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Sourcing overseas biomass for EU ambitions: assessing net sustainable export potential from various sourcing countries

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Low-cost sustainable biomass availability in the European Union may not be able to meet increasing demand; exploring the option of importing biomass is therefore imperative for the years to come. This article assesses sustainable biomass export potential from Brazil, Colombia, Indonesia, Kenya, Ukraine, and the United States by applying a number of sustainability criteria. Only biomass types with the highest potential are selected, to take advantage of economies of scale, e.g. pulpwood, wood waste, and residues in the United States, and agricultural residues in Ukraine. This study found that, except for the United States, pellet markets in the sourcing regions are largely undeveloped. The export potential depends strongly on pellet mill capacity and assumed growth rates in the pellet industry. Results show that the United States, Ukraine, Indonesia, and Brazil offer the highest biomass export potential. In the Business As Usual 2030 scenario, up to 204 PJ could potentially be mobilized; in the High Export scenario this could increase to 1423 PJ, with 89% of the potential being available for costs ranging from 6.4 to 15 €/GJ. These potentials meet the European Commission requirements for a 70% reduction in greenhouse gas emissions set in the Renewable Energy Directive. The total export potentials do not reflect the net possible import potentials to the European Union, as biomass could be imported to other countries where there is a demand for it, where less strict sustainability requirements are applied, and which are proximate to the sourcing regions, notably South Korea, Japan, and China.

Author:

Thuy Mai-Moulin, Lotte Visser (Copernicus Institute of Sustainable Development, Utrecht University, Utrecht, The Netherlands)


Kevin R. Fingerman (International Institute for Sustainability Analysis and Strategy, Darmstadt, Germany and Humboldt State University, Arcata, California, USA)


Wolter Elbersen, Berien Elbersen, Gert-Jan Nabuurs (Wageningen University and Research, Wageningen, The Netherlands)


Uwe R. Fritsche (International Institute for Sustainability Analysis and Strategy, Darmstadt, Germany)


Inés Del Campo Colmenar (CENER – National Renewable Energy Centre, Sarriguren (Navarra), Spain)


Dominik Rutz (International Institute for Sustainability Analysis and Strategy, Darmstadt, Germany)


Rocio A. Diaz-Chavez (Imperial College London, South Kensington Campus, The United Kingdom)


Axel Roozen, Mathijs Weck (Copernicus Institute of Sustainable Development, Utrecht University, The Netherlands)


Leire Iriarte (International Institute for Sustainability Analysis and Strategy, Darmstadt, Germany)


Luc Pelkmans (VITO NV, Mol, Belgium)


David Sanchez Gonzalez (CENER – National Renewable Energy Centre, Sarriguren (Navarra), Spain)


Rainer Janssen (WIP Renewable Energies, Munich, Germany)


Martin Junginger (Copernicus Institute of Sustainable Development, Utrecht University, The Netherlands)


Biofuels, Bioproducts, and Biorefining published by Society of Chemical Industry and John Wiley & Sons, Ltd.

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