Biomass-derived liquid transportation fuels and energy products have been proposed as part of the solution to climate change and thus support SDG 7 and 13 to increase renewable energy in the global energy mix and increase resilience against climate change. This article describes the key challenges and opportunities in modeling and optimization of biomass-to-bioenergy supply chains. Conclusions include potential future research on multi-scale modelling and optimization of biofuel value chains.
Focused on a Green Future
Italy's leading petrochemical producer, Versalis has taken a fundamental shift in its strategy and direction, to renew its focus on innovation and green chemistry, providing opportunities for growth. This is the ICIS/Versalis supplement about green and bio-based chemicals and sustainabliity with videos embedded. Green chemistry fits in with SDG 9 Industry Innovation and SDG 7 Affordable Clean Energy.
In order to ease the pressure on biomass resources and investments in renewable energy, feasible solutions to future sustainable energy systems must involve a substantial focus on energy conservation and energy efficiency measures. This paper defines the concept of 4th Generation District Heating and explains the concepts of smart energy and smart thermal grids, in support of SDG target 7.2 to increase substantially the share of renewable energy in the global energy mix by 2030.

Energy Research & Social Science, March 2014, Pages 188 - 197

The threat of disruptive climate change has thrown the spotlight on the central role that energy plays in shaping the future relationship between human society and its natural environment. This article provides an overview of how the study of global environmental politics has shaped energy research in the past and how it contributes to defining the future energy research agenda. It provides insights to SDG target 7 to secure clean energy with minimal environmental impact to all.