4 minute read
Editorial Note
SOLUTIONS FOR THE GREEN DEAL
In its report “World Energy Transition Outlook” released last March, IRENA outlines a pathway for the world to achieve the Paris Agreement goals, based on options to limit global temperature rise to 1.5 °C and bring CO2 emissions closer to net zero by 2050. The report highlights that the energy transition is already taking place, shaping a new energy system that will be based on renewable technologies, many of which already largely existing today, and acknowledges a very important role for bioenergy together with renewable power and green hydrogen. In the 1.5 °C scenario drawn by IRENA, the share of final energy met with (modern) bioenergy increases to 17% in 2050 from around 1.5% globally today, with a priority for producing advanced biofuels for the aviation and shipping sectors, but also as a feedstock for the chemical industry and for industrial heating. In addition, BECCS would contribute over 52% of the carbon captured over the period to 2050, with applications for power and heat production and in industrial processes such as in cement production. Meeting this target will require a combination of technology and innovation to advance the energy transition and improve carbon management, supportive and proactive policies, associated job creation, socio-economic improvements and international cooperation, to guarantee energy availability and access.
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In the spirit of BE-Sustainable and of the European Biomass Conference and Exhibition, this issue is about solutions to today’s challenges, that can be brought forward by pursuing continuous efforts in research, development, and innovation. For example, in the agricultural sector, years of R&I demonstrate that with an efficient use of agricultural land, integrated food-energy cropping systems could increase biomass availability, while responding to the improved nutrient management and crop rotations obligations, which will likely be set by the new CAP.
Another example is agricultural biogas, where the use of lignocellulosic residues such as cereal straw, considered as a quite challenging feedstock for anaerobic digestion, has become a reality in the last years, by improving the pre-treatment process. Thanks also to these innovations, in Denmark the share of biomethane in the gas grid has more than doubled in just one year, from 11% in 2020 to 21.5% in 2021. Now the increasingly large amounts of CO2 recovered from biogas upgrading, could be coupled with the increasing share of renewable electricity from wind and solar and the emerging hydrogen electrolyzing capacity, in power-to-X (PtX) applications to produce methane, methanol and other electrofuels.
Hydrogen is one of the main pillars of the Europe’s decarbonization strategy, and a review article in this issue explains that there are ready alternatives to produce renewable hydrogen from biomass that could be also potentially integrated in a biorefinery concept.
Other biomass-based solutions are presented in this issue, some of them are closer to market than others, but all of them show that through science, research and innovation, the versatility and the potential of biomass can be harnessed sustainably so that this resource can play its important role towards net zero emissions and other objectives of the EU Green Deal.
Enjoy reading. Maurizio Cocchi Editor editorial@besustainablemagazine.com
BE
sustainable sustainable
BE sustainable ETA-Florence Renewable Energies via Giacomini, 28 50132 Florence - Italy www.besustainablemagazine.com Issue 12 - April 2021 ISSN- 2283-9486
Editorial Note
M. Cocchi
Biotechnology: an innovation driver in the French biobased industry
O. Rolland, M. O'Donohue, INRAE, France
Exploring the potential for calories and bioenergy in France
E. Gossiaux, P.-A. Jayet, INRAE, France
Integrating food-energy cropping systems in temperate climates
W. Zegada-Lizarazu, A. Monti, Department of Agricultural and Food Sciences, University of Bologna, Italy
How to triple the biogas production by 2030 through sustainable biomass
J. B. Holm-Nielsen, Center for Bioenergy and Green Engineering, Aalborg University, Denmark 22
Hydrogen from biomass: challenges and perspectives
M. Buffi, M. Prussi, N. Scarlat, JRC, Directorate C - Energy, Transport and Climate Energy Efficiency and Renewables
Algae to kerosene: the green wake
M. Prussi, JRC, N. Scarlat, JRC, Directorate C - Energy, Transport and Climate Energy Efficiency and Renewables
A mandatory market for SAF closer than ever
K. Arts, SkyNRG, The Netherlands
Hydrothermal Liquefaction in the Green Energy Transition
G. I. Rodio, ETA Florence Renewable Energies, Italy
Ushering An Era of Bio-mobilityTM in India
S. Joshipura, CEO & Managing Director, Praj Industries Ltd, India
Mobilizing Resources, enabling policies and investments for cost-competitive renewable fuels and bioenergy
M. Cocchi, ETA Florence Renewable Energies, Italy
EBIO project will produce biofuels through electrochemical transformation of intermediate bioliquids
G. I. Rodio, M. Cocchi, ETA Florence Renewable Energies, Italy
Biofuel production and phytoremediation solutions from contaminated lands worldwide: Phy2Climate
S. Capaccioli, M. Cocchi, ETA Florence Renewable Energies, Italy
References
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BE Sustainable is published by ETA-Florence Renewable Energies, Via Giacomini 28, 50132 Florence, Italy Editor-in-Chief: Maurizio Cocchi | editorial@besustainablemagazine.com | twitter: @maurizio_cocchi "Direttore responsabile: Maurizio Cocchi" "Autorizzazione del Tribunale di Firenze n. 548/2013" Managing editor: Angela Grassi | angela@besustainablemagazine.com Marketing & Sales: marketing@besustainablemagazine.com Graphic design & Layout: Studio Newt - Florence Website: www.besustainablemagazine.com The views expressed in the magazine are not necessarily those of the editor or publisher. Cover image: INRAE Image page 26: Shutterstock/Scharfsinn Image page 30: Shutterstock/Steve Mann Image page 45: Shutterstock/Miha Creative
