Task 44 contributes to the development and analysis of bioenergy solutions that can provide flexible resources for a low-carbon energy system. The objective is to improve understanding on the types, quality, and status of flexible bioenergy and its future role, and identification of barriers and future development needs in the context of the entire energy system.<\/p>\n
We address our objective of enhancing the implementation of flexible bioenergy concepts to support the on-going transition to a low-carbon energy system through four dedicated Work Packages<\/strong>. The work builds on the outcomes during 2019-2021, when an overview of different aspects of flexible bioenergy were created, namely related to technologies, expectations, policies as well as system integration. In the activities of current triennium, we put special focus on Best Practice examples, flexible bioenergy in energy system modelling, synergies with clean hydrogen and BECCS\/U, and quantification of value of flexibility.<\/p>\n WP1 \u2013 Flexible bioenergy concepts \u2013 Best Practice examples<\/strong><\/p>\n The main objective of WP1 is to identify emerging flexible bioenergy concepts, monitor the development, and showcase the multiple benefits from flexible bioenergy through concrete Best Practice examples. The WP aims at bringing together views and expertise from technical Tasks as well as identifying their data needs regarding flexibility of bioenergy technologies.<\/p>\n Related material and reports:<\/p>\n Best Practices on flexible bioenergy<\/a><\/p>\n Workshop on Flexibility provision from biogenic gases<\/a><\/p>\n Report on Technologies for flexible bioenergy, 2021<\/a><\/p>\n WP2 \u2013 Flexible bioenergy integration in energy systems<\/strong><\/p>\n To prepare the transformation of the energy system, energy system modelling is used for decision support for decision makers in industry and policy, but also for public debate. The value of flexible bioenergy is often created by optimization of the overall energy system. As the long-term energy system planning is often done with energy system modelling, integration of flexible bioenergy options into these models is a precondition to optimize their possible value in sustainable energy system transformation. Therefore, this WP puts special focus on energy system modelling.<\/p>\n The WP aims at fostering flexible bioenergy implementation through making it visible to energy system modelling community and defining their data needs to take flexible provision from bioenergy better into account. Collaboration with other TCPs is anticipated.<\/p>\n WP3 \u2013 Acceleration of flexible bioenergy concepts implementation<\/strong><\/p>\n This WP focuses on analyzing drivers and bottlenecks for flexible bioenergy in different countries and political frame conditions, market designs and policies to incentivize flexible bioenergy, and contributing to long-term target of valorizing and quantifying the value of flexibility.<\/p>\n Related material and reports:<\/p>\n Five cornerstones to unlock the potential of flexible bioenergy, 2021<\/a><\/p>\n