ID: 1284
/ SES-E8: 1
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Topics: 5b. Monitoring of indoor air quality - Particles, fibres, 6b. Ventilation and air cleaning - FiltrationKeywords: Aerosol particles, Infiltration, Indoor to outdoor ratio
Characterization of indoor and outdoor particles in a mechanically ventilated office building
Ville Silvonen1, Laura Salo1, Ilpo Kulmala2, Tuomas Raunima3, Panu Karjalainen1, Juha Vinha3, Markus Nikka4, Topi Rönkkö1
1Tampere University, Engineering and Natural Sciences, Aerosol Physics Laboratory, Tampere, Finland; 2VTT Technical Research Centre of Finland, Tampere, Finland; 3Tampere University, Faculty of Built Environment, Building Physics, Tampere, Finland; 4Dekati Ltd, Kangasala, Finland
ID: 1208
/ SES-E8: 2
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Topics: 5b. Monitoring of indoor air quality - Particles, fibres, 5c. Monitoring of indoor air quality - Analytics and sensorsKeywords: aerosol exposure, particle concentration, electrical particle sensors
Measured LDSA concentrations indoors and outdoors at four schools/daycares in Finland
Laura Salo1, Ville Silvonen1, Tuomas Raunima2, Panu Karjalainen1, Juha Vinha2, Topi Rönkkö1
1Tampere University, Engineering and Natural Sciences, Aerosol Physics Laboratory, Korkeakoulunkatu 3, 33720 Tampere, Finland; 2Tampere University, Faculty of Built Environment, Building Physics, Korkeakoulunkatu 5, 33720 Tampere, Finland
ID: 1838
/ SES-E8: 3
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Topics: 5b. Monitoring of indoor air quality - Particles, fibresKeywords: Household air pollution, PM2.5, Ethiopia
High Concentration of Indoor Particulate matter (PM 2.5) from Burning Solid Fuels in Rural Households of Butajira, Ethiopia
Mulugeta Tamire1, Abera Kumie1, Adamu Addissie1, Mulugeta Ayalew1, Johan Boman2, Susann Skovbjerg2, Rune Andersson2
1Addis Ababa University, Ethiopia; 2University of Gothenburg, Gothenburg, Sweden
ID: 1192
/ SES-E8: 4
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Topics: 4b. Chemistry, sources, transformations - Material emissionsKeywords: indoor aerosol model, indoor source, particle coagulation, ultrafine particle, particle number size distribution
Source-specific particle emission rates under reallife conditions – measurement approach vs. modeling approach
Jiangyue Zhao1, Tareq Hussein1,2, Wolfram Birmili3, Birgit Wehner4, Alfred Wiedensohler4
1Fraunhofer WKI, Department of Material Analysis and Indoor Chemistry, 38108 Braunschweig, Germany; 2University of Helsinki, Institute for Atmospheric and Earth System Research (INAR), 00560 Helsinki, Finland; 3German Environment Agency (Umweltbundesamt), Department II 1 “Environmental Hygiene”, 14195 Berlin, Germany; 4Leibniz Institute for Tropospheric Research, 04318 Leipzig, Germany
ID: 1623
/ SES-E8: 5
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Topics: 1a. Indoor air quality, health and wellbeing - Biologicals, gaseous, particles, 13b. Others - Special applicationsKeywords: Superemitters, Phonation, Respiratory aerosol, Particle production, Vocalization
Respiratory aerosol emission as a function of frequency and loudness during sustained phonation of the vowel /a/
Tanvir Ahmed1, Mahender Singh Rawat2, Andrea R. Ferro2, Amir A. Mofakham1, Goodarz Ahmadi1, Dinushani Senarathna3, Sumona Mondal3, Byron D. Erath1
1Department of Mechanical and Aeronautical Engineering, Clarkson University, Potsdam, NY 13699; 2Department of Civil and Environmental Engineering, Clarkson University, Potsdam, NY 13699; 3Department of Mathematics, Clarkson University, Potsdam NY 13699
ID: 1661
/ SES-E8: 6
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Topics: 5b. Monitoring of indoor air quality - Particles, fibresKeywords: ultrafine particles, nanocluster aerosol, indoor combustion, aerosol instrumentation
Field Measurements of Particle Size Distributions from 1.18 to 50 nm with a Particle Size Magnifier – Scanning Mobility Particle Sizer (PSMPS) During Scented Candle Combustion in a Residential Building
Satya S. Patra1, Jinglin Jiang1, Xiaosu Ding1, Chunxu Huang1, Emily Reidy2, Paige Price2, Vinay Kumar2, Antonios Tasoglou3, Heinz Huber4, Connor Keech5, Gerhard Steiner6, Philip S. Stevens2, Nusrat Jung1, Brandon E. Boor1
1Purdue University; 2Indiana University; 3RJ Lee Group Inc.; 4Edelweiss Technology Solutions, LLC; 5DURAG Inc.; 6GRIMM Aerosol Technik Ainring GmbH & Co. KG
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