Bioenergy with Carbon Capture and Storage. Using Natural Resources for Sustainable Development

Table of Contents

1. Negative emissions technologies Francisca M. Santos, Ana L. Gon�alves, Jos� C.M. Pires 2. Carbon capture technologies Karen N. Finney, Muhammad Akram, Maria E. Diego, Xin Yang, Mohamed Pourkashanian 3. Pre- and post-Paris views on bioenergy with carbon capture and storage Mathias Fridahl 4. Rightsizing expectations for bioenergy with carbon capture and storage towards ambitious climate goals Daniel L. Sanchez1, Peter A. Turner, Ejeong Baik, Christopher B. Field, Sally M. Benson, Katharine J. Mach 5. Status of BECCS potential and challenges Nasim Pour 6. Role of the ocean in climate stabilization Celina M. Scott-Buechler, Charles H. Greene 7. The climate mitigation potential of managed versus unmanaged spruce and beech forests in central Europe Ernst-Detlef Schulze, Inge Stupak, Dominik Hessenm�ller 8. Carbon dioxide capture and use by microalgae in photobioreactors Ihana A. Severo, Mariany C. Depr�, Leila Q. Zepka and Eduardo Jacob-Lopes 9. Beyond fractionation in the utilization of microalgal components Michele Aresta1, Angela Dibenedetto 10. Environmental impacts of bioenergy crop production and benefits of multifunctional bioenergy systems Srinivasulu Ale, Pandara V. Femeena, Sushant Mehan, Raj Cibin 11. Killing two birds with one stone: a negative emissions strategy for a soft landing of the US coal sector Piera Patrizio, Sylvain Leduc, Florian Kraxner, Sabine Fuss, Georg Kindermann, Kasparas Spokas, Elisabeth Wetterlund, Joakim Lundgren, Ping Yowargana, Michael Obersteiner 12. Bioenergy with Carbon Capture and Storage: how carbon storage and biomass resources potentials can impact the development of the BECCS Sandrine Selosse 13. Economics and policy of BECCS Nasim Pour 14. Bioenergy with carbon capture and storage in a future world Patrick Moriarty, Damon Honnery

Authors

Jose Carlos Magalhaes Pires LEPABE - Laborat�rio de Engenharia de Processos, Ambiente, Biotecnologia e Energia, Departamento de Engenharia Qu�mica, Faculdade de Engenharia, Universidade do Porto, ALiCE - Associate Laboratory in Chemical Engineering, Faculty of Engineering, University of Porto, Rua Dr. Roberto Frias, Portugal.. JCM Pires is currently an assistant researcher at the Faculty of Engineering of University of Porto, Portugal. He has more than 17 years of teaching and research experience. JCM Pires published 66 papers in international peer-reviewed journals, 6 books and 25 book chapters and his research work was discussed in 48 international meetings and 3 national meetings. His research interest includes process engineering and modelling with emphasis on the environmental applications of microalgal cultures, including CO2 capture, wastewater bioremediation, and bioenergy production. Ana Luisa da Cunha Goncalves Researcher, Faculty of Engineering, University of Porto (FEUP); Postdoctoral Researcher, TexBoost Project, CITEVE. Ana Luisa da Cunha Gon�alves graduated in Bioengineering (Biological Engineering Branch) by Faculty of Engineering of University of Porto in 2012. In 2013, she started her PhD in Chemical and Biological Engineering at FEUP. The PhD, entitled Microalgal cultivation for biomass production, CO2 capture and nutrients uptake, aimed the optimization of culturing conditions of microalgae and cyanobacteria in laboratory and pilot scale to improve both CO2 capture and nutrients uptake from the culture medium. Before finishing the PhD, she worked for 9 months as Wet Biomass Production Manager in a microalgal production company. Currently, Dr. Gon�alves is a postdoctoral researcher in the TexBoost project at CITEVE and also an external researcher at LEPABE-FEUP. AL Gon�alves published 20 papers in international peer reviewed journals, 2 book chapters and her research work was discussed in 10 international meetings.