Today’s global community faces a challenge of epochal proportions. On a planet which will soon house 8 billion people, the greatest challenge is to meet every day the growing demand for energy at sustainable cost, while avoiding the creation of disruptive environmental imbalances. It is no secret that over the past several decades, the world has dramatically changed, largely thanks to the contribution of fossil fuels (e.g., coal, oil, and natural gas) and the massive contamination of the environment by wastes. Fossil fuels have provided us with cheap and convenient energy which we use for heating and electric power generation, and have been widely used as transportation fuels and also for chemical production. With a continuous population increase and expansion of economies, global energy consumption is increasing rapidly, and so is waste generation, whereas cheap fossil fuels as nonrenewable sources are rapidly depleting. Moreover, their massive utilization has also caused many problems such as environmental damage (e.g., ozone depletion, global warming) associated with various emissions. Greenhouse gas (GHG) emissions resulting from the provision of energy services have contributed significantly to the historic increase in atmospheric GHG concentrations. Recent data confirm that consumption of fossil fuels accounts for the majority of global anthropogenic GHG emissions (International Energy Outlook, 2018). Therefore, finding effective, sustainable solutions to combat the effects of anthropogenic global warming is the greatest challenge faced by the global community in the 21st century. To this end, a massive change in the energy supply structure is required in the future to meet the growing demand for energy, while reducing the impact on the environment. In this regard, several scenarios have been forecast by different institutions based on different perspectives and techniques (Energy and Climate Change Committee, 2016).

Sustainable development is currently considered the best approach to address the complex and interrelated threats that the world is facing today (Waas et al., 2010), including both a secure energy supply and environmental pressure (Tagliaferri, 2016). The energy transition toward a new energy model based on a CO₂-emission-free society is one of the most critical challenges for our global community. It implies the integral transformation of productive processes at all levels such as energy production (shifting rapidly from fossil to renewable energy sources), energy vectors (heat, electricity, gas, etc.), and final utilization (industry, transportation, heating, etc.). Such transformation must include new advance technologies to make possible a transition from an energy system sustained by centralized energy generation toward a distributed one, in which the clear difference between energy producers and consumers becomes less evident (Abánades, 2018).