Overview - ICREEE 2026

About the Conference

The energy sector is at a historic turning point. Fossil fuels have powered industrial growth for centuries, but their environmental consequences now demand urgent alternatives. ICREEE 2026 will explore the technological, economic, and social dimensions of renewable energy transition, addressing challenges such as: • Energy security and sustainability • Carbon reduction and clean technologies • Integration of renewables into smart grids • Innovations in storage and conversion systems • Policy frameworks for global energy equity

About Rajadhani Institute of Engineering & Technology (RIET)

Rajadhani Institute of Engineering & Technology Campus

The First International Conference on Renewable Energy Systems, Environment and Engineering ( ICREEE) will be held in Rajadhani Institute of Engineering & Technology (RIET), Kerala, from May 28 - 30, 2026.

ICREEE aims to bring together academics, researchers, scientists, technocrats, and practicing engineers, for an open discourse on disciplines ranging from energy to environment. The virtual conference will include virtual and onsite presentations, thematic scientific tracks, student presentations, networking opportunities, a field trip and an academic scientific writing workshop for the delegates and several specialized parallel sessions within the scope of the conference themes from diverse disciplines.

ICREEE will cover a diverse range of cutting-edge topics, including Renewable Energy Technologies, Solar Energy, Oil and Gas Technologies, Smart Grids, Green and Electrified Transportation, Alternative and Clean Fuels, Hydrogen and Fuel Cell Technologies, Nuclear Energy, Desalination Technologies, Waste Water Treatment and Environmental Technologies.

The conference is intended to increase the visibility and advancement of futuristic and cleaner technologies such as green energy, renewable energy, environmental science and e-mobility. Other highlights are smart cities, green buildings, energy management systems, and desalination technologies. It also addresses societal and environmental threats, unveiling the challenges in the life cycle assessment, CO2 reduction technologies, bio-waste utilization, wastewater treatment, nuclear energy and fuels for transportation.

We anticipate the presence of 150 delegates from over 20 countries at the conference. Academic and industrial stakeholders from around the globe will convene at the conference to present and deliberate on critical issues concerning the circular bioeconomy, environmental sciences, clean energy, and the United Nations Sustainable Development Goals.

Your research team is cordially invited by the organizers to participate in this event, which will further your professional and personal development.

Our Mission

To create a transformative platform where academic excellence converges with innovation, fostering breakthrough research, meaningful collaborations, and the advancement of knowledge across all disciplines.

Our Vision

To be the world's most influential academic gathering, where diverse minds unite to solve humanity's greatest challenges through cutting-edge research, interdisciplinary collaboration, and shared commitment to excellence.

Conference Topics

Explore cutting-edge research domains that will shape the future of science and technology.

Next-Generation Energy Resources and Technologies

Fusion, shale gas, and clean coal technologies

Solar PV, CSP, wind, biomass, geothermal, and ocean energy

Waste-to-energy pathways and clean combustion methods

Energy harvesting and advanced thermal systems

Green Energy Engineering and Circular Economy

Green building materials and sustainable architecture

Eco-friendly manufacturing and clean production

Circular waste utilization and industrial energy systems

Green chemistry and emission reduction

Smart Energy Grids and InterGrid Technologies

Smart grid planning and microgrid integration

Demand-side load management

Cyber-physical grid security

Intelligent EV charging and Vehicle-to-Grid systems

Cloud computing for distributed energy

Advanced Materials for Energy Applications

Semiconductor materials for PV and thermoelectric devices

Nanostructured materials for storage and conversion

Fuel cell membranes and high-temperature materials

Superconductors and magnetic materials for power electronics

Functional oxides, dielectrics, and transparent conductors

Next-Generation Batteries and Electrochemical Storage

Lithium-ion, sodium-ion, and solid-state batteries

Flow batteries and metal–air systems

Hybrid storage and ultra-fast charging technologies

Battery thermal management and safety

BMS and real-time diagnostics

Integrated Renewable Energy Systems and Applications

Solar PV and thermal hybrid systems

Wind turbine control and optimization

Biomass gasification and fermentation

Hydrogen production and electrolysis

Fuel cell applications and hybrid desalination

Climate-responsive design and sustainable architecture

Modelling, Simulation, and AI in Energy Systems

CFD and multiphysics simulations for energy systems

Machine learning for forecasting demand and efficiency

Digital twins for renewable infrastructure

Optimization of devices and energy transport systems

Global Energy Policy, Investment, and Education

Renewable energy policies and pilot projects

International energy trade and cooperation

Green financing and investment strategies

Energy curriculum development

Community engagement and SDG-focused initiatives

ICREEE Overview