CDR: Carbon Dioxide Removal

Highlights from the 2025 CarMa Annual Seminar

We were pleased to host our annual seminar at IFP School, chaired by the members of our Scientific Council: Roger Aines, Sabine Fuss, and Volker Sick. Our students Romain Presty, Siwar Saadaoui, and Pauline ASCON — presented their research, sparking lively discussions with industrial representatives Farah Doumit, PhD, Pierre Millereau, Simon Lang, Léo BARRUOL, Richard Phan, and all attendees. Together, we explored key challenges in advancing low-carbon solutions. Several important topics emerged from these discussions, which will shape the research for the second phase of the chair: • Integrating BECCUS and other low-carbon technologies into industrial supply chains • Evaluating policy instruments such as the EU ETS for driving emission reductions • Developing optimal strategies for industrial emission reductions • Identifying viable business models for sustainable low-carbon pathways • Addressing social aspects of the low carbon transition • Ensuring industrial competitiveness while reducing emissions The seminar highlighted the value of collaboration between academia and industry and reinforced the urgency of working together to overcome the complex, interconnected challenges of the low-carbon transition.

11/24/2025 - 10:34

Pauline Ascon joins the CarMa Research Team

On November 12th, 2025, Pauline Ascon joined the CarMa research team to begin her doctoral research at IFPEN and at the Center for Applied Mathematics of Mines Paris (CMA), under the supervision of Sandrine Selosse (CMA) and Carlos Andrade (IFPEN). Her thesis will focus on the social acceptability of low-carbon technologies and its implications for long-term prospective modelling.

11/12/2025 - 11:10

Global Collaboration in Carbon Dioxide Removal: Navigating a Fragmented Landscape - New CarMa chair publication by Romain Presty

As carbon dioxide removal (CDR) becomes an increasingly important component of net-zero strategies, understanding how scientific collaboration is structured globally is essential. This review applies bibliometric methods to map and analyze co-authorship networks, institutional communities, and thematic structures in CDR-related research from 2015 to 2024, using Web of Science data. The analysis of 9,280 publications from 151 countries shows a fragmented research landscape dominated by national and regional clusters. The EU27, the United States, and China account for most of the global output, yet their bilateral collaborations are often thematically specialized rather than broadly interdisciplinary. Only a small proportion of institutions act as connectors across clusters, limiting cross-regional knowledge exchange. These patterns indicate that, while international collaborations exist, structural fragmentation may constrain the development of shared methodologies and coordinated policy support for CDR. Strengthening bilateral and multilateral partnerships through co-funded initiatives, harmonized monitoring standards, and better alignment between scientific capacity and policy priorities could help bridge gaps.

10/31/2025 - 12:01

Market Mechanisms for Carbon Dioxide Removals: An Overview - New CarMa chair publication by Romain Presty

Carbon Dioxide Removal (CDR) is deemed critical to achieve the climate targets set by the Paris Agreement, underscoring the need for robust and scalable CDR markets. This review explores how CDR has been, and could increasingly be, integrated into existing and emerging carbon markets. Despite growing policy attention, the deployment of CDR, especially permanent forms, remains marginal and challenging to scale within existing carbon pricing and crediting frameworks. Although certification schemes are becoming more tailored to the unique characteristics of different CDR approaches, cost disparities between permanent removal credits and cheaper emissions avoidance credits continue to hinder uptake. In response, several jurisdictions are exploring hybrid policy models that combine market-based mechanisms with public financial support. Additionally, increasing interlinkages between carbon market mechanisms are expected to facilitate more effective and widespread integration of CDR over time. The report provides an overview of the role of CDR across three types of carbon market mechanisms: voluntary, quasi-compliance, and compliance-based systems. It highlights the defining features and interconnections among these markets, and assesses how each framework contributes to the deployment of removals, in particular novel CDR. While voluntary markets serve as innovation hubs for CDR, their limited scalability and voluntary nature highlight the importance of compliance markets and targeted policy support for permanent CDR. Those quasi-compliance and compliance markets, including mechanisms under Article 6 of the Paris Agreement and Emissions Trading Systems (ETS) like UK and EU ETS, are beginning to incorporate CDR more explicitly. This signals a shift toward broader carbon market integration and geographical coverage, requiring robust accounting and certification procedures for both emission reduction and removal projects.

10/15/2025 - 15:05

Mapping Out the Yields of Energy Crops With Data-Driven Global Models, Including Climate and Soil Predictors - New CarMa chair publication by Siwar Saadaoui

Lignocellulosic crops such as Miscanthus, Eucalyptus, Poplar, Willow, and Switchgrass are gaining attention as promising feedstocks for renewable energy and carbon-mitigation strategies, especially on marginal lands. Assessing their global yield potentials requires models that go beyond climate drivers alone. Using a global dataset of 3963 yield observations for five species, we developed a high-resolution (5-arc-minute) modeling framework that augments climate with detailed soil and topographic predictors. Among seven machine learning algorithms, Random Forest, Extra Trees, and Gradient Boosting (GB) emerged as top performers. On an independent test set, the best model achieved a root mean square error (RMSE) of 4.8 t DM ha−1 year−1 (across algorithms: 4.7–5.0 t DM ha−1 year−1) and an R2 of 0.67, a moderate error relative to the broad 4–19 t DM ha−1 year−1 spatial yield range. After outlier handling via a two-phase cross-validation procedure, each model was applied globally under current climate and three future scenarios (SSP1-2.6, SSP2-4.5, and SSP5-8.5). Across scenarios (relative to the 1980–2000 baseline), median absolute yield changes over suitable land are modest (ca. 1–2 t DM ha−1 year−1), yet localized hotspots show gains or losses up to 8 t DM ha−1 year−1. Yields most often increase in presently cool, high-latitude areas and decrease in warmer/drier or edaphically constrained low-latitude regions. We additionally provide a “best-crop” map identifying where each species may offer the most favorable balance between yield and production cost, revealing pronounced geographic variation in suitability. Compared with alternative models based on coarser-resolution datasets, our approach generally yields more conservative estimates, likely reflecting the added constraint from soil and topographic predictors. These results underscore the importance of representing local environmental heterogeneity when predicting energy-crop productivity under climate change.

10/10/2025 - 10:06

Greening aviation with sustainable aviation fuels: Insights from decarbonization scenarios - New CarMa chair publication by Paul Bardon

Recent studies outline markedly different possible decarbonization pathways for civil aviation by 2050. This paper examines how the key assumptions retained in these scenarios (i.e., the posited deployment of sustainable aviation fuels [SAFs], the projected demand trajectory, and the availability of electric and hydrogen-fueled solutions) affect the sector's future emissions of greenhouse gas. Data for 67 recent scenarios from industry-related, academic, institutional, and think tanks/NGO sources are used to perform the analysis. The results shed light on the shared properties of these scenarios. First, we find a clear consensus on the negative impact of SAFs on residual GHG emissions by 2050, conditioning to a high level of SAF penetration. Second, these scenarios posit a smaller decarbonizing power of biomass-based SAF than that of e-fuel. Third, we find signs of authorship bias in some scenarios. This last finding, therefore, raises concerns about the direct use of these scenarios in policymaking.

01/16/2025 - 09:47

Decarbonizing aviation with sustainable aviation fuels - New CarMa chair publication by Paul Bardon

Sustainable aviation fuels (SAF) are crucial for decarbonizing aviation, but scaling up production faces major challenges. This review emphasizes the need for strategic investments and policies to ensure SAF’s sustainability and achieve net-zero emissions by 2050.

01/08/2025 - 16:46

How to Ease the Application of Dynamic LCA - New CarMa chair publication by Sibylle Duval-Dachary

The aim of this work is therefore to assess how the application of dynamic LCA can be facilitated based on: the modelling tool Temporalis, the time dimension of the functional unit, and the contribution of the time dimension to the accuracy of results.

11/29/2024 - 16:29

Clarifying Carbon Removal in LCA: A Critical Assessment of CCU-NET Methodologies- New CarMa chair publication by Sibylle Duval-Dachary

How should negative emissions be accounted for in CCU life cycle assessments? This study highlights key challenges and reveals how methodological choices impact results, proposing a refined approach for consistency in CCU and NET assessments.

10/17/2024 - 16:17

The Race to Remove Carbon: A Decade of Breakthroughs - A new CarMa chair publication by Romain Presty

As the climate crisis intensifies, global research on carbon removal is accelerating. This study reveals the explosive growth of CDR technologies, the key players driving innovation, and the emerging trends that will shape the future of climate action.

09/16/2024 - 10:57

Sibylle Duval-Dachary defends her thesis: Significant Contributions to Advancing LCA Methodology for CCU and NET Systems

The research performed by Sibylle introduces methodological and practical advancements to improve the assessment of negative emissions from CCU systems. Key methodological contributions include refined approaches for accounting for atmospheric CO2, defining functional units, and managing multifunctionality.

07/31/2024 - 09:21

New Leadership for the CarMa Chair: Maxime Schenckery and Carlos Andrade Appointed as Co-Holders

Following the retirement of Jean-Pierre Deflandre and the departure of Olivier Massol from IFP School, the CarMa Chair is entering a new chapter with the appointment of Carlos Andrade and Schenckery Thémistocle as its new co-holders. Both bring a wealth of expertise and a strong commitment to advancing research in carbon management and negative emissions technologies. Their leadership will ensure the continuity of the chair’s mission, fostering innovation and collaboration between academia and industry to tackle the challenges of decarbonization. We extend our gratitude to Jean-Pierre and Olivier for their invaluable contributions and wish them all the best in their future endeavors.

07/15/2024 - 16:23

Florian Auclair presents the results of his doctoral research : The Social Challenges of BECCS

The social acceptability of BECCS technology is a very complex phenomenon as national and local contexts shape debates and influence the deployment of this technology. This research highlights key challenges to advance the adoption of this decarbonization solution, including scale, international cooperation, and the need to pair BECCS with other emission reduction strategies. BECCS alone cannot effectively combat climate change.

05/15/2024 - 15:15

CarMa's contribution to designing the future of CDR in France

Last December, on behalf of the CarMa Research Team, Jean-Pierre Deflandre participated to one of the workshops jointly organized by Carbon-Gap and E-Cube to design the first roadmap for CDR deployment in France.

01/08/2024 - 15:22

The "Haut Conseil pour le Climat" interviewed CarMa

CarMa had the honor of being interviewed by the Haut Conseil pour le Climat during the preparation of their recommendation report entitled "Avis sur la stratégie de capture du carbone, d'utilisation et de stockage (CCUS)" published in November 2023 just before COP28.

12/04/2023 - 16:21

New Post-doctoral position at IFP Energies nouvelles on October 2023

Assessing the role of negative emission technologies for the decarbonization of energy intensive industries using TIMES-EU model.

10/01/2023 - 09:39

IEAGHG’s 15th International Interdisciplinary CCS Summer School

In July 2023, Romain Presty had the pleasure of attending the IEAGHG International CCS Summer School hosted by the International CCS Knowledge Centre in Regina, Saskatchewan, Canada.

08/01/2023 - 14:48

Interested in LCA of BECCS systems? See our new article!

Ms. Sibylle Duval-Dachary, with the help of her supervisors, published her first article: “Life cycle assessment of bioenergy with carbon capture and storage systems: Critical review of life cycle inventories”

06/19/2023 - 09:54

Post-Doctoral Program - Solène Chiquier

Dr. Solène Chiquier joined on March 23, 2023 the CarMa Research team for a 18-month post-doctoral research work based at Massassuchets Institute of Technology (MIT) in the Prof. Sergey Paltsev's research group.

05/25/2023 - 16:21

Paul Bardon joins the CarMa Research Team for his internship

Paul Bardon joined the CarMa Chair of IFP School for an internship from May to July 2023. His research focuses on the applications of carbon dioxide removal technologies in the aviation sector, notably through sustainable aviation fuels.

05/16/2023 - 15:49

Dr. Emma Jagu-Schippers awarded for her PhD!

Dr. Emma Jagu-Schippers has been awarded the "Prix Spécial du Jury : Impact Société" by the jury of the Fondation CentraleSupélec thesis prize.

04/27/2023 - 22:02

Dr. Solène Chiquier joins the CarMa Research Team

On March 23, 2023, Solène Chiquier joined the CarMa research team to start her postdoctoral research work at Massachusetts Institute of Technology (MIT).

03/27/2023 - 19:52

Sciences and Technologies for Energy Transition (STET): Special Issue on NETs open for article submission

Call for Papers - Topical Issue on "The role of Negative Emissions Technologies in 2050 decarbonation pathways" Your research interest deals with Negative Emissions Technologies, you are welcome to publish your work in the Sciences and Technologies for Energy Transition (STET) special Issue on NETs.

02/22/2023 - 11:46

Training by & to Research

CarMa Research Team | Post-Doctoral Program | Doctoral Program

06/10/2020 - 17:54