TY - CHAP A1 - Stähler, Lisa A1 - Weyers, Simone A1 - Hoffmann, Barbara A1 - Soppa, Vanessa A1 - Oberwinster, Lukas A1 - Weber, Konradin A1 - Pohl, Tobias A1 - Kuß, Oliver A1 - Lang, Alexander A1 - Pischke, Claudia T1 - UNITY: Multistrategische Intervention zur Förderung von Radmobilität, Gesundheit und Nachhaltigkeit im Rahmen der Stadtentwicklung Düsseldorf [Vortragsabstract] T2 - 60. Jahrestagung der Deutschen Gesellschaft für Sozialmedizin und Prävention (DGSMP) Teilhabe und Ko-Kreation, 17. - 19. September 2025, Berlin KW - Luftreinhaltung KW - Stadtplanung KW - Stadtentwicklung KW - Sozialraum KW - Düsseldorf KW - Radfahrerverkehr KW - Radweg KW - Nachhaltigkeit KW - Soziale Ungleichheit KW - Gesundheitsförderung KW - Luftverschmutzung KW - Abgasemission Y1 - 2025 UR - https://access.online-registry.net/dgsmp2025/temp/export/exp_1752729278305_8146.pdf ER - TY - CHAP A1 - González Rial, Gabriel A1 - Dinardo, Daniel A1 - Padilla, Germán D. A1 - Barrancos, José A1 - Hernández, Pedro A. A1 - Pérez, Nemesio M. A1 - Weber, Konradin A1 - Fischer, Christian A1 - Amend, Detlef T1 - Remake of the low cost carbon dioxide sensor of the carbon dioxide network deployed by INVOLCAN in the urban areas of Puerto Naos and La Bombilla, La Palma, Canary Islands T2 - European Geosciences Union General Assembly 2024, Vienna, Austria, 14–19 Apr 2024 N2 - An anomalous CO2 degassing appeared by the end of Tajogaite eruption (North-West flank of Cumbre Vieja volcano ridge, La Palma, Canary Islands), in the neighborhoods of La Bombilla and Puerto Naos at about 6 km distance from the volcanic vent. The areas affected by the anomalous CO2 degassing were not directly affected by lava flows during the eruptive period. After the eruption, and due to this strong volcanic-hydrothermal carbon dioxide emissions (CO2 5-20%) were included in the exclusion zone. CO2 is an invisible toxic gas, as well as asphyxiating, and may be lethal when is present in concentrations higher than 14%. During the post-eruptive period, INVOLCAN deployed its own indoor and outdoor CO2 monitoring networks in collaboration with other institutions, with the aim of delimitating the anomalous CO2 degassing areas, paying attention to those areas where CO2 air concentration exceeds hazardous thresholds. The number of monitoring stations were increasing to cover most of the homes, garages, basements, and local businesses. The first monitoring network were based on a LILYGO; TTGO T-SIM7000G electroniccard, previously programmed with an unstable algorithm that caused problems during the measurements. After some implementations to enhance the stability of the sensor, a new algorithm was developed that consists of the acquisition of ambient values every 5 seconds, applying a Moving Average Filter in every measurement to avoid outliers. The SIM card integrated in the hardware allows the data transmission to an MQTT broker where the values are published every 5 minutes, recollecting them in a unique Raspberry Pi 4 Model B located at the INVOLCAN headquarters, that reads and stores the data in two databases (InfluxDB and Google Sheets). The visualization of the values are done through Grafana Cloud, recollecting the data from InfluxDB and showing them distributed as tables and a geographic map that illustrates the concentration in the measurement points. The difference between this and the last storing is the flexibility when visualizing the data, that can be transformed to different kind of plots as mentioned. Moreover, an API for the management of each subsystem is created using PyQT, allowing to the user the calibration of the sensors in remote, as well as executing a soft reboot, or the integration of deeper parameters like the sensor mode (manual polling, streaming or command mode) or pressure data. Two of the 20 devices have been successfully installed and they are working correctly in La Palma, meanwhile an amount of 18 devices are being tested and recollecting properly with better stability in CO2 concentration measurements at our laboratory and will be installed indoor in different locations soon. The remaking of the algorithm allows to forget previous problems of wrong data and disconnections, obtaining accurate data compared to commercial sensors and helping the operator to configure and control the sensors without moving to conflicting locations. KW - Vortrag KW - Vulkanismus KW - Kohlendioxid KW - Messtechnik KW - European Geosciences Union Y1 - 2024 U6 - https://doi.org/10.5194/egusphere-egu24-19641 N1 - Abstract IS - EGU24-19641 PB - Copernicus ER - TY - JOUR A1 - Weber, Konradin A1 - Fischer, Christian A1 - Pohl, Tobias A1 - Böhlke, Christoph A1 - Lange, Martin A1 - Scharifi, Emad A1 - Eliasson, Jonas A1 - Yoshitani, Junichi T1 - The Application of Light Research Aircraft for the Investigation of Volcano Eruption Plumes, Industrial Emissions and Urban Plumes JF - WSEAS Transactions on Environment and Development N2 - Airborne measurements have proved to be an important tool for the investigation of volcanic emission plumes, industrial pollution plumes, fugitive emissions and urban pollution plumes. In this paper several examples are demonstrated, how these investigations can be performed by light and microlight propeller aircraft. Throughout the last years innovative aircraft were developed in the light and microlight class showing an excellent flight performance. This enables airborne measurements, which were performed in former years normally by big jet engine driven research aircraft. Moreover, these light and microlight aircraft are equipped with piston motors, which are sturdy enough to operate even in adverse and harsh flight conditions, e.g. in volcanic plumes with high ash concentration. Additionally, turbo charged versions of these airborne piston motors are available, which allow flight altitudes of 7000m – 9000m enabling a large variety of research missions. Another advantage of light and microlight research aircraft is that they are quite cost effective and have a comparatively short certification process for the installation of new measurement equipment. This made it possible to respond fast to the eruption of the Icelandic volcano Eyjafjallajökull 2010 and Grimsvötn 2011 with research flights in volcanic ash plumes over Germany and Iceland. In this way it was possible to deliver real airborne measurements additional to the ash plume model calculations of the London Volcanic Ash Advisory Center (VAAC). In this paper examples of airborne measurements in the volcanic plumes of the recent eruptions of Icelandic volcanoes are given. Moreover examples are presented, which highlight the outstanding capabilities of these aircraft for pinpointing industrial emissions and for characterizing urban pollution plumes. KW - Luftreinhaltung KW - Vulkanismus KW - Vulkanasche KW - Forschungsflugzeug KW - Leichtflugzeug KW - Messtechnik Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:hbz:due62-opus-50892 SN - 2224-3496 N1 - Open Access Statement: "This is an open access journal which means that all content is freely available without charge to the user or his/her institution. Users are allowed to read, download, copy, distribute, print, search, deposit to institutional repositories or link to the full texts of the articles, or use them for any other lawful purpose, without asking prior permission from the publisher or the author. This is in accordance with the BOAI definition of open access." https://wseas.com/open-access-statement.php VL - 11 SP - 89 EP - 94 PB - WSEAS ER - TY - JOUR A1 - Pohl, Tobias A1 - Fischer, Christian A1 - Heweling, Georg A1 - Böhlke, Christoph A1 - Weber, Konradin T1 - A Comparative Study as a Quality Assurance of Stationary and Portable Hand-Held Ultrafine Particle Monitors JF - WSEAS Transactions on Environment and Development N2 - In this study we investigated the performance of two portable hand-held measurement devices (Testo DiSCMini, Grimm NanoCheck) under real environmental conditions at an area on the new campus of the University of Applied Sciences Duesseldorf, which was influenced by construction activities and traffic. The values were compared to the data from a freshly calibrated SMPS (Grimm SMPS+C) as a reference system. The SMPS measured the particle number concentration as well as the particle number size distribution in a range from 5 nm to 350 nm. This was done as a quality assurance for the use of these portable devices for other measurement campaigns for detecting the particle number concentration in mobile applications by e.g. unmanned aerial systems, bicycles, or small aircraft. The results show a good correlation between all the systems. The agreement between the reference system and the NanoCheck was really good, but lower between the DiSCMini and the reference system. Due to the good correlation the data could be post processed with a correction function to reduce the deviation. Finally, it can be stated, that both systems work well under environmental conditions and are well suited for the mobile use for the investigation of ultrafine particle concentration. KW - Luftreinhaltung KW - Messtechnik KW - Feinstaub Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:hbz:due62-opus-50799 SN - 2224-3496 N1 - Open Access Statement: "This is an open access journal which means that all content is freely available without charge to the user or his/her institution. Users are allowed to read, download, copy, distribute, print, search, deposit to institutional repositories or link to the full texts of the articles, or use them for any other lawful purpose, without asking prior permission from the publisher or the author. This is in accordance with the BOAI definition of open access." https://wseas.com/open-access-statement.php VL - 13 PB - WSEAS ER -