#Industry News
President Macron inaugurates the 24 Cairnet sensor network to measure Sargassum algae emanations
The new installed network of 24 Cairnet stations to measure the Sargassum algae gas emanations provided by ENVEA Cairpol and installed by Gwad'air end of August has been inaugurated by the French President during his trip to the Antilles
Following the update of health recommendations and the management measures of the High Council of Public Health (HCSP, France), the Regional Health Agency and GWAD’AIR (Approved Association for the Monitoring of Air Quality) have deployed a network of air quality sensors to measure hydrogen sulfide (H2S) and ammonia (NH3) issued from the decomposition of Sargassum algae.
Sargassum beaching events are new to many residents in the southern Caribbean, Brazil and West Africa, but are well known in the northern Caribbean islands, the Sargasso Sea and the Gulf of Mexico (especially Texas and Yucatan Peninsula with its well-known Cancun beaches). Sargassum emits hydrogen sulfide gas as it decomposes onshore, releasing toxic and highly flammable gas smelling like rotting eggs. Inhaling it in small doses can affect breathing, cause headaches and pose serious threats to health. It also corrodes electronics and other equipment.
These algae invading the Caribbean coast since their massive appearance in 2011 had pushed the former French minister of the ecological transition Nicolas Hulot to go on site in June, together with the Minister of Overseas Annick Girardin and announce a 10 euro million over two years plan with the aim of reducing, for the next seasons, the collection period of algae to 48 hours.
During his trip to the French overseas territory Guadeloupe on Friday, President Emmanuel Macron reassured residents that he was committed to address the problem “the best way to protect everyone is to pick up the sargassum algae as quickly as possible, within 48 hours after it washes ashore or even before it runs ashore, to prevent any damage or sanitary problems.”
As a consequence of the plan, the existing air quality monitoring network has been expanded in August with the addition of 24 new Cairnet stations deployed across 24 sites on the Atlantic coast. Each station is containing Cairsens sensors for the measurement of H2S and NH3 and is equipped with solar panels and batteries in order to be completely self-sufficient and highly mobile. Their complete GPRS communication system automatically transmit data to the CairCloud, the Envea’s Cloud data processing application. The recorded real-time concentrations is daily reported to the public through the DEAL (Directorate of the Environment, Planning and Housing) and the Gwad’air websites.
The monitoring of emissions from the decomposition of Sargassum algae with Cairpol sensors it is not an unknown fact. Measurements of H2S and NH3 concentrations carried out at the national level by the French Air Quality Monitoring Organization AASQA near natural sources such as the degradation of green algae (Brittany littoral) or Sargassum algae (Martinique, Guyana) are in place for several years and have been the subject of several AASQA and LCSQA publications and reports, such as:
https://www.lcsqa.org/system/files/rapport_lcsqa_2014_nh3-odeurs_vf.pdf
https://www.lcsqa.org/system/files/rapport/lcsqa2016-note_technique_melange_gazeux_h2s.pdf
In 2015 already, the ARS Martinique (Regional Health Agency) was commissioned by the Prefect of Martinique to set up, with the technical support of Madininair, a sensor based monitoring network of hydrogen sulphide and ammonia concentrations in urbanized areas impacted by sargassum beaching.
Operational since September 2015, the Cairnet measurement network enables real-time and continuous monitoring of H2S and NH3 concentrations and is managed daily by Madininair. Based on ENVEA-Cairpol Cairclip type sensors, the Cairnet stations are installed on sites defined by the ARS, in the immediate vicinity of dwellings and at 1.5 meters from the ground so that the measure is representative of the exposure of the populations living on the coast. The selected sites are areas of dense habitat strongly impacted by strandings of Sargasso, sensitive sites (eg nursery or school near coastal areas regularly exposed) and areas where the collection of algae is difficult to handle. The sensors can, at the request of the ARS, be moved to other sites also impacted by massive strandings.
The 3 main objectives of this sensor network are:
- Estimate the exposure of the population near the stranding areas
- Enable decision makers to identify priority collection areas
- Alert the authorities when concentrations approach 1ppm to better anticipate the phenomenon
The measurement results on Sargassum algae is published daily on the Madininair website here: "Daily update on H2S and NH3 monitoring measures" http://www.gwadair.fr/publications/actualites-gwad-air/252-echouage-de-sargasses-cartographie-des-emanations-en-h2s-et-nh3-sur-24h
More information: https://www.martinique.ars.sante.fr/system/files/2017-10/Sargasses%20Questions%20Def.pdf
We take this opportunity to thank the two Air Quality Monitoring Organizations, Madininair and Gwad'air, for their renewed confidence and the remarkable work they have done.
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Some of the international publications and comparisons realized on Cairpol sensors:
JRC Report of laboratory and in-situ validation of micro-sensor for monitoring ambient air pollution:
http://publications.jrc.ec.europa.eu/repository/bitstream/JRC86479/20140121%20validation%20report%20o3%20sensors_carclip_oz_mg_v3_corrected.pdf
https://ec.europa.eu/jrc/en/printpdf/156199
EPA sensor evaluation report
EPA Citizen Science Air Monitor (CSAM): Operating Procedures
EPA Citizen Science Air Monitor (CSAM): Quality Assurance Guidelines
Spinell et al. (2015), Performance evaluation of amperometric sensors for the monitoring of O3 and NO2 in ambient air at ppb level, EUROSENSORS 2015. http://www.snuffle.org/lib/exe/fetch.php?media=eurosensors2015_o3_no2.pdf
http://www.mdpi.com/1424-8220/16/10/1698/pdf
https://cfpub.epa.gov/si/si_public_record_report.cfm?dirEntryId=308111
http://www.marama.org/images/stories/documents/16%20-%20Gayle%20Hagler,%20Lower%20Cost%20Air%20Measurement%20Technology.pdf
https://cfpub.epa.gov/si/si_public_file_download.cfm?p_download_id=518909
https://www.researchgate.net/publication/309622442_Community_Air_Sensor_Network_CAIRSENSE_project_Evaluation_of_low-cost_sensor_performance_in_a_suburban_environment_in_the_southeastern_United_States/fulltext/581c50ba08aea429b291a9e0/309622442_Community_Air_Sensor_Network_CAIRSENSE_project_Evaluation_of_low-cost_sensor_performance_in_a_suburban_environment_in_the_southeastern_United_States.pdf?origin=publication_detail
…
Sources :
http://www.madininair.fr/
http://www.gwadair.fr/
https://www.lcsqa.org
http://www.martinique.pref.gouv.fr/layout/set/print/Politiques-publiques/Environnement-sante-publique/Sargasses/Algues-sargasses-les-reponses-a-vos-questions/La-gestion-du-phenomene
