The Novo Nordisk Foundation CO2 Research Center Funding

45 views

Skip to first unread message

Andrew Lockley

unread,

Sep 13, 2022, 2:44:03 PM9/13/22

to CarbonDioxideRemoval@googlegroups.com <CarbonDioxideRemoval@googlegroups.com>

https://corc.au.dk/funding/calls-for-research-proposals-in-specific-areas/call-september-2022

The Novo Nordisk Foundation CO2 Research Center

Funding

Request for Proposals September 2022

Innovative, Interdisciplinary Research on CO₂ Capture and Conversion

The Novo Nordisk Foundation CO2 Research Center announces this broad Request for Proposals in four areas to complement ongoing research at CORC:

Area 1: Conversion of CO2-derived carbon to materials with advanced properties

CO2 carbon can be converted to a valuable material and is, in principle, available at the Gt scale. Pyrolysis of biomass or of biologically produced methane (biogas), for example, has the promise of producing new, climate-inert, carbonaceous materials that can be used in the building and/or infrastructure sector. However, catalyst inactivation and controlling reaction conditions in pyrolysis is variable, and the full potential has not been explored.

Of particular interest in Area 1 is the processing of biomass and CO2-derived methane into new materials. While biochar, when produced from biomass and introduced into soil, has some potential to store carbon, other forms of inert carbonaceous material need to be developed to take advantage of the Gt scale annual CO2 capture by photosynthesis.

New chemical sciences for pyrolysis of CO2-derived methane, such as from biogas or upgraded biogas, to new material are needed. Methane pyrolysis has the advantage of being chemically homogeneous, which can enable formation to homogenous carbonaceous materials, such as carbon fibers or carbon nanoparticles. However, substantial new research on catalysts involved is needed.

In Area 1 of this RFP, new fundamental research on catalytic conversion of CO2-derived carbon to new, inexpensive materials with useful properties is funded. While the research focus remains on fundamental aspects of catalysis and process integration, scalability to the Mt-to-Gt level of the underlying approach needs to be addressed. Interdisciplinary approaches with significant innovation are encouraged.

Area 2: New approaches of CO2 capture from dilute sources and conversion for storage or use at scale

New approaches with new science are needed for developing inexpensive, scalable technologies for capturing CO2 from non-point sources. Innovative inexpensive new chemical conversions and advanced microbial C1 catabolism are highly promising areas. Because captured CO2 is converted to new climate-inert materials for storage or use, CO2 capture needs to be integrated with a conversion process.

In Area 2 of this RFP, proposals on direct capture of CO2 from air or aqueous systems, such as the oceans or large terrestrial surface waters, are particularly encouraged. Proposed research is based on new chemical and life science-based approaches and/or combinations thereof that have the promise to work at scale. Proposals involving small molecule amines or metal-organic framework (MOF) will not be considered.

Area 3: New approaches for developing CO2 capture by inexpensive units that work at household/community-level

A different way to achieve Gt scale CO2 capture and conversion is by multiplicity of small scale, easy to operate units. For example, small, household-level units could capture amounts of CO2 equivalent to the CO2 produced by individuals of a household, in the order of 1 - 4 tons CO2 per person/year. CO2 is captured, converted, and disposed of by inexpensive means, taking advantage of local opportunities in terms of energy, carbon storage opportunity as well as low-cost process materials such as waste. Such captured CO2 could be collected and processed for storage in a de-centralized way.

Area 3 of this RFP seeks low TRL proposals that investigate fundamentals of innovative approaches for CO2 capture and conversion at a small scale. A key aspect of this approach is in the simplicity in the overall approach and practical handling. Proposals involving small molecule amines or metal-organic framework (MOF) will not be considered.

Area 4: Exploratory or proof-of-concept research

Because of the Gt scale of the CO2 problem, breakthroughs based on unconventional, out-of-the-box ideas are needed.

For example, H2 (or electrons in general) plays a key role in reductive transformations of CO2 for storage and use. Yet, there is a substantial deficit in currently available H2 if all available hydrogen would be used just for CO2 capture and reduction alone. Thus, significant innovation is required to develop new sources of electrons/H2 that are available at scale. Such sources are likely, but not exclusively, geochemically-based and need to be beyond electrolytically -or fermentatively-produced (i.e., organic matter-derived) H2. The latter two areas will not be considered.

Area 4 of this RFP solicits research to explore new, unconventional ideas on high-risk projects, such as, but not limited to H2 sources. Proposals in Area 4 are typically for 1 year to explore new ideas and to provide proof of concept data. Collaborative, interdisciplinary teams from chemistry and life sciences are particularly encouraged to apply.

Documents

Below please find the documents for the call for download:

Call for proposals in specific areas September 2022

Guidelines for call for proposals in specific areas September 2022

Apply here

Link available after October 1st, 2022

Application deadline:

Pre-Proposals: October 14, 2022, at 14:00 CET.

Full proposal (invited applicants only): December 2nd, 2022, at 14:00 CET

Applicant notification:

Pre-proposals: October 28th, 2022

Project presentation:

Week 3 (January 16 - 20), 2023

Notification of award:

Week 4 (January 23 - 27), 2023

Start date:

Earliest possible: March 1st, 2023

Latest possible start date: September 1st, 2023

Eligibility:

The Principal Investigators must be full time affiliated with a university or non-profit research institution. The location is not restricted to specific countries. Proposed research by interdisciplinary teams is encouraged; however, if sufficiently justified, single PI proposals will also be considered.

Project Funding and Duration:

Projects in Areas 1-3 should be for up to 3 years and a maximal budget of up to 7.3 million DKK, including bench fee, technical and administrative support. Projects in Area 4 are for up to 1 year and a total budget of 2.5 million DKK, including bench fee, technical and administrative support.

Call fall 2022

Find all the details about the call for proposals in specific areas here

(opens as PDF)

Contact

For further information or questions on this call, please send us an email:

gra...@corc.au.dk

Revised 12.09.2022 - Tina Fruelund

THE NOVO NORDISK FOUNDATION CO2 RESEARCH CENTER

The Novo Nordisk Foundation CO2 Research Center (CORC)

Aarhus University

Gustav Wieds Vej 10C

Building 3135

DK-8000 Aarhus C

E-mail: in...@corc.au.dk

Telephone: +45 93522602

EAN-no.: 5798000433892

ABOUT US

Research at CORC

About CORC

AU DEGREE PROGRAMMES

Bachelor

Master

Engineering

PhD

SHORTCUTS

CORC Twitter

CORC LinkedIn

Web Accessibility Statement

67850 / i35

Reply all

Reply to author

Forward

0 new messages