Decarbonization Renewable Resources Renewable Energy Electric Vehicles Carbon-Free Energy Alternative Energy Sources Fossil Fuels Wind Power Energy Efficiency Green Technology Renewable Energy Sources Clean Energy Sources Renewable Energy Technologies Energy Transition Nuclear Power Clean Energy Carbon Neutrality Wind Energy Net Zero Emissions Green Technologies Renewable Energy Storage Impact of Energy Transition Environmental Policy Carbon-Free Energy Solutions Carbon-Free Energy Sources Hydrogen Production Offshore Wind Technology Urban Sustainability Renewable Technologies Renewable vs Non-Renewable Net Zero Transition Biomass Energy Impact of Wind Energy Hydroelectric Power Impact of Energy Production Green Power Transition Low Carbon Energy Nuclear Energy and Carbon Emissions Impact of Energy Sources Offshore Wind Farms Carbon Capture Natural Resources Aviation Fuels Low Carbon Electricity Low-Carbon Energy Low-Carbon Manufacturing Low-Carbon Technologies Solar Energy Benefits Transition to Renewables Photovoltaic Energy Emission-Free Power Solar Energy Impact Solar Power Wind and Solar Power Green Hydrogen Land Use Battery Environmental Impact Carbon Emissions Hydrogen Energy Climate Change Biogas Production Smart Grids Ethanol-blended Fuels Wind Farms Grid Management Hydrogen Economy Clean Power Nuclear Energy Clean Energy Transition Green Energy Sources Electric Transportation Geothermal Resources Hydrogen Technology Clean Energy Solutions Electric Propulsion Benefits Climate Change Solutions Impact of Wind Farms Geothermal Energy Energy Consumption Carbon-Free Electricity Alternative Fuels Concert Sustainability Waste Heat Recovery Carbon-Free Power
The final module of the 3,000-ton pulsed superconducting magnet system has been delivered, marking a key milestone in ITER's mission to demonstrate clean, self-sustaining fusion energy.