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Suchergebnis: Katalogdaten im Frühjahrssemester 2016

Atmospheric and Climate Science Master Information
Module
Wettersysteme und atmosphärische Dynamik
NummerTitelTypECTSUmfangDozierende
701-1224-00LMesoscale Atmospheric Systems - Observation and ModellingW2 KP2VH. Wernli, S. Pfahl
KurzbeschreibungMesoscale meteorology focusing on processes relevant for the evolution of precipitation systems. Discussion of empirical and mathematical-physical models for, e.g., fronts and convective storms. Consideration of oceanic evaporation, transport and the associated physics of stable water isotopes. Introduction to weather radar being the widespread instrument for observing mesoscale precipitation.
LernzielBasic concepts of observational and theoretical mesoscale meteorology, including precipitation measurements and radar. Knowledge about the interpretation of radar images. Understanding of processes leading to the formation of fronts and convective storms, and basic knowledge on ocean evaporation and the physics of stable water isotopes.
701-1216-00LNumerical Modelling of Weather and Climate Information W4 KP3GC. Schär, U. Lohmann
KurzbeschreibungThe guiding principle of this lecture is that students can understand how weather and climate models are formulated from the governing physical principles and how they are used for climate and weather prediction purposes.
LernzielThe guiding principle of this lecture is that students can understand how weather and climate models are formulated from the governing physical principles and how they are used for climate and weather prediction purposes.
InhaltThe course provides an introduction into the following themes: numerical methods (finite differences and spectral methods); adiabatic formulation of atmospheric models (vertical coordinates, hydrostatic approximation); parameterization of physical processes (e.g. clouds, convection, boundary layer, radiation); atmospheric data assimilation and weather prediction; predictability (chaos-theory, ensemble methods); climate models (coupled atmospheric, oceanic and biogeochemical models); climate prediction.

Hands-on experience with simple models will be acquired in the tutorials.
SkriptSlides and lecture notes will be made available at
Link
LiteraturList of literature will be provided.
Voraussetzungen / BesonderesPrerequisites: to follow this course, you need some basic background in numerical methods (e.g., "Numerische Methoden in der Umweltphysik", 701-0461-00L)
701-1226-00LInter-Annual Phenomena and Their PredictionW2 KP2GC. Appenzeller
KurzbeschreibungThis course provides an overview of the current ability to understand and predict short-term climate variability in the tropical and extra-tropical region and provides insights on how operational weather and climate services are organized.
LernzielStudents will acquire an understanding of the key atmosphere and ocean processes involved, will gain experience in analyzing and predicting short-term climate variability and learn how operational weather and climate services are organised and how scientific developments can improve these services.
InhaltThe course covers the following topics:

Part 1:
- a brief introduction into short-term climate variability and some basic concepts
- a brief review of climate data and the statistical concepts used for analysing climate variability (e.g. correlation analysis, teleconnection maps, EOF analysis)

Part 2:
- inter-annual variability in the tropical region (e.g. ENSO, MJO)
- inter-annual variability in the extra-tropical region (e.g. Blocking, NAO, PNA, regimes)

Part 3:
- prediction of short-term climate variability (seasonal forecasts, statistical methods, ensemble prediction systems)
- verification methods for probabilistic forecast systems

Part 4:
- challenges for operational weather and climate services
- weather and climate extremes
- early warning systems
- a visit to the forecasting centre of MeteoSwiss
SkriptA pdf version of the slides will be available at
http://www.iac.ethz.ch/edu/courses/master/modules/interannual-phenomena.html
LiteraturReferences are given during the lecture.
701-1228-00LCloud Dynamics: Hurricanes Information W4 KP3GU. Lohmann
KurzbeschreibungHurricanes are among the most destructive elements in Atmospheric science. This lecture will discuss the requirements for their formation, longevity, damage potential and their relationship to global warming. It also distinguishes hurricanes from thunderstorms and tornadoes.
LernzielAt the end of this course students will be able to distinguish tropical cyclones from extratropical thunderstorms and cyclones, project how tropical cyclones change in a warmer climate based on their physics and evaluate different tropical cyclone modification ideas.
SkriptSlides will be made available
LiteraturHouze, R. A., Cloud Dynamics, Academic Press, 1993
Lin, Y.-L., Mesoscale Dynamics, Cambridge Univ. Press, 2010

A literature list can be found here: http://www.iac.ethz.ch/edu/courses/master/modules/cloud_dynamics
Voraussetzungen / BesonderesAt least one introductory lecture in Atmospheric Science or Instructor's consent.
651-2124-00LAtmospheric General Circulation Dynamics Information W4 KP2V + 1UT. Schneider
KurzbeschreibungUnderstanding the fluid dynamics of the general circulation of the atmosphere is fundamental for understanding how climate is maintained and how it may vary. This course provides an intensive introduction to the principles governing the atmospheric general circulation, reaching from classical models to currently unsolved problems.
LernzielUnderstanding of the global-scale fluid dynamics of planetary atmospheres.
InhaltIntroduction to the global-scale fluid dynamics of the atmosphere, beginning with an analysis of classical models of instabilities in atmospheric flows and leading to currently unsolved problems. Topics include Rossby waves and barotropic instability; the quasigeostrophic two-layer model and baroclinic instability; conservation laws for wave quantities and wave-mean flow interaction theory; turbulent fluxes of heat and momentum; geostrophic turbulence; genesis of zonal jets. The course focuses on Earth's atmosphere but treats the circulation of Earth's atmosphere as part of a continuum of possible planetary circulations.
LiteraturAvailable at Link
Klimaprozesse und -wechselwirkungen
NummerTitelTypECTSUmfangDozierende
701-1216-00LNumerical Modelling of Weather and Climate Information W4 KP3GC. Schär, U. Lohmann
KurzbeschreibungThe guiding principle of this lecture is that students can understand how weather and climate models are formulated from the governing physical principles and how they are used for climate and weather prediction purposes.
LernzielThe guiding principle of this lecture is that students can understand how weather and climate models are formulated from the governing physical principles and how they are used for climate and weather prediction purposes.
InhaltThe course provides an introduction into the following themes: numerical methods (finite differences and spectral methods); adiabatic formulation of atmospheric models (vertical coordinates, hydrostatic approximation); parameterization of physical processes (e.g. clouds, convection, boundary layer, radiation); atmospheric data assimilation and weather prediction; predictability (chaos-theory, ensemble methods); climate models (coupled atmospheric, oceanic and biogeochemical models); climate prediction.

Hands-on experience with simple models will be acquired in the tutorials.
SkriptSlides and lecture notes will be made available at
Link
LiteraturList of literature will be provided.
Voraussetzungen / BesonderesPrerequisites: to follow this course, you need some basic background in numerical methods (e.g., "Numerische Methoden in der Umweltphysik", 701-0461-00L)
701-1232-00LRadiation and Climate ChangeW3 KP2GM. Wild, W. Ball
KurzbeschreibungThis lecture focuses on the prominent role of radiation in the energy balance of the Earth and in the context of past and future climate change.
LernzielThe aim of this course is to develop a thorough understanding of the fundamental role of radiation in the context of climate change.
InhaltThe course will cover the following topics:
Basic radiation laws; sun-earth relations; the sun as driver of climate change (faint sun paradox, Milankovic ice age theory, solar cycles); radiative forcings in the atmosphere: aerosol, water vapour, clouds; radiation balance of the Earth (satellite and surface observations, modeling approaches); anthropogenic perturbation of the Earth radiation balance: greenhouse gases and enhanced greenhouse effect, air pollution and global dimming; radiation-induced feedbacks in the climate system (water vapour feedback, snow albedo feedback); climate model scenarios under various radiative forcings.
SkriptSlides will be made available, lecture notes for part of the course
LiteraturAs announced in the course
701-1252-00LClimate Change Uncertainty and Risk: From Probabilistic Forecasts to Economics of Climate AdaptationW3 KP2V + 1UR. Knutti, D. N. Bresch
KurzbeschreibungThe course introduces the concepts of predictability, probability, uncertainty and probabilistic risk modelling and their application to climate modeling and the economics of climate adaptation.
LernzielStudents will acquire knowledge in uncertainty and risk quantification (probabilistic modelling) and an understanding of the economics of climate adaptation. They will become able to construct their own uncertainty and risk assessment models (MATLAB), hence basic understanding of scientific programming forms a prerequisite of the course.
InhaltThe first part of the course covers methods to quantify uncertainty in detecting and attributing human influence on climate change and to generate probabilistic climate change projections on global to regional scales. Model evaluation, calibration and structural error are discussed. In the second part, quantification of risks associated with local climate impacts and the economics of different baskets of climate adaptation options are assessed – leading to informed decisions to optimally allocate resources. Such pre-emptive risk management allows evaluating a mix of prevention, preparation, response, recovery, and (financial) risk transfer actions, resulting in an optimal balance of public and private contributions to risk management, aiming at a more resilient society.
The course provides an introduction to the following themes:
1) basics of probabilistic modelling and quantification of uncertainty from global climate change to local impacts of extreme events
2) methods to optimize and constrain model parameters using observations
3) risk management from identification (perception) and understanding (assessment, modelling) to actions (prevention, preparation, response, recovery, risk transfer)
4) basics of economic evaluation, economic decision making in the presence of climate risks and pre-emptive risk management to optimally allocate resources
SkriptPowerpoint slides will be made available
Literatur-
Voraussetzungen / BesonderesHands-on experience with probabilistic climate models and risk models will be acquired in the tutorials; hence basic understanding of scientific programming forms a prerequisite of the course. Basic understanding of the climate system, e.g. as covered in the course 'Klimasysteme' is required.

Examination: graded tutorials during the semester (benotete Semesterleistung)
Atmosphärische Zusammensetzung und Kreisläufe
NummerTitelTypECTSUmfangDozierende
701-1234-00LTropospheric ChemistryW3 KP2GA. Prévôt, F. Dentener
KurzbeschreibungThe course gives an overview tropospheric chemistry, which is based on laboratory studies, measurements and numerical modelling. The topics include aerosol, photochemistry, emissions and depositions. The lecture covers urban-regional-to-global scale issues, as well as fundamentals of the atmospheric nitrogen, sulfur and CH4 cycles and their contributions to aerosol and oxidant formation.
LernzielBased on the presented material the students are expected to understand the most relevant processes responsible for the anthropogenic disturbances of tropospheric chemical composition. The competence of synthesis of knowledge will be improved by student's presentations. These presentations relate to a particular actual problem selected by the canidates.
InhaltStarting from the knowledge acquired in lecture 701-0471, the course provides a more profound view on the the chemical and dynamical process governing the composition and impacts of air pollutant like aerosol and ozone, at the earth's surface and the free troposphere.
Specific topics are offered are: laboratory and ambient measurements in polluted and pristine regions, the determination of emissions of a variety of components, numerical modelling across scales, regional air pollution - aerosol, and photooxidatant in relation to precursor emissions,
impacts (health, vegetation, climate), the global cycles of tropospheric ozone, CH4, sulfur and nitrogen components.
SkriptLecture presentations are available for download.
LiteraturD. Jacob, Introduction to Atmospheric Chemistry http://acmg.seas.harvard.edu/publications/jacobbook

Mark Z. Jacobson: Fundamentals of Atmospheric Modelling, Cambridge University Press

John Seinfeld and Spyros Pandis, Atmosperic Chemistry and Physics, from air pollution to Climate Change, Wiley, 2006.
Voraussetzungen / BesonderesThe basics in physical chemsitry are required and an overview equivalent to the bachelor course in atmospheric chemsitry (lecture 701-0471-01) is expected.
701-1238-00LAdvanced Field and Lab Studies in Atmospheric Chemistry and Climate Belegung eingeschränkt - Details anzeigen
Limited number of participants.
W3 KP2PU. Krieger
KurzbeschreibungIn the course 701-0460-00 P we offer the opportunity to carry out atmospheric physical and chemical experiments. The present course will be held in connection with this practical course. An individual assignment of a specific topic will be made for interested students who can acquire knowledge in experimental, instrumental, or numerical aspects of atmospheric chemistry.
LernzielIn the course 701-0460-00 P, Practical training in atmosphere and climate, we offer the opportunity to carry out atmospheric physical and chemical experiments. The present course will be held in connection with this practical course. An individual assignment of a specific topic will be made for interested students who can acquire knowledge in experimental, instrumental, numerical or theoretical aspects of atmospheric chemistry.

This course is addressed to students who have not attended the practical course 701-0460-00 P during their Bachelor studies, but want to gain knowledge in field work connected to atmospheric chemistry. The specific topic to work on may be chosen based on individual interests and resources available.
Voraussetzungen / BesonderesIt is mandatory for interested students to contact the instructor before the term starts, so that individual assignments can be made/planned for.

The maximum number of participants for this course will be limited depending on resources available.
701-1317-00LGlobal Biogeochemical Cycles and Climate Information W3 KP3GN. Gruber, M. Vogt
KurzbeschreibungThe human-induced emissions of carbon dioxide has led to atmospheric CO2 concentrations that Earth likely has no’t seen for the last 30 million years. This course aims to investigate and understand the impact of humans on Earth's biogeochemical cycles with a focus on the carbon cycle and its interaction with the physical climate system for the past, the present, and the future.
LernzielThis course aims to investigate the nature of the interaction between biogeochemical cycles on land and in the ocean with climate and how this interaction has evolved over time and will change in the future. Students are expected to participate actively in the course, which includes the critical reading of the pertinent literature and class presentations.
InhaltTopics discussed include: The anthropogenic perturbation of the global carbon cycle and climate. Response of land and oceanic ecosystems to past and future global changes; Interactions between biogeochemical cycles on land and in the ocean; Biogeochemical processes controlling carbon dioxide and oxygen in the ocean and atmosphere on time-scales from a few years to a few hundred thousand years.
SkriptSarmiento & Gruber (2006), Ocean Biogeochemical Dynamics, Princeton University Press. Additional handouts will be provided as needed. see website: http://www.up.ethz.ch/education/biogeochem_cycles
LiteraturSarmiento & Gruber (2006), Ocean Biogeochemical Dynamics, Princeton University Press, 526pp.

MacKenzie, F. T. (1999), Global biogeochemical cycles and the physical climate system, Global Change Instruction Program, UCAR, Boulder, CO, 69pp.

W. H. Schlesinger (1997), Biogeochemistry: An Analysis of Global Change, Academic Press.

Original literature.
Klimageschichte und Paläoklimatologie
NummerTitelTypECTSUmfangDozierende
651-4004-00LOrganic Geochemistry and the Global Carbon CycleW3 KP2GT. I. Eglinton, M. Lupker
KurzbeschreibungThe carbon cycle connects different reservoirs of C, including life on Earth, atmospheric CO2, and economically important geological reserves of C. Much of this C is in reduced (organic) form, and is composed of complex chemical structures that reflect diverse biological activity, processes and transformations.
LernzielA wealth of information is held within the complex organic molecules, both in the context of the contemporary carbon cycle and its links to is other biogeochemical cycles, as well as in relation to Earth's history, the evolution of life and climate on this planet.

In this course we will learn about the role of reduced forms of carbon in the global cycle, how these forms of carbon are produced, move around the planet, and become sequestered in the geological record, and how they can be used to infer biological activity and conditions on this planet in the geologic past. The course encompasses a range of spatial and temporal scales, from molecular to global, and from the contemporary environment to earliest life.
Voraussetzungen / BesonderesThis course and the lecture course "651-4044-00L Geomicrobiology and Biogeochemistry" https://www.olat.uzh.ch/olat/url/RepositoryEntry/14217969664?guest=true&lang=en are good preparations for the combined Field-Lab Course ("651-4044-02 P Geomicrobiology and Biogeochemistry Field Course" and "651-4044-01 P Geomicrobiology and Biogeochemistry Lab Practical"). Details under https://www.olat.uzh.ch/olat/url/RepositoryEntry/14374567936?guest=true&lang=en
651-4002-00LStratigraphy and TimeW3 KP2GA. Gilli, P. Brack, H. Bucher, I. Hajdas, K. Hippe, A. M. Hirt, S. Ivy Ochs
KurzbeschreibungAnalytische Methoden und Konzepte zur Konstruktion des geologischen Zeitrahmens, der Prozesse und Raten.
LernzielIm Kurs werden Methoden zur Konstruktion der geologischen Zeitskalen behandelt. Das Ziel besteht auch darin, über die angewandte Zeitmessung hinaus das Verständnis für die Arten und Raten von geologischen Prozessen zu erhöhen, sowie die Ursachen für kontinuierliche und diskontinuierliche stratigraphische Aufzeichnungen und deren zeitliche Einordnung.
InhaltAnalytische Methoden und Konzepte zur Konstruktion des geologischen Zeitrahmens: Global Standard Section and Point (GSSP), Biostratigraphische Korrelationen, eustatische Meeresspiegelschwankungen, Datierung mit Radioisotopen, kosmogenen Isotopen, stabile Isotopen- und geochemische Korrelationen, paläomagnetische Stratigraphie und Kohlenstoffdatierung.
SkriptVorlesungsbeilagen
LiteraturDoyle, P. & Bennett, M.R. Editors (1998). Unlocking the stratigraphical record-advances in modern stratigraphy, John Wiley & Sons, 532 p. (brauchbar als Einstieg)
Ogg, J.G., Ogg, G., Gradstein, F.M. 2008. The concise geologic time scale. Cambridge University Press. 177 p. (neueste geol. Zeittafel)
Voraussetzungen / BesonderesDer Kurs wird von einer Reihe von Spezialisten zu den verschiedenen Themen gelesen.
701-1317-00LGlobal Biogeochemical Cycles and Climate Information W3 KP3GN. Gruber, M. Vogt
KurzbeschreibungThe human-induced emissions of carbon dioxide has led to atmospheric CO2 concentrations that Earth likely has no’t seen for the last 30 million years. This course aims to investigate and understand the impact of humans on Earth's biogeochemical cycles with a focus on the carbon cycle and its interaction with the physical climate system for the past, the present, and the future.
LernzielThis course aims to investigate the nature of the interaction between biogeochemical cycles on land and in the ocean with climate and how this interaction has evolved over time and will change in the future. Students are expected to participate actively in the course, which includes the critical reading of the pertinent literature and class presentations.
InhaltTopics discussed include: The anthropogenic perturbation of the global carbon cycle and climate. Response of land and oceanic ecosystems to past and future global changes; Interactions between biogeochemical cycles on land and in the ocean; Biogeochemical processes controlling carbon dioxide and oxygen in the ocean and atmosphere on time-scales from a few years to a few hundred thousand years.
SkriptSarmiento & Gruber (2006), Ocean Biogeochemical Dynamics, Princeton University Press. Additional handouts will be provided as needed. see website: http://www.up.ethz.ch/education/biogeochem_cycles
LiteraturSarmiento & Gruber (2006), Ocean Biogeochemical Dynamics, Princeton University Press, 526pp.

MacKenzie, F. T. (1999), Global biogeochemical cycles and the physical climate system, Global Change Instruction Program, UCAR, Boulder, CO, 69pp.

W. H. Schlesinger (1997), Biogeochemistry: An Analysis of Global Change, Academic Press.

Original literature.
Wahlfächer
Den Studierenden steht das gesamte Lehrangebot der ETHZ und der Universitäten Zürich und Bern zur individuellen Auswahl offen.
Wettersysteme und atmosphärische Dynamik
NummerTitelTypECTSUmfangDozierende
701-1236-00LMessmethoden in der Meteorologie und KlimaforschungW1 KP1VM. Hirschi, D. Michel, S. I. Seneviratne
KurzbeschreibungPhysikalische, technische und theoretische Grundlagen der Messung physikalischer Grössen in der Atmosphäre. Überlegungen zur Planung von Messkampagnen und zur Datenauswertung.
LernzielErkennen der spezifischen Probleme bei Messungen in der Atmosphäre unter schwierigen Umweltbedingungen. Kenntnis der verschiedenen Messmethoden, Erarbeiten von Kriterien für die Wahl der optimalen Methode bei gegebener Fragestellung. Finden der optimalen Beobachtungsstrategie bezüglich Wahl des Instrumentes, Beobachtungshäufigkeit, Genauigkeit etc.
InhaltProbleme der Zeitreihenanalyse, Abtasttheorem, Zeitkonstanten und Abtastrate. Theoretische Analyse der verschiedenen Sensoren für Temperatur, Feuchte, Wind und Druck. Diskussion störender Einflüsse auf Messinstrumente, Funktionsweise aktiver und passiver Fernerkundungssysteme. Prinzip der Messung von turbulenten Flüssen (z.B. Wärmefluss) mittels Eddy-Korrelation. Beschreibung der technischen Ausführung von Sensoren und komplexer Messsysteme (Radiosonden, automatische Wetterstationen, Radar, Windprofiler). Demonstration von Instrumenten.
SkriptStudierende können eine Kopie der Vorlesung als PDF-Datei herunterladen.
Literatur- Emeis, Stefan: Measurement Methods in Atmospheric Sciences, In situ and remote. Bornträger 2010, ISBN 978-3-443-01066-9
- Brock, F. V. and S. J. Richardson: Meteorological Measurement Systems, Oxford University Press 2001, ISBN 0-19-513451-6
- Thomas P. DeFelice: An Introduction to Meteorological Instrumentation and Measurement. Prentice-Hall 2000, 229 p., ISBN 0-13-243270-6
- Fritschen, L.J., Gay L.W.: Environmental Instrumentation, 216 p., Springer, New York 1979.
- Lenschow, D.H. (ed.): Probing the Atmospheric Boundary Layer, 269 p., American Meteorological Society, Boston MA 1986.
- Meteorological Office (publ.): Handbook of Meteorological Instruments, 8 vols., Her Majesty's Stationery Office, London 1980.
- Wang, J.Y., Felton, C.M.M.: Instruments for Physical Environmental measurements, 2 vol., 801 p., Kendall/Hunt Publ. Comp., Dubuque Iowa 1975/76.
Voraussetzungen / BesonderesDie Vorlesung konzentriert sich auf die physikalischen atmosphärischen Grössen, während sich die Vorlesung 701-0234-00 mit den chemischen Grössen beschäftigt. Die beiden Vorlesungen sind komplementär, zusammen vermitteln sie die instrumentellen Grundlagen zu den Praktika 701-0460-00 und 701-1230-00. Die Kontaktzeiten in diesen Praktika sind so abgestimmt, dass der (empfohlene) Besuch der Vorlesungen möglich ist.

Voraussetzungen: Atmosphärenphysik I und II
651-2126-00LCloud and Boundary Layer Dynamics Information
Prior enrollment in "Boundary Layer Meteorology" (651-4053-05L) is recommended.
W4 KP3GT. Schneider
KurzbeschreibungClouds cover the majority of Earth's surface and are essential for regulating the radiative energy budget. This course gives an overview of the dynamics controlling boundary layers and clouds and how they may change with climate.
LernzielUnderstanding of the essential physical processes governing boundary layer and cloud dynamics.
InhaltIntroduction to the dynamics of clouds and convection, from a phenomenological overview of cloud and boundary layer morphologies to closure theories for turbulence and convection. Topics include similarity theories for boundary layers; mixed-layer models; moist thermodynamics and stability; stratocumulus and trade-cumulus boundary layers; shallow cumulus convection and deep convection.
701-1266-00LWeather Discussion Belegung eingeschränkt - Details anzeigen
Limited number of participants.
Preference will be given to students on the masters level.

Prerequisites: Basic knowledge in meteorology is required for this class, students are advised to take courses 702-0473-00L and/or 701-1221-00L before attending this course.
W2.5 KP2PH. Wernli
KurzbeschreibungThis three-parts course includes: (i) concise units to update the students knowledge about key aspects of mid-latitude weather systems and numerical weather prediction, (ii) a concrete application of this knowledge to predict and discuss the "weather of the week", and (iii) an in-depth case study analysis, performed in small groups, of a remarkable past weather event.
LernzielStudents will learn how to elaborate a weather prediction and to cope with uncertainties of weather (probabilistic) prediction models. They will also learn how to apply theoretical concepts from other lecture courses on atmospheric dynamics to perform a detailed case study of a specific weather event, using state-of-the-art observational and model-derived products and datasets.
Klimaprozesse und -wechselwirkungen
NummerTitelTypECTSUmfangDozierende
701-1228-00LCloud Dynamics: Hurricanes Information W4 KP3GU. Lohmann
KurzbeschreibungHurricanes are among the most destructive elements in Atmospheric science. This lecture will discuss the requirements for their formation, longevity, damage potential and their relationship to global warming. It also distinguishes hurricanes from thunderstorms and tornadoes.
LernzielAt the end of this course students will be able to distinguish tropical cyclones from extratropical thunderstorms and cyclones, project how tropical cyclones change in a warmer climate based on their physics and evaluate different tropical cyclone modification ideas.
SkriptSlides will be made available
LiteraturHouze, R. A., Cloud Dynamics, Academic Press, 1993
Lin, Y.-L., Mesoscale Dynamics, Cambridge Univ. Press, 2010

A literature list can be found here: http://www.iac.ethz.ch/edu/courses/master/modules/cloud_dynamics
Voraussetzungen / BesonderesAt least one introductory lecture in Atmospheric Science or Instructor's consent.
Atmosphärische Zusammensetzung und Kreisläufe
NummerTitelTypECTSUmfangDozierende
402-0573-00LAerosols II: Applications in Environment and TechnologyW4 KP2V + 1UJ. Slowik, U. Baltensperger, H. Burtscher
KurzbeschreibungMajor topics: Important sources and sinks of atmospheric aerosols and their importance for men and environment. Particle emissions from combustion systems, means to reduce emissions like particle filters.
LernzielProfound knowledge about aerosols in the atmosphere and applications of aerosols in technology
InhaltAtmospheric aerosols:
important sources and sinks, wet and dry deposition, chemical composition, importance for men and environment, interaction with the gas phase, influence on climate.
Technical aerosols:
combustion aerosols, techniques to reduce emissions, application of aerosols in technology
SkriptInformation is distributed during the lectures
Literatur- Colbeck I. (ed.) Physical and Chemical Properties of Aerosols, Blackie Academic & Professional, London, 1998.
- Seinfeld, J.H., and S.N. Pandis, Atmospheric chemistry and physics, John Wiley, New York, (1998).
701-0234-00LMessmethoden in der Atmosphärenchemie Information W1 KP1VU. Krieger
KurzbeschreibungEs werden Methoden und Geräte vorgestellt: Überwachung der Luftreinhalteverordnung, Spurengasanlysemethoden, Remote Sensing, Aerosolmessgeräte, Messverfahren bei Labormessungen.
Lernziel: Erkennen der spezifischen Probleme bei Messungen in der Atmosphäre, Kriterien für die Wahl der optimalen Methode. Kenntnis verschiedener Messmethoden und spektroskopischen Grundlagen.
LernzielErkennen der spezifischen Probleme bei Messungen in der Atmosphäre und erarbeiten von Kriterien für die Wahl der optimalen Methode für eine gegebene Fragestellung. Kenntnis der verschiedenen Messmethoden und spektroskopischen Grundlagen sowie von ausgewählten Messinstrumenten.
InhaltEs werden Methoden und Geräte vorgestellt und theoretisch analysiert, die in atmosphärenchemischen Messungen Verwendung finden: Geräte zur Überwachung im Rahmen der Luftreinhalteverordnung, Spurengasanlysemethoden, "remote sensing", Aerosolmessgeräte, Messverfahren bei Labormessungen zu atmosphärischen Fragestellungen.
LiteraturB. J. Finnlayson-Pitts, J. N. Pitts, "Chemistry of the Upper and Lower Atmosphere", Academic Press, San Diego, 2000
Voraussetzungen / BesonderesMethodenvorlesung zu den Praktika 701-0460-00 und 701-1230-00. Die Kontaktzeiten in diesen Praktika sind so abgestimmt, dass der (empfohlene) Besuch der Vorlesung möglich ist.

Voraussetzungen: Atmosphärenphysik I und II
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