Renewable-Energy-Driven Future

<p>Part I: Technologies<br>1. Solar energy technologies: principles and applications<br>2. Bioenergy for better sustainability: technologies, challenges and prospects<br>3. Organic Rankine cycle driven by geothermal heat source: life cycle techno-economic-environmental analysis<br>4. Renewable energy based trigeneration systems — technologies, challenges and opportunities<br>5. Integrated power transmission and distribution systems</p> <p>Part II: Modelling<br>6. Integrated inexact optimization for hybrid renewable energy systems<br>7. Large-scale integration of variable renewable resources<br>8. The climate and economic benefits of developing renewable energy in China</p> <p>Part III: Applications<br>9. The utilization of renewable energy for low-carbon buildings<br>10. Towards a renewable-energy-driven district heating system: key technology, system design and integrated planning<br>11. Renewable-energy-driven desalination for more water and less carbon</p> <p>Part IV: Sustainability<br>12. The environmental performance of hydrogen production pathways based on renewable sources<br>13. Integrated economic-environmental-social assessment of straw for bioenergy production<br>14. Sustainability assessment of renewable-energy based hydrogen and ammonia pathways<br>15. An extended fuzzy divergence measure-based technique for order preference by similarity to ideal solution method for renewable energy investments<br>16. Multicriteria decision making for the selection of the best renewable energy scenario based on fuzzy inference system</p> <p>Part V: Policy<br>17. How much is possible? An integrative study of intermittent and renewables sources deployment. A case study in Brazil<br>18. Renewable energy technologies: barriers and policy implications<br>19. Policies for a sustainable energy future: how do renewable energy subsidies work and how can they be improved?<br>20. Renewable energy-based power generation and the contribution to economic growth: the case of Portugal</p>