Welcome To
International Conference on: London Energy Nexus 2025: Bridging Global Innovation & Sustainable Futures (LENS’25)
LENS’24 Venue: London City, England, United Kingdom.
Conference Dates: 04/05/06 November 2025. (Three Days)
London, England https://lens25.webflowltd.com/
Contact@lens25.webflowltd.com
Exclusive 15% Discount for Early Submissions
Attend in Person or Remotely (Online Presentation is accepted).
Submit your abstract, Short paper, or full paper by April 04, 2025, and enjoy a 15% discount on the submission fee. This initiative aims to encourage diverse international participation and ensure a rich collection of research from across the globe.
We are thrilled to announce that the London Energy Nexus 2025: Bridging Global Innovation & Sustainable Futures (LENS’25) will be held in London City, England, United Kingdom. From November 04, 2025, to November 06, 2025.
LENS’25 Proceedings volume will be submitted to … TBA
London Energy Nexus 2025 seeks to create an international forum that unites academia, industry experts, and policymakers to drive transformative innovations in the energy sector. The conference aims to promote dialogue, share groundbreaking research, and explore collaborative strategies that integrate cutting-edge technologies with sustainable practices, addressing the pressing global challenges of energy security and climate change.
Scope:
- Renewable and Clean Energy Technologies: Research on solar, wind, geothermal, bioenergy, and emerging renewable technologies.
- Digital Transformation in Energy: Applications of AI, IoT, and data analytics in optimizing energy systems, smart grids, and digital twins for real-time monitoring and control.
- Energy Storage and Efficiency: Innovative solutions in battery technologies, thermal storage, and waste heat recovery systems.
- Sustainable Infrastructure and Policy: Studies on energy policy, circular economy models, and sustainable urban energy management.
- Interdisciplinary Approaches: Cross-sector collaborations that connect energy technology with environmental, economic, and social sustainability challenges.
Through a series of keynote speeches, plenary sessions, technical paper presentations, workshops, and poster sessions, this conference provides an opportunity for participants to learn about the latest research, share their experiences, and engage in discussions with their peers. The conference also includes exhibitions and demonstrations of the latest AI technologies and applications.
The London Energy Nexus 2025: Bridging Global Innovation & Sustainable Futures aims to foster collaboration among researchers, academics, industry professionals, and policymakers to promote the development and use of AI for the betterment of society. We hope that this conference will facilitate the exchange of knowledge and ideas, encourage new research collaborations, and help advance the field of artificial intelligence.
In addition to the on-site conference, authors will have the option to present their papers remotely using the Zoom application. This feature is particularly beneficial for authors who are unable to travel to the conference location or those who prefer to present their work from their home institution.
Remote paper presentations will be conducted in real-time, allowing authors to interact with the audience and receive feedback on their work. Remote presenters will have access to all conference sessions, and they will be able to participate in discussions and Q&A sessions using Zoom’s interactive features.
To ensure that remote presenters have a smooth and seamless experience, our technical team will provide support and guidance before and during the conference. We will also ensure that remote presentations are of the same high-quality standards as on-site presentations, with clear audio and video, and easy-to-read slides.
Overall, the option for remote paper presentations will provide an inclusive and accessible conference experience for all authors, regardless of their location or travel restrictions. We encourage all authors to take advantage of this feature and participate in this exciting event.
London Energy Nexus 2025: Bridging Global
Innovation & Sustainable Futures
(LENS 2025)Conference Topics
AI-Driven Optimization of Renewable Energy Systems
Investigate how machine learning algorithms can maximize the efficiency of solar farms, wind turbines, and other renewable installations.
Smart Grids and Digital Twins
Explore the development of digital twin models and AI-based monitoring to enhance real-time management and resilience of smart grids.
Decentralized Energy Trading Using Blockchain and AI
Analyze how blockchain can create secure, decentralized energy markets, while AI predicts supply–demand dynamics.
Innovative Energy Storage Solutions for a Sustainable Future
Study breakthroughs in battery technology, thermal storage, or novel chemical storage systems that could revolutionize energy sustainability.
Integration of IoT and AI for Urban Energy Management
Discuss strategies for deploying IoT sensors and AI analytics in smart cities to optimize energy consumption and reduce waste.
Circular Economy in the Energy Sector
Examine innovations in waste-to-energy processes, recycling of energy components, and sustainable resource recovery models.
Climate Change Mitigation via AI-Enhanced Emission Reduction Strategies
Explore how data analytics and predictive AI models can inform policies and technologies to cut greenhouse gas emissions.
Hybrid Energy Systems: Bridging Conventional and Renewable Sources
Investigate integrated systems that combine traditional power generation with renewable sources to improve grid reliability.
Next-Generation Solar Technologies
Focus on emerging photovoltaic materials and AI-optimized designs that enhance solar cell efficiency and durability.
Advances in Wind Energy: Aerodynamics and Predictive Maintenance
Look into aerodynamic innovations and AI applications that enable real-time predictive maintenance for wind energy systems.
Bioenergy and Green Hydrogen: Sustainable Future Fuels
Discuss the role of bioenergy and green hydrogen production in reducing carbon footprints and transforming energy landscapes.
Energy Policy and Global Innovation Frameworks
Critically analyze policy models and international collaborations that drive sustainable energy transitions worldwide.
AI in Energy Forecasting and Demand-Supply Optimization
Study predictive models that leverage big data and machine learning to forecast energy demand and supply trends accurately.
Smart Cities and Energy Resilience
Explore innovative urban planning and energy management practices that ensure cities remain resilient in the face of climate change.
Cybersecurity in Digital Energy Infrastructures
Address the challenges and solutions related to protecting smart grid and energy management systems from cyber threats.
Advanced Energy Conversion Technologies
Explore cutting‐edge methods for converting energy (thermal, chemical, solar) into electrical power, focusing on efficiency improvements and scalability.
Applied Energy Efficiency in Buildings and Urban Infrastructure
Investigate smart retrofitting, integrated building systems, and IoT-enabled controls to reduce energy consumption in urban environments.
Smart Energy Management in Industrial Processes
Study real-time monitoring, automation, and optimization techniques for industrial energy use, with an emphasis on reducing waste and emissions.
Distributed Energy Systems and Microgrid Integration
Examine design, implementation, and performance evaluation of microgrids, emphasizing how distributed systems can enhance local energy resilience.
Thermal Energy Storage and Waste Heat Recovery
Analyze novel thermal storage methods and waste heat recovery systems that can improve overall energy efficiency in various applications.
Hybrid Energy Systems: Merging Conventional and Renewable Sources
Explore systems integration where traditional power plants and renewable sources work synergistically for optimal energy output.
Emerging Materials for Applied Energy Solutions
Focus on the development and application of novel catalysts, photovoltaic materials, and energy‐absorbing composites that can revolutionize energy conversion processes.
Electrification of Transportation and Energy Infrastructure
Discuss strategies and technologies for integrating electric vehicle charging systems, smart grids, and energy storage to support the transportation sector.
Applied Energy Economics and Policy Analysis
Evaluate economic models, cost-benefit analyses, and policy frameworks that promote the adoption of applied energy solutions in industry and society.
Integration of AI in Applied Energy Systems
Investigate how artificial intelligence and machine learning can optimize energy conversion, predictive maintenance, and operational efficiency in applied energy systems.