Article by Dieyo Moya, Michelle Arellano and Pablo Carvajal
The recent 24th World Energy Congress (WEC24) organised by the World Energy Council in Abu Dhabi (9 – 12 September 2019) was a platform to discuss the key implications for the energy sector to tackle global challenges in a fast-changing landscape of disruptive innovation. World energy leaders from over 40 countries got together to address the complex challenges and opportunities facing the energy transition.
Energy Systems Modelling PhD student Diego Moya, in collaboration with Michelle Arellano – Members Services at the World Energy Council, and Pablo Carvajal – Associate Programme Officer at the International Renewable Energy Agency, IRENA, reflect on the key takeaways from WEC24. Together with other Ecuadorian researchers, they created the Institute for Applied Sustainability Research (IIASUR|). IIASUR is a research institution that brings together researchers interested in Ecuador, Latin America and the Global South to collaborate and unite efforts towards high-end research that can foster sustainable development.
The solar sector is experiencing by far the highest global growth and new investment in renewable technologies. Solar energy is the world’s most abundant permanent energy source: one hour of solar radiation is equivalent to more than the world’s total annual energy need. It is projected that solar energy will cover one-third of the world’s energy consumption by 2060 under favourable conditions. Solar energy can be converted into other energy forms that are useful in sustaining society; in particular, it can be converted to electricity by solar photovoltaic (PV) systems or into thermal energy by solar-thermal (ST) systems.
Christos Markides, Professor of Clean Energy Technologies at the Department of Chemical Engineering, Imperial College London and Head of the Clean Energy Processes (CEP) Laboratory, recently won the Institution of Chemical Engineers (IChemE) Global Award for Best Research Project for the lab’s work developing a promising emerging hybrid PV-T solar-energy technology, which synergistically integrates PV and ST technologies, and is capable of delivering both electricity and heat.