Fire/Fast Incident Response Equipment for the DescRiptionOf Noxious particle Emissions

Programme 2014 - 2020 INTERREG V-A France - United Kingdom (Manche - Channel)

Date of latest update: 2023-11-17

Description

Description (FR):

Le projet FIREDRONE permettra d’améliorer la sécurité, la rapidité et la précision de la réponse des pompiers aux incendies industriels et aux feux de forêt grâce à un système embarqué sur drone pour l’analyse en directe de la fumée, ainsi que des nouvelles procédures opérationnelles. L’appareil analysera les particules dans la fumée des incendies 90 % plus rapidement et 80 % moins cher que les solutions équivalentes actuelles, tout en fournissant des données plus précises. Les décideurs pendant la gestion des catastrophes ont besoin d’un moyen rapide, précis et sûr pour mesurer et caractériser les particules solides dans la fumée, également connues sous le nom de suie ou de black carbon - BC, qui sont dangereuses pour la santé des pompiers et de la population. Sans ces informations, il est impossible d’évaluer ni l’impact économique des mesures restrictives (telles que l’évacuation), ni le risque pour la santé de la population de la zone touchée ou pour les pompiers. Actuellement il n’existe aucun outil de mesure qui soit suffisamment réactif, sûr et peu coûteux pour être utilisé de façon régulière lors des opérations de lutte contre les incendies. Le projet FIREDRONE permettra de résoudre ce problème grâce à une combinaison de systèmes de mesure optique miniaturisés et installés sur un drone développé sur mesure. Les concepteurs du système travailleront en étroite collaboration avec les utilisateurs finaux (les pompiers et les centres de formation) et les experts en conception d’opérations de drones et en formation au vol à distance des services d’urgence. FIREDRONE y parviendra en développant et en combinant des technologies de TRL faible à moyen (jusqu’à TRL4) et en testant un appareil à TRL7, donc prêt pour une commercialisation potentielle par la suite. Grâce à l’implication des pompiers et des opérateurs de drones, ce projet accélérera l’adoption des drones et des technologies de télédétection dans le secteur de la gestion des incendies dans la zone Interreg FMA et plus largement en France et au Royaume-Uni. Le besoin et la demande d’un tel dispositif sont imminents. 289 sites classés Seveso existent dans la partie française de la région Channel-Manche et 150 dans la partie britannique (appelés COMAH - Control of Major Accident Hazard), représentant respectivement 22 % et 17 % des sites industriels classés SEVESO en France et au Royaume-Uni, comme l’usine Lubrizol qui a brûlé en septembre 2019 à Rouen. Chaque année, environ 370 incendies industriels se produisent dans la zone Interreg FMA, entraînant des coûts de près de 10 millions d’euros pour la santé publique et augmentant la mortalité des pompiers d’environ 20 %. Les parties prenantes sont diverses : pompiers, autorités locales, agences environnementales, industries visant à réduire leur pollution atmosphérique, bureaux d’ingénierie d’audit ainsi que des groupes de recherche.

Description (EN):

The FIREDRONE project will increase the safety, speed and accuracy of firefighters’ response to industrial fires and wildfires by developing a compact airborne robotic system for live monitoring dangerous emissions in smoke, designing its operational procedures and providing demonstrations to fire emergency services. It will analyse particles in fire smoke 90% faster and 80% cheaper than current equivalent solutions while providing more accurate data. Decision makers in disaster management situations require a rapid, precise and safe way to measure and characterise the solid particles in the smoke, also known as soot or black carbon – BC, that are dangerous for the health of firefighters and the general population. Without this information, they are incapable of balancing the economic impact of restrictive measures (such as evacuation) against the health risk to the population of the affected area, or to accurately assess the risk to firefighters. Currently there is no tool available to perform these measures that is sufficiently reactive, safe and inexpensive to be routinely used during fire response operations. The FIREDRONE project will solve this problem through a combination of miniaturized optical measurement systems installed on a bespoke unmanned aircraft (drone). The system designers will work in close cooperation with end-users (the fire brigades and training centres) and experts in drone operations design and remote flight training of emergency services. FIREDRONE will attain this by developing further and combining low to middle TRL technologies (up to TRL4) and by developing and testing a device up to TRL7, thus ready for a potential commercialization afterwards. Thanks to the early involvement of emergency services and expert drone operators, this project will accelerate the uptake of aerial robotics and remote sensing technologies in the fire management sector across the Interreg Channel area and more widely across France and the UK. The need and demand for such a device is imminent. 289 Seveso rated sites exist in the French part of the Channel-Manche region and 150 in the UK part (named COMAH – Control of Major Accident Hazard), making up respectively 22% and 17% of the SEVESO rated industrial sites in France and the UK, such as the Lubrizol plant that burnt in Sep. 2019 in Rouen. Every year ca 370 industrial fires happen in the Channel area, leading to costs of almost 10M€ for public health and increasing firefighter mortality by ca. 20%. Interested stakeholders are various: Fire services, local authorities, environmental agencies, industries aiming to reduce their air pollution, audit engineering offices as well as research groups.

Achievements (FR):

A cherché à développer un système robotique aéroporté pour la surveillance en direct des incendies industriels et des incendies de forêt, améliorant la sécurité, la rapidité et la précision de la réponse des pompiers. Le logiciel analysera les particules dans la fumée d’incendie 90 % plus rapidement et 80 % moins cher que les solutions équivalentes actuelles.

Achievements (EN): Sought to develop an airborne robotic system for live monitoring industrial fires and wildfires, improving the safety, speed and accuracy of firefighters’ response. The software will analyse particles in fire smoke 90% faster and 80% cheaper than current equivalent solutions.

Website: https://www.channelmanche.com/

Expected Results (FR): Niveau de création et d’adoption de produits, systèmes et services innovants dans les secteurs de spécialisation intelligente partagés.

Expected Results (EN): Level of delivery and take up of innovative products, systems and services in shared smart specialisation sectors

Expected Outputs (FR):

L’appareil analysera les suies dans les fumées 90 % plus vite et 80 % moins cher que les solutions actuelles tout en fournissant des données plus précises et permettra de réduire: - l'exposition de la population aux émissions de 50 à 100 % en aidant à prendre des décisions de confinement de la population et de protection des pompiers. - la mortalité (population : -15 %, pompiers : -25 %). - les coûts de santé dans la zone Manche jusqu'à 10M€/an. - des perturbations inutiles des économies local.

Expected Outputs (EN):

The FIREDRONE device will analyse particles in fire smoke 90% faster and 80% cheaper than current equivalent solutions while providing more accurate data. This will reduce: - the population exposure to harmful emissions by 50 to 100 % by helping decision makers to decide for confinement/evacuation and firefighter protection. - the observed mortality (population: -15 %, fire fighters: -25 %). - the health costs in the Channel area up to 10M€/year. - unnecessary disruptions to local economies.

Thematic information

Managing natural and man-made threats, risk management Evaluation systems and results

Specific Objective: To increase the delivery and uptake of innovative products, processes, systems and services in shared smart specialisation sectors

Thematic Objective: (01) strengthening research, technological development and innovation by:

Investment Priority:

(01b) promoting business investment in R&I, developing links and synergies between enterprises, research and development centres and the higher education sector, in particular promoting investment in product and service development, technology transfer, social innovation, eco-innovation, public service applications, demand stimulation, networking, clusters and open innovation through smart specialisation, and supporting technological and applied research, pilot lines, early product validation actions, advanced manufacturing capabilities and first production, in particular in key enabling technologies and diffusion of general purpose technologies

Partners (5)

Lead Partner: Institut National des Science Appliquées (INSA) de Rouen

Department: UMR 6614 - CORIA - Complex of Interprofessional Research in Aerothermochemistry

Address: Avenue de l'Université - BP08 685, 76801 Saint Etienne du Rouvray CEDEX, France

Legal status: public

Website: http://www.insa-rouen.fr

Total budget: EUR 646 941.34

ERDF budget: EUR 446 389.52

Consortiq Ltd

Name: Consortiq Ltd

Department: -

Address: 1208 Newall Rd, TW6 2TA Longford, United Kingdom

Legal status: private

Website: http://www.consortiq.com

Total budget: EUR 252 221.00

ERDF budget: EUR 174 032.49

University of Southampton

Name: University of Southampton

Department: SotonUAV

Address: University Road, SO17 1BJ Southampton, United Kingdom

Legal status: public

Website: https://www.sotonuav.uk/

Total budget: EUR 644 936.44

ERDF budget: EUR 445 006.14

AtmoNormandie

Name: AtmoNormandie

Department: AtmoNormandie

Address: Place de la Pomme d’Or 3, 76000 Rouen, France

Legal status: public

Website: http://www.atmonormandie.fr

Total budget: EUR 60 921.95

ERDF budget: EUR 42 036.15

Université Rouen Normandie

Name: Université Rouen Normandie

Department: CORIA Laboratory

Address: Rue Thomas Becket 1, 76130 Mont-Saint-Aignan, France

Legal status: public

Website: https://www.univ-rouen.fr/

Total budget: EUR 336 240.18

ERDF budget: EUR 232 005.72

Partners map

Partners and Projects info

Consortiq Ltd

Fire/Fast Incident Response Equipment for the DescRiptionOf Noxious particle Emissions

Partners and Projects info

Institut National des Science Appliquées (INSA) de Rouen

Fire/Fast Incident Response Equipment for the DescRiptionOf Noxious particle Emissions

Partners and Projects info

University of Southampton

Fire/Fast Incident Response Equipment for the DescRiptionOf Noxious particle Emissions

Partners and Projects info

AtmoNormandie

Fire/Fast Incident Response Equipment for the DescRiptionOf Noxious particle Emissions

Partners and Projects info

Université Rouen Normandie

Fire/Fast Incident Response Equipment for the DescRiptionOf Noxious particle Emissions

Lead partner

Project partner

Summary

Project name (EN): Fire/Fast Incident Response Equipment for the DescRiptionOf Noxious particle Emissions

Project acronym: FIREDRONE

Project start date: 2020-09-29

Project end date: 2023-06-30

Project status: closed

Total budget/expenditure: EUR 1 941 260.91

Total EU funding (amount): EUR 1 339 470.03

Total EU funding (co-financing rate): 69.00%

Co-financing sources:

ERDF: Amount, EUR 1 339 470.03.

Information regarding the data in keep.eu on the programme financing this project

Financing programme

2014 - 2020 INTERREG V-A France - United Kingdom (Manche - Channel)

Last month that data in keep.eu was retrieved from the Programme's website or received from the Programme

2023-11-07

No. of projects in keep.eu / Total no. of projects (% of projects in keep.eu)

50 / 50 (100%)

No. of project partnerships in keep.eu / Total no. of project partnerships (% of project partnerships in keep.eu)

410 / 413 (99.27%)

Notes on the data

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Fire/Fast Incident Response Equipment for the DescRiptionOf Noxious particle Emissions

Description

Thematic information

Partners (5)

Partners map

Summary

Information regarding the data in keep.eu on the programme financing this project

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