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Conference Sub-Themes

Sub-Theme 1: Technological Innovations for Energy and Advanced Systems

This theme focuses on practical, engineering-driven solutions, with an emphasis on integrating advanced materials into energy systems and manufacturing technologies.

Topics:

  1. Advanced Energy Systems
    Engineering applications of fuel cells, batteries, and hybrid energy systems for increased energy efficiency and scalability.
  2. Renewable Energy Technologies
    Innovations in solar energy systems, focusing on solar cells, energy storage, and conversion technologies.
  3. Membrane Technologies for Industrial Applications
    Engineering and deployment of advanced membranes in water treatment, energy systems, and catalysis for industrial efficiency.
  4. Nanotechnology in Advanced Manufacturing
    The role of nanotechnology in revolutionizing manufacturing processes for energy systems and advanced engineering components.

Sub-Theme 2: Sustainable Materials and Environmental Applications

This theme emphasizes fundamental research in sustainable materials, environmental conservation, and energy conversion technologies.

Topics:

  1. Sustainable Materials for Energy Conversion
    Research on materials that enable more efficient energy conversion, focusing on breakthroughs in materials science for energy harvesting and storage.
  2. Geological Sciences for Sustainable Development
    Exploration of geological resources and their sustainable utilization, contributing to long-term environmental sustainability.
  3. Corrosion Prevention in Energy Systems
    Materials and methods for inhibiting corrosion to enhance system longevity and reliability in engineering systems.
  4. Environmental Sustainability through Green ChemistryThe role of green chemistry in developing sustainable materials and processes that reduce environmental harm while supporting energy systems.

Sub-Theme 3: Carbon Capture, Utilization, and Storage for Sustainable Development

This theme focuses on comprehensive strategies for capturing, storing, and utilizing carbon to reduce emissions, emphasizing the integration of advanced material sciences and innovative technologies.

Topics:

  1. Carbon Capture Utilization (CCU) and Industrial ApplicationsInvestigating the industrial-scale utilization of captured carbon to transform it into valuable products, reducing overall emissions and contributing to a circular carbon economy.
  2. Carbon Capture Storage (CCS) for Net-Zero EmissionsExploring advanced techniques for long-term carbon storage, including geological storage and innovative materials that enhance the safety and efficiency of sequestration methods.
  3. Materials Innovation for Carbon Capture
    Development of new materials specifically designed for enhanced carbon capture performance, including adsorption, absorption, and membrane-based technologies.

Sub-Theme 4: Artificial Intelligence and Digital Transformation in Engineering

This theme focuses on leveraging digital technologies, particularly AI and machine learning, to transform engineering processes, strongly emphasizing sustainability and efficiency.

Topics:

  1. Artificial Intelligence in Smart Energy SystemsThe role of AI in optimizing energy systems, enhancing efficiency, and facilitating predictive maintenance in engineering.
  2. Blockchain Technologies for Energy Management
    Application of blockchain in decentralized energy distribution, increasing transparency and improving system efficiency.
  3. Cybersecurity in Digital Energy Networks
    Ensuring the security of interconnected energy systems and smart grids, protecting against cyber threats.
  4. Internet of Things (IoT) for Efficient Energy MonitoringThe use of IoT technologies for real-time monitoring and control of energy systems, improving sustainability and reducing waste.