PhD position - Atmospheric Sciences: Development of a multiphase chemical box model for the analysis chamber and field experiments

As a member of the Helmholtz Association, Forschungszentrum Jülich makes an effective contribution to solving major challenges facing society in the fields of information, energy, and bioeconomy. It focuses on varied tasks in the area of research management and utilizes large, often unique, scientific infrastructure. Come and work with around 6,400 colleagues across a range of topics and disciplines at one of Europe’s largest research centres.

The Institute for Energy and Climate Research, Troposphere (IEK-8), investigates the chemical and physical processes in the troposphere that impact the chemical composition of the atmosphere. On the one hand side the processes are studied by field measurements and chamber experiments, where different working groups deal with different aspects, as photochemistry and radicals, reactive trace substances or aerosols. On the other hand side, the modellers group uses and develops the Modular Earth Submodel System (MESSy) which allows for chemical studies in highly variable degrees of complexity, i.e. box model or 3d global and regional chemistry climate simulations. In order to improve the overall understanding of tropospheric chemistry processes, the link between the experimental and the modelling tools should be strengthened.

We are offering a

PhD position - Atmospheric Sciences: Development of a multiphase chemical box model for the analysis chamber and field experiments

Activities and responsibilities

The MESSy software https://www.messy-interface.org/ provides the ideal basis for the application of process description and diagnostics (coded as so-called submodels) within different kind of models. While most members of the MESSy consortium work with 3d global and regional models, in this project the same MESSy infrastructure and the process submodels will be used to develop a 0d (maybe 1d) model for the analysis of atmospheric chamber experiments. The idea is to take advantage of the already existing infrastructure (e.g., data import and output), process submodels (i.e. multiphase kinetics and gas-aerosol partitioning) and diagnostics submodels. In this way, new findings from the analysis of chamber experiments can be directly applied also within the 3d models. Analysing chamber and field experiments with this tool will enable to advance our knowledge in radical chemistry and assess its global impacts (3d) on the atmospheric oxidation capacity and aerosol formation.

Your tasks in detail:
Starting from a technically working atmospheric chemistry box model, your task will be to further develop the box model in order to provide boundary conditions and include process descriptions relevant for the respective chamber experiments.
The aim of this project is to expand an atmospheric chemistry box model with a technical infrastructure for the standardized provision of boundary conditions and driving data and proof its functionality by the analysis of chamber experiments performed at IEK-8. In order to facilitate the analysis of the model results additional on-line diagnostics should be developed and implemented in the MESSy software.

Qualification profile

  • Master degree in chemistry, physics, environmental sciences or a related field (e.g. computer science, mathematics) with good final grade (German system equivalent 2.0 or better)
  • Very good numerical and programming skills are essential; knowledge of Fortran and experience with a Linux/Unix environment are of advantage
  • Knowledge of (atmospheric) chemistry and/or atmospheric sciences is of Advantage
  • Knowledge about measurement techniques is another plus
  • Good skills in data evaluation using mathematical script routines
  • Ability to work in an international team, good skills in the spoken and written English language

We offer

  • An exciting, inter-disciplinary work at the frontiers of science
  • A stimulating, international scientific environment at one of Europe`s largest research establishments
  • Excellent technical facilities and high-end instrumentation
  • Participation in international field campaigns, workshops and conferences
  • Additional qualifications as part of the graduate school HITEC
  • Payment in line with 67,5 % of pay group 13 of the Collective Agreement for the Public Service (TVöD-Bund)
  • Usually a contract for the duration of 3 years
  • Information on employment as a PhD student at Forschungszentrum Jülich can be found here http://www.fz-juelich.de/gp/Careers_Docs

Forschungszentrum Jülich promotes equal opportunities and diversity in its employment relations.

We also welcome applications from disabled persons.

The job will be advertised until the position has been successfully filled. You should therefore submit your application as soon as possible. We look forward to receiving your application via our
Online-Recruitment-System!

Questions about the vacancy?
Contact us by mentioning the reference number 2020D-055: career@fz-juelich.de
Please note that for technical reasons we cannot accept applications via email.


While applying for the job please refer to jobvector and use the following reference number: 2020D-055

About Forschungszentrum Jülich GmbH

Das Forschungszentrum Jülich leistet als Mitglied der Helmholtz-Gemeinschaft wirksame Beiträge zur Lösung großer gesellschaftlicher Herausforderungen in den Bereichen Information, Energie und   Bioökonomie. Es bearbeitet vielfältige Aufgaben im Forschungsmanagement und nutzt große, oft einzigartige wissenschaftliche Infrastrukturen. Arbeiten Sie...
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