Q3680984 (Q3680984): Difference between revisions
Jump to navigation
Jump to search
(Changed an Item: Edited by the infer coords bot - inferring coordiantes from postal codes) |
(Created claim: summary (P836): Amed (Multidisciplinary Analysis of Domino Effects) is a regionally structured project that develops a prospective multidisciplinary approach in coherence with energy issues and future industrial developments in Normandy. The coupling of renewable electric energy (ENR) from wind turbines (off and on shore) with nuclear production and the various fossil sources (coal, gas, oil) is a complex set with very different dynamics and constraints, plus d...) |
||||||||||||||
Property / summary | |||||||||||||||
Amed (Multidisciplinary Analysis of Domino Effects) is a regionally structured project that develops a prospective multidisciplinary approach in coherence with energy issues and future industrial developments in Normandy. The coupling of renewable electric energy (ENR) from wind turbines (off and on shore) with nuclear production and the various fossil sources (coal, gas, oil) is a complex set with very different dynamics and constraints, plus differences in sources of production by cogeneration and other energy recovery. It appears that power cuts due to different reasons (natural causes, accidents, loss of control...) can have cascading consequences for the different industrial parks as well as on the transmission of electricity.The overall analysis of the functioning of such a system in degraded mode, in non-operability or even in resilience phases is crucial. It is necessary to measure the impact of these events, in particular on industrial parks, and to study different scenarios leading to the non-governability or loss of control of sensitive systems.With the help of a domino effect specialist Professor Valerio Cozzani (DICAM Bologna [Italy] globally recognised, more than 185 items of rank A, Hirsch index greater than 29), the AMED project was initiated. It concerns the study of domino effects in the context of mixed electricity supply (fossile and renewable). This theme emerged as a topic of interest especially by considering the vulnerability of regional industrial parks after the multiple incidents of July 2015, depriving more than 150,000 households of electricity and requiring the containment of 1000 Renault employees.To develop tools and methods, target processes have been chosen in relation to future industrial developments in Normandy.The first target concerns processes using biomass as raw materials. Indeed, the decline in fossil resources, environmental problems, global warming and the desire for independence from fossil or nuclear energy exporting countries are the various factors that promote the development of these processes.The second (linked to the first) is the chemical storage of electrical overproduction which in a context of decarbonisation of human activities is a promising path. (English) | |||||||||||||||
Property / summary: Amed (Multidisciplinary Analysis of Domino Effects) is a regionally structured project that develops a prospective multidisciplinary approach in coherence with energy issues and future industrial developments in Normandy. The coupling of renewable electric energy (ENR) from wind turbines (off and on shore) with nuclear production and the various fossil sources (coal, gas, oil) is a complex set with very different dynamics and constraints, plus differences in sources of production by cogeneration and other energy recovery. It appears that power cuts due to different reasons (natural causes, accidents, loss of control...) can have cascading consequences for the different industrial parks as well as on the transmission of electricity.The overall analysis of the functioning of such a system in degraded mode, in non-operability or even in resilience phases is crucial. It is necessary to measure the impact of these events, in particular on industrial parks, and to study different scenarios leading to the non-governability or loss of control of sensitive systems.With the help of a domino effect specialist Professor Valerio Cozzani (DICAM Bologna [Italy] globally recognised, more than 185 items of rank A, Hirsch index greater than 29), the AMED project was initiated. It concerns the study of domino effects in the context of mixed electricity supply (fossile and renewable). This theme emerged as a topic of interest especially by considering the vulnerability of regional industrial parks after the multiple incidents of July 2015, depriving more than 150,000 households of electricity and requiring the containment of 1000 Renault employees.To develop tools and methods, target processes have been chosen in relation to future industrial developments in Normandy.The first target concerns processes using biomass as raw materials. Indeed, the decline in fossil resources, environmental problems, global warming and the desire for independence from fossil or nuclear energy exporting countries are the various factors that promote the development of these processes.The second (linked to the first) is the chemical storage of electrical overproduction which in a context of decarbonisation of human activities is a promising path. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
Property / summary: Amed (Multidisciplinary Analysis of Domino Effects) is a regionally structured project that develops a prospective multidisciplinary approach in coherence with energy issues and future industrial developments in Normandy. The coupling of renewable electric energy (ENR) from wind turbines (off and on shore) with nuclear production and the various fossil sources (coal, gas, oil) is a complex set with very different dynamics and constraints, plus differences in sources of production by cogeneration and other energy recovery. It appears that power cuts due to different reasons (natural causes, accidents, loss of control...) can have cascading consequences for the different industrial parks as well as on the transmission of electricity.The overall analysis of the functioning of such a system in degraded mode, in non-operability or even in resilience phases is crucial. It is necessary to measure the impact of these events, in particular on industrial parks, and to study different scenarios leading to the non-governability or loss of control of sensitive systems.With the help of a domino effect specialist Professor Valerio Cozzani (DICAM Bologna [Italy] globally recognised, more than 185 items of rank A, Hirsch index greater than 29), the AMED project was initiated. It concerns the study of domino effects in the context of mixed electricity supply (fossile and renewable). This theme emerged as a topic of interest especially by considering the vulnerability of regional industrial parks after the multiple incidents of July 2015, depriving more than 150,000 households of electricity and requiring the containment of 1000 Renault employees.To develop tools and methods, target processes have been chosen in relation to future industrial developments in Normandy.The first target concerns processes using biomass as raw materials. Indeed, the decline in fossil resources, environmental problems, global warming and the desire for independence from fossil or nuclear energy exporting countries are the various factors that promote the development of these processes.The second (linked to the first) is the chemical storage of electrical overproduction which in a context of decarbonisation of human activities is a promising path. (English) / qualifier | |||||||||||||||
point in time: 18 November 2021
|
Revision as of 18:18, 18 November 2021
Project Q3680984 in France
Language | Label | Description | Also known as |
---|---|---|---|
English | No label defined |
Project Q3680984 in France |
Statements
511,430.46 Euro
0 references
1,065,473.48 Euro
0 references
48.0 percent
0 references
30 April 2021
0 references
INSTITUT NATIO SCIENCES APPLIQUEES ROUEN
0 references
76800
0 references
AMED (Analyse Multidisciplinaire des Effets Domino) est un projet structurant sur le plan régional qui développe une démarche multidisciplinaire prospective en cohérence avec les enjeux énergétiques et les futurs développements industriels en Normandie. Le couplage d’énergie électrique renouvelable (ENR) issue des éoliennes (off et on shore) avec la production nucléaire et les différentes sources fossiles (charbon, gaz, pétrole) constitue un ensemble complexe avec des dynamiques et des contraintes très différentes auxquelles viennent s’ajouter les différences sources de production par cogénération et autres récupérations énergétiques. Il apparaît que des coupures d’électricité dues à différentes raisons (causes naturelles, accidents, perte de contrôle…) peuvent avoir des conséquences en cascade sur les différents parcs industriels ainsi que sur le transport d’électricité.L’analyse globale du fonctionnement d’un tel système en mode dégradé, en non opérabilité, voire dans des phases de résilience, est cruciale. Il faut mesurer l’incidence de ces événements, en particulier sur les parcs industriels et étudier différents scénarii provoquant la non gouvernabilité ou la perte de contrôle de systèmes sensibles.Avec l’aide d’un spécialiste des effets domino le Professeur Valerio Cozzani (DICAM de Bologne [Italie] expert mondialement reconnu, plus de 185 articles de rang A, indice Hirsch supérieur à 29), le projet AMED a été initié. Il concerne l’étude des effets domino dans le contexte de la fourniture mixte d’électricité (fossile et renouvelable). Ce thème est apparu comme un sujet d’intérêt surtout en considérant la vulnérabilité des parcs industriels régionaux après les multiples incidents de juillet 2015, privant plus de 150 000 foyers d’électricité et obligeant au confinement 1000 salariés de Renault.Pour mettre au point les outils et méthodes, des procédés cibles ont été choisis en relation avec les futurs développements industriels de la Normandie.La première cible concerne les procédés utilisant la biomasse comme matières premières. En effet, la diminution des ressources fossiles, les problèmes environnementaux, le réchauffement climatique et le désir d’indépendance vis-à-vis des pays exportateurs d’énergies fossiles ou nucléaires sont les différents facteurs qui favorisent le développement de ces procédés.La seconde (liée à la première) est le stockage chimique de la surproduction électrique qui dans un contexte de décarbonatation des activités humaines est une voie prometteuse. (French)
0 references
Amed (Multidisciplinary Analysis of Domino Effects) is a regionally structured project that develops a prospective multidisciplinary approach in coherence with energy issues and future industrial developments in Normandy. The coupling of renewable electric energy (ENR) from wind turbines (off and on shore) with nuclear production and the various fossil sources (coal, gas, oil) is a complex set with very different dynamics and constraints, plus differences in sources of production by cogeneration and other energy recovery. It appears that power cuts due to different reasons (natural causes, accidents, loss of control...) can have cascading consequences for the different industrial parks as well as on the transmission of electricity.The overall analysis of the functioning of such a system in degraded mode, in non-operability or even in resilience phases is crucial. It is necessary to measure the impact of these events, in particular on industrial parks, and to study different scenarios leading to the non-governability or loss of control of sensitive systems.With the help of a domino effect specialist Professor Valerio Cozzani (DICAM Bologna [Italy] globally recognised, more than 185 items of rank A, Hirsch index greater than 29), the AMED project was initiated. It concerns the study of domino effects in the context of mixed electricity supply (fossile and renewable). This theme emerged as a topic of interest especially by considering the vulnerability of regional industrial parks after the multiple incidents of July 2015, depriving more than 150,000 households of electricity and requiring the containment of 1000 Renault employees.To develop tools and methods, target processes have been chosen in relation to future industrial developments in Normandy.The first target concerns processes using biomass as raw materials. Indeed, the decline in fossil resources, environmental problems, global warming and the desire for independence from fossil or nuclear energy exporting countries are the various factors that promote the development of these processes.The second (linked to the first) is the chemical storage of electrical overproduction which in a context of decarbonisation of human activities is a promising path. (English)
18 November 2021
0 references
Identifiers
17P04987
0 references