{"id":5825,"date":"2019-11-01T12:23:20","date_gmt":"2019-11-01T12:23:20","guid":{"rendered":"https:\/\/task44.ieabioenergy.com\/?page_id=5825"},"modified":"2023-10-06T09:21:38","modified_gmt":"2023-10-06T09:21:38","slug":"iea-publications","status":"publish","type":"page","link":"https:\/\/task44.ieabioenergy.com\/iea-publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

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Reports and Publications<\/h1>\n

[\/et_pb_text][et_pb_divider color=”#FFBA5A” divider_weight=”3px” _builder_version=”3.17.6″ max_width=”80px” height=”3px” locked=”off”][\/et_pb_divider][dcpt_divi_cpt fullwidth=”off” posts_number=”9″ meta_date=”M Y” excerpt_length=”140″ show_more=”on” show_author=”off” publications_posttype=”on” document-category_taxonomy=”on|on|on|on|on|on|off|off|off|off|off|off|off|off|on|off|off|off|off|off|off|off|off” module_class=”sensei-grid” _builder_version=”4.6.1″ header_font=”|700||on|||||” header_font_size=”14px” header_letter_spacing=”1px” header_line_height=”1.8em” meta_font=”|600|||||||” meta_text_color=”rgba(85,103,127,0.5)” meta_line_height=”2em” border_radii=”on|10px|10px|10px|10px” border_width_all=”0px” box_shadow_style=”preset3″][\/dcpt_divi_cpt][\/et_pb_column][\/et_pb_row][\/et_pb_section]<\/p>\n","protected":false},"excerpt":{"rendered":"

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Expectation and implementation of flexible bioenergy in different countries, 2021<\/strong><\/em><\/p>

This report gives an overview on the status and the expectation of flexible bioenergy in eleven OECD countries (Australia, Austria, Denmark, Finland, Germany, Ireland, Italy, Netherlands, Sweden, Switzerland and the United States of America) to see different approaches for flexible bioenergy, and summarises drivers and barriers. The report describes the general role of bioenergy in the power, heating and cooling, and transport sectors, followed by an outline of the transition towards renewables and the related status of flexible bioenergy regarding policy framework, obstacles and bottlenecks, as well as the incentives. The report is based on country-specific information, including statistic information and expert assessment through a questionnaire.<\/p>

As a conclusion, technological barriers are not seen to be a major challenge, but an economic feasible integration of the technologies in the overall energy system. Coherent policy support to integrate flexible bioenergy in the energy system is considered as necessary. To unlock the potential benefits, the report proposes a stronger link between flexible bioenergy and other options for flexibility, such as demand side management, energy storage, power-to-X and also green hydrogen.<\/p>

IEA Task 44 report - Expectation and implementation of flexible bioenergy in different countries<\/strong><\/a><\/p>

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Roles of bioenergy in energy system pathways towards a \u201cwell-below-2-degrees-Celsius (WB2)\u201d world - Workshop report and synthesis of presented studies, 2020<\/strong><\/em><\/p>

Under the IEA Bioenergy Inter-task project The Role of Bioenergy in a WB2\/SDG world<\/em>, a workshop was held in Berlin, on 25th November 2019. The objective of the workshop was to examine, synthesize and disseminate information from recent studies that investigate how bioenergy and associated technologies may contribute to achieving the reductions in greenhouse gas (GHG) emissions that are needed to meet the WB2 target. This report summarises the workshop contributions and discussions, assesses the role of bioenergy in WB2 strategies, identifies the current state of knowledge as well as gaps in knowledge that need to be addressed.<\/p>

Roles of bioenergy in energy system pathways towards a \u201cwell-below-2-degrees-Celsius (WB2)\u201d world - Workshop report and synthesis of presented studies, 2020<\/em><\/strong><\/a><\/p>

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Deployment of BECCS\/U value chains - Technological pathways, policy options and business models, 2020<\/em><\/strong><\/p>

It is becoming increasingly clear that substantial amounts of negative emissions \u2013 essentially, the removal of carbon dioxide from the atmosphere \u2013 will likely be required if global climate change is to be limited to 2\u00b0C above pre-industrial levels. In order to limit warming to 1.5\u00b0 negative emissions will be a crucial part of the mitigation toolbox. Among the different negative emissions options, bioenergy with carbon capture and storage (BECCS) is arguably one of the most commonly discussed in climate policy debates.<\/p>

BECCS is often discussed in terms of its potential and drawbacks over a very long timeframe, e.g., 2050 and beyond. In this report, however, the focus is in the potential and challenges associated with deploying BECCS systems and value chains in the near to medium term. The report provides a brief overview of different technological options for capture, transport and storage of CO2, and offers insights into how BECCS business models could be set up. The report further discusses the role of public policy in this setting and how bioenergy with carbon capture and utilization (BECCU) could play a role in enabling BECCS deployment.<\/p>

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