, this research elucidates the potentials of PKMs in enhancing sustainability in manufacturing processes, particularly within the renewable energy sector. The study highlights the significance of energy-efficient design and control strategies in reducing environmental footprints and enhancing the competitiveness of renewable energy technologies.

Keyphrases: Component Fabrication, control strategies, energy efficiency, Parallel Kinematics Mechanisms, renewable energy, Sustainable Manufacturing

@Booklet{EasyChair:13192,
  author = {Wahaj Ahmed and Nakul Mehra},
  title = {Energy-Efficient Design and Control of Parallel Kinematics Mechanisms for Sustainable Manufacturing: Case Study in Renewable Energy Component Fabrication},
  howpublished = {EasyChair Preprint no. 13192},

  year = {EasyChair, 2024}}