Nazanin Hamedi
© GRK 2323
Wissenschaftliche Mitarbeiterin
NameNazanin Hamedi M.Sc.
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Graduiertenkolleg 2323
Graduiertenkolleg 2323
Besuchsadresse:
Institutsgebäude S7A
Raum / Room 205
Georg-Schumann-Str. 7a
01187 Dresden
Projekt
Task-Oriented Navigation Hierarchies in Changeable Modular Plants
Forschungsinteressen
- Hierarchische Repräsentationen von chemischen Prozessen
- Störungsdiagnose bei chemischen Prozessen
- HMI-Design für das Monitoring von modularen Prozessanlagen
Kurzbiographie
| Seit 01/2020 | Wissenschaftliche Mitarbeiteren Research Training Group 2323 Technische Universität Dresden |
| 09/2014 - 11/2019 | Wissenschaftliche Mitarbeiterin Department of Chemical Engineering, Shiraz University Iran |
| 09/2014 - 07/2015 | Lehrbeauftragte Payam Noor University, Estahban Branch Iran |
| 09/2011 - 09/2014 |
Studium: Chemical Engineering (M.Sc.) |
| 09/2007 - 09/2011 |
Studium: Chemical Engineering (B.Sc.) |
Publikationen mit Peer-Review
Hamedi, N., Urbas, L., & Dachselt, R. (2022, June 12-15). Applying Ecological Interface Design for Modular Plants: Safety-Demonstrator Case Study. The 32nd European Symposium on Computer Aided Process Engineering (ESCAPE32), Toulouse, France.
Samimi, F., Hamedi, N., & Rahimpour, M.R. (2019). Green Methanol Production Process from Indirect CO2 Conversion: RWGS Reactor versus RWGS Membrane Reactor, Journal of Environmental Chemical Engineering, 7, 102813.
Alavi, M., Hamedi, N., & Rahimpour, M.R. (2018). Modeling of the Di Methyl Ether Production Reactors, In: A. Basile (Eds.), The Science and Engineering of Methanol (1st ed., pp. 573-591). Amsterdam: Elsevier.
Hamedi, N., Hassanajili, Sh., & Sajedi, M.T. (2018). An investigation on mechanical properties of polyurethane nanocomposites with various silica: experimental study and modeling of finite deformation response, Silicon, 10, 1243–1255.
Iranshahi, D., Hamedi, N., Nategh, M., Saeedi, R., & Saeidi, S. (2018). Thermal Integration of Sulfuric Acid and CCR Naphtha Reforming Plants by Using an Optimized Multi-functional Moving Bed Reactor to Increase the Production of Aromatics, Hydrogen and Sulfur Trioxide, Chemical Engineering and Technology, 41, 637-655.
Mirsoleimani-azizi, S.M., Setoodeh, P., Samimi, F., Shadmehr, J., Hamedi, N., & Rahimpour, M.R. (2018). Diazinon removal from aqueous media by mesoporous MIL-101(Cr) in a continuous fixed-bed system, Journal of Environmental Chemical Engineering, 6, 4653-4664.
Hamedi, N., Masoumi, S., Nategh, M., & Rahimpour, M.R. (2017). Simultaneous production of xylenes and hydrogen in an optimized membrane-assisted thermally coupled reactor using an elaborate reaction network, Chemical Engineering Process: Process Intensification, 119, 113-130.
Hamedi, N., Nategh, M., Keshtkari, K., & Rahimpour, M.R. (2017). Development of a rigorous, two-dimensional mathematical model for a novel, thermally coupled reactor for simultaneous production of hydrogen and xylenes, Chemical Engineering Research and Design, 127, 126-145.
Kamgar, A., Hamedi, N., Mohsenpour, S., & Rahimpour, M.R. (2017). Investigation of Using Different Thermodynamic Models on Prediction Ability of Mutual Diffusion Coefficient Model, Journal of molecular liquids, 243, 781-789.
Rahimpour, M.R., & Hamedi, N. (2017). Application of differential evolution for chemical reaction engineering. In: G. P., Rangaiah, & Sh., Sharma (Eds.). Differential Evolution in Chemical Engineering: Developments and Applications (1st ed., pp. 70-90). Singapore: World Scientific.
Hamedi, N., Iranshahi, D., Rahimpour, M.R., Raeissi, S., & Rajaei, H. (2015). Development of a detailed reaction network for industrial upgrading of heavy reformates to xylenes using differential evolution technique. Journal of the Taiwan Institute of Chemical Engineers, 48, 56-72.
Hamedi, N., Tohidian, T., Rahimpour, M.R., Iranshahi, D., & Raeissi, s. (2015). Conversion enhancement of heavy reformates into xylenes by optimal design of a novel radial flow packed bed reactor, applying a detailed kinetic model. Chemical Engineering Research and Design, 95, 317-336.
Hamedi, N., Alavi, M., Karimpour, D., & Raeissi, S. (2013, September 17-18). Modeling of a super critical fluid to investigate its capability of solar energy storage. 3rd National Conference of Fuel, Energy & Environment, Teheran, Iran.
Weitere Publikationen
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