Q3711968 (Q3711968): Difference between revisions
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(Changed label, description and/or aliases in en: Setting new description) |
(Created claim: summary (P836): Agricultural soils are preferred drivers of action in the regulation of the carbon cycle (C). By increasing the C stock of soils by 0.4 %, it will (i) preserve their fertility and (ii) compensate for CO2 emissions. Organic material recycling processes are important pathways for C stabilisation. Some also allow for energy production, reducing the use of fossil fuels. In this context, we propose 4 approaches: PART 1: CARBOVIT Develop a new strateg...) |
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Agricultural soils are preferred drivers of action in the regulation of the carbon cycle (C). By increasing the C stock of soils by 0.4 %, it will (i) preserve their fertility and (ii) compensate for CO2 emissions. Organic material recycling processes are important pathways for C stabilisation. Some also allow for energy production, reducing the use of fossil fuels. In this context, we propose 4 approaches: PART 1: CARBOVIT Develop a new strategy for the treatment of March of exhausted grapes using thermal processes, for the recovery of biochars as fertilisers. Depending on the nature of the raw materials, they may have agronomic interests. PART 2: Development OF CO-AMENDMENTS WITH biochars Conduct biochar incorporation tests in 3 agricultural residue treatment processes to investigate the impact on the agronomic efficiency of these co-amendments. PART 3: FORVALFERTI Conduct tests to recover the heat produced during composting and improve the health and agronomic quality of compost obtained from animal effluent and other organic waste. PART 4: Dissemination OF RESULTS Valuating results by supporting regulatory and normative developments, drafting articles and presenting to competitiveness clusters and at widely open days. (English) | |||||||||||||||
| Property / summary: Agricultural soils are preferred drivers of action in the regulation of the carbon cycle (C). By increasing the C stock of soils by 0.4 %, it will (i) preserve their fertility and (ii) compensate for CO2 emissions. Organic material recycling processes are important pathways for C stabilisation. Some also allow for energy production, reducing the use of fossil fuels. In this context, we propose 4 approaches: PART 1: CARBOVIT Develop a new strategy for the treatment of March of exhausted grapes using thermal processes, for the recovery of biochars as fertilisers. Depending on the nature of the raw materials, they may have agronomic interests. PART 2: Development OF CO-AMENDMENTS WITH biochars Conduct biochar incorporation tests in 3 agricultural residue treatment processes to investigate the impact on the agronomic efficiency of these co-amendments. PART 3: FORVALFERTI Conduct tests to recover the heat produced during composting and improve the health and agronomic quality of compost obtained from animal effluent and other organic waste. PART 4: Dissemination OF RESULTS Valuating results by supporting regulatory and normative developments, drafting articles and presenting to competitiveness clusters and at widely open days. (English) / rank | |||||||||||||||
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| Property / summary: Agricultural soils are preferred drivers of action in the regulation of the carbon cycle (C). By increasing the C stock of soils by 0.4 %, it will (i) preserve their fertility and (ii) compensate for CO2 emissions. Organic material recycling processes are important pathways for C stabilisation. Some also allow for energy production, reducing the use of fossil fuels. In this context, we propose 4 approaches: PART 1: CARBOVIT Develop a new strategy for the treatment of March of exhausted grapes using thermal processes, for the recovery of biochars as fertilisers. Depending on the nature of the raw materials, they may have agronomic interests. PART 2: Development OF CO-AMENDMENTS WITH biochars Conduct biochar incorporation tests in 3 agricultural residue treatment processes to investigate the impact on the agronomic efficiency of these co-amendments. PART 3: FORVALFERTI Conduct tests to recover the heat produced during composting and improve the health and agronomic quality of compost obtained from animal effluent and other organic waste. PART 4: Dissemination OF RESULTS Valuating results by supporting regulatory and normative developments, drafting articles and presenting to competitiveness clusters and at widely open days. (English) / qualifier | |||||||||||||||
point in time: 22 November 2021
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Revision as of 13:57, 22 November 2021
Project Q3711968 in France
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q3711968 in France |
Statements
176,372.57 Euro
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440,931.43 Euro
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40.0 percent
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1 January 2017
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31 December 2021
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RITTMO Agroenvironnement
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Les sols agricoles sont des moteurs d'action privilégiés dans la régulation du cycle du carbone (C). En augmentant le stock de C des sols de 0,4% on (i) préservera leur fertilité et (ii) compensera les émissions de CO2. Les procédés de recyclage des matières organiques sont des voies importantes de stabilisation du C. Certains permettent aussi une production d'énergies, réduisant l'utilisation d'énergies fossiles. Dans ce contexte, nous proposons 4 approches: PARTIE 1: CARBOVIT Elaborer une nouvelle stratégie de traitement des mars de raisins épuisés à l'aide de procédés thermiques, pour la valorisation en tant que fertilisants des biochars. En effet, selon la nature des matières premières, ceux-ci peuvent présenter des intérêts agronomiques. PARTIE 2: DEVELOPPEMENT DE CO-AMENDEMENTS AVEC BIOCHARS Mener des essais d'incorporation de biochar dans 3 procédés de traitement des résidus agricoles pour étudier l'impact sur l'efficacité agronomique de ces co-amendements. PARTIE 3: FORVALFERTI Mener des essais afin de valoriser la chaleur produite lors du compostage et améliorer la qualité sanitaire et agronomique du compost obtenu à partir d'effluents animaux et autres déchets organiques. PARTIE 4: DIFFUSION DES RESULTATS Valoriser les résultats par l'appui aux évolutions réglementaires et normatives, la rédaction articles et la présentation aux pôles de compétitivité et lors de journées largement ouvertes. (French)
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Agricultural soils are preferred drivers of action in the regulation of the carbon cycle (C). By increasing the C stock of soils by 0.4 %, it will (i) preserve their fertility and (ii) compensate for CO2 emissions. Organic material recycling processes are important pathways for C stabilisation. Some also allow for energy production, reducing the use of fossil fuels. In this context, we propose 4 approaches: PART 1: CARBOVIT Develop a new strategy for the treatment of March of exhausted grapes using thermal processes, for the recovery of biochars as fertilisers. Depending on the nature of the raw materials, they may have agronomic interests. PART 2: Development OF CO-AMENDMENTS WITH biochars Conduct biochar incorporation tests in 3 agricultural residue treatment processes to investigate the impact on the agronomic efficiency of these co-amendments. PART 3: FORVALFERTI Conduct tests to recover the heat produced during composting and improve the health and agronomic quality of compost obtained from animal effluent and other organic waste. PART 4: Dissemination OF RESULTS Valuating results by supporting regulatory and normative developments, drafting articles and presenting to competitiveness clusters and at widely open days. (English)
22 November 2021
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Identifiers
AL0014128
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