Dr. Tobias Schripp
Dr. Tobias Schripp
ZHAW
School of Engineering
Forschungsschwerpunkt Meteorologie und Luftverkehr
Technikumstrasse 71
8400 Winterthur
Arbeit an der ZHAW
Arbeits- und Forschungsschwerpunkte
- Emissionsmessungen
- Luftqualität
Berufserfahrung
- Wissenschaftl. Mitarbeiter
Zentrum für Aviatik, ZHAW
03 / 2024 - heute - Wissenschaftl. Mitarbeiter/Gruppenleiter
Deutsches Zentrum für Luft- und Raumfahrt - Institut für Verbrennungstechnik
10 / 2016 - 02 / 2024 - Wissenschaftl. Assistent/Wissenschaftl. Mitarbeiter
Fraunhofer Wilhelm-Klauditz Institut (WKI)
10 / 2006 - 09 / 2016
Netzwerk
Mitglied in Netzwerken
Gesellschaft für Aerosolforschung (GAeF)
ORCID digital identifier
Projekte
Publikationen vor Tätigkeit an der ZHAW
- Harlass, T., Dischl, R., Kaufmann, S., Märkl, R., Sauer, D., Scheibe, M., Stock, P., Bräuer, T., Dörnbrack, A., Roiger, A., Schlager, H., Schumann, U., Pühl, M., Schripp, T., Grein, T., Bondorf, L., Renard, C., Gauthier, M., Johnson, M., Luff, D., Madden, P., Swann, P., Ahrens, D., Sallinen, R., Voigt, C., 2024. Measurement report: In-flight and ground-based measurements of nitrogen oxide emissions from latest-generation jet engines and 100 % sustainable aviation fuel. Atmospheric Chemistry and Physics, 24, 11807–11822.
- Dischl, R., Sauer, D., Voigt, C., Harlaß, T., Sakellariou, F., Märkl, R., Schumann, U., Scheibe, M., Kaufmann, S., Roiger, A., Dörnbrack, A., Renard, C., Gauthier, M., Swann, P., Madden, P., Luff, D., Johnson, M., Ahrens, D., Sallinen, R., Schripp, T., Eckel, G., Bauder, U., Le Clercq, P., 2024. Measurements of particle emissions of an A350-941 burning 100% sustainable aviation fuels in cruise. Atmospheric Chemistry and Physics 24, 11255–11273.
- Löber, M.; Bondorf, L.; Grein, T.; Reiland, S.; Wieser, S.; Epple, F.; Philipps, F.; Schripp, T. Investigations of Airborne Tire and Brake Wear Particles Using a Novel Vehicle Design. Environmental Science and Pollution Research 2024, 31 (40), 53521–53531.
- Märkl, R.; Voigt, C.; Sauer, D.; Dischl, R.; Kaufmann, S.; Harlass, T.; Hahn, V.; Roiger, A.; Weiss-Rehm, C.; Burkhardt, U.; et al. Powering Aircraft with 100 % Sustainable Aviation Fuel Reduces Ice Crystals in Contrails. Atmospheric Chemistry and Physics 2024, 24, 3813–3837.
- Bondorf, L.; Koehler, L.; Grein, T.; Epple, F.; Philipps, F.; Aigner, M.; Schripp, T. Airborne Brake Wear Emissions from a Battery Electric Vehicle. Atmosphere 2023, 14.
- Teoh, R.; Schumann, U.; Voigt, C.; Schripp, T.; Shapiro, M.; Engberg, Z.; Molloy, J.; Koudis, G.; Stettler, M. Targeted Use of Sustainable Aviation Fuel to Maximize Climate Benefits. Environmental Science & Technology 2022, 56, 17246–17255.
- Schripp, T.; Anderson, B.; Bauder, U.; Rauch, B.; Corbin, J.; Smallwood, G.; Lobo, P.; Crosbie, E.; Shook, M.; Miake-Lye, R.; et al. Aircraft Engine Particulate Matter Emissions from Sustainable Aviation Fuels: Results from Ground-Based Measurements during the NASA/DLR Campaign ECLIF2/ND-MAX. Fuel 2022, 325.
- Corbin, J.; Schripp, T.; Anderson, B.; Smallwood, G.; LeClercq, P.; Crosbie, E.; Achterberg, S.; Whitefield, P.; Miake-Lye, R.; Yu, Z.; et al. Aircraft-Engine Particulate Matter Emissions from Conventional and Sustainable Aviation Fuel Combustion: Comparison of Measurement Techniques for Mass, Number, and Size. Atmospheric Measurement Techniques 2022, 15, 3223–3242.
- Voigt, C.; Kleine, J.; Sauer, D.; Moore, R.H.; Bräuer, T.; Le Clercq, P.; Kaufmann, S.; Scheibe, M.; Jurkat-Witschas, T.; Aigner, M.; et al. Cleaner Burning Aviation Fuels Can Reduce Contrail Cloudiness. Communications Earth & Environment 2021, 2, 114.
- Schripp, T.; Grein, T.; Zinsmeister, J.; Oßwald, P.; Köhler, M.; Müller-Langer, F.; Hauschild, S.; Marquardt, C.; Scheuermann, S.; Zschocke, A.; et al. Technical Application of a Ternary Alternative Jet Fuel Blend – Chemical Characterization and Impact on Jet Engine Particle Emission. Fuel 2021, 288, 119606.
- Schripp, T.; Herrmann, F.; Oßwald, P.; Köhler, M.; Zschocke, A.; Weigelt, D.; Mroch, M.; Werner-Spatz, C. Particle Emissions of Two Unblended Alternative Jet Fuels in a Full Scale Jet Engine. Fuel 2019, 256, 115903.
- Schripp, T.; Anderson, B.; Crosbie, E.C.; Moore, R.H.; Herrmann, F.; Osswald, P.; Wahl, C.; Kapernaum, M.; Kohler, M.; Le Clercq, P.; et al. Impact of Alternative Jet Fuels on Engine Exhaust Composition During the 2015 ECLIF Ground-Based Measurements Campaign. Environ Sci Technol 2018, 52, 4969–4978.
- Bekö, G.; Morrison, G.; Weschler, C.; Koch, H.; Pälmke, C.; Salthammer, T.; Schripp, T.; Eftekhari, A.; Toftum, J.; Clausen, G. Dermal Uptake of Nicotine from Air and Clothing: Experimental Verification. Indoor Air 2017, 28, 247–257.
- Morrison, G.C.; Weschler, C.J.; Beko, G.; Koch, H.M.; Salthammer, T.; Schripp, T.; Toftum, J.; Clausen, G. Role of Clothing in Both Accelerating and Impeding Dermal Absorption of Airborne SVOCs. Journal of Exposure Science and Environmental Epidemiology 2015, 26, 113–118.
- Weschler, C.; Bekö, G.; Koch, H.M.; Salthammer, T.; Schripp, T.; Toftum, J.; Clausen, G. Transdermal Uptake of Diethyl Phthalate and Di(n-Butyl) Phthalate Directly from Air: Experimental Verification. Environmental Health Perspectives 2015, 123, 928–934.
- Salthammer, T.; Schripp, T. Application of the Junge- and Pankow-Equation for Estimating Indoor Gas/Particle Distribution and Exposure to SVOCs. Atmospheric Environment 2015, 106, 467–476.
- Schripp, T.; Salthammer, T.; Fauck, C.; Bekö, G.; Weschler, C.J. Latex Paint as a Delivery Vehicle for Diethylphthalate and Di-n-Butylphthalate: Predictable Boundary Layer Concentrations and Emission Rates. Science of The Total Environment 2014, 494–495, 299–305.
- Schripp, T.; Etienne, S.; Fauck, C.; Fuhrmann, F.; Märk, L.; Salthammer, T. Application of Proton-Transfer-Reaction-Mass-Spectrometry (PTR-MS) for Indoor Air Quality Research. Indoor Air 2014, 24, 178–189.
- Schripp, T.; Salthammer, T.; Wientzek, S.; Wensing, M. Chamber Studies on Nonvented Decorative Fireplaces Using Liquid or Gelled Ethanol Fuel. Environmental Science & Technology 2014, 48, 3583–3590.
- Schripp, T.; Markewitz, D.; Uhde, E.; Salthammer, T. Does E-Cigarette Consumption Cause Passive Vaping? Indoor Air 2013, 23, 25–31.
- Schripp, T.; Langer, S.; Salthammer, T. Interaction of Ozone with Wooden Building Products, Treated Wood Samples and Exotic Wood Species. Atmospheric Environment 2012, 54, 365–372.
- Schripp, T.; Kirsch, I.; Salthammer, T. Characterization of Particle Emission from Household Electrical Appliances. Science of The Total Environment 2011, 409, 2534–2540.
- Schripp, T.; Fauck, C.; Salthammer, T. Chamber Studies on Mass-Transfer of Di(2-Ethylhexyl)Phthalate (DEHP) and Di-n-Butylphthalate (DnBP) from Emission Sources into House Dust. Atmospheric Environment 2010, 44, 2840–2845.
- Schripp, T.; Fauck, C.; Salthammer, T. Interferences in the Determination of Formaldehyde via PTR-MS: What Do We Learn from m/z 31? Int J Mass Spectrom 2010, 289, 170–172.
- Schripp, T.; Wensing, M.; Uhde, E.; Salthammer, T.; He, C.; Morawska, L. Evaluation of Ultrafine Particle Emissions from Laser Printers Using Emission Test Chambers. Environmental Science and Technology 2008, 42, 4338–4343.
- Schripp, T.; Nachtwey, B.; Toelke, J.; Salthammer, T.; Uhde, E.; Wensing, M.; Bahadir, M. A Microscale Device for Measuring Emissions from Materials for Indoor Use. Anal Bioanal Chem 2007, 387, 1907–1919.