Dieses Bild zeigt Rolf Stierle

Rolf Stierle

Herr Dr.-Ing.

Wissenschaftlicher Mitarbeiter
Institut für Technische Thermodynamik und Thermische Verfahrenstechnik

Kontakt

Pfaffenwaldring 9
70569 Stuttgart
Deutschland
Raum: 1.356

Fachgebiet

  • (Dynamische) Dichtefunktionaltheorie
  • Nichtgleichgewichts-Thermodynamik
  1. 2023

    1. I. Nitzke, R. Stierle, S. Stephan, M. Pfitzner, J. Gross, J. Vrabec
      Phase equilibria and interface properties of hydrocarbon propellant-oxygen mixtures in the transcritical regime
      2023, Physics of Fluids 35(3), 032117
    2. R. Stierle, M. Fischer, T. Braun, J. Gross
      Investigating Learning and Improving Teaching in Engineering Thermodynamics Guided by Constructive Alignment and Competency Modeling: Part~I. Improving Our Learning Environment - How We Support Student Learning
      2023, Chemical Engineering Education 57(2), 101–112
    3. T. Braun, R. Stierle, M. Fischer, J. Gross
      Investigating Learning and Improving Teaching in Engineering Thermodynamics Guided by Constructive Alignment and Competency Modeling: Part II. Assessment and Exam Design
      2023, Chemical Engineering Education 57(3), 144–155
    4. M. Hammer, G. Bauer, R. Stierle, J. Gross, Ø. Wilhelmsen
      Classical density functional theory for interfacial properties of hydrogen, helium, deuterium, neon, and their mixtures
      2023, The Journal of Chemical Physics 158(10), 104107
    5. C. Steinhausen, V. Gerber, R. Stierle, A. Preusche, A. Dreizler, J. Gross, … G. Lamanna
      Characterisation of the transient mixing behaviour of evaporating near-critical droplets
      2023, Frontiers in Physics 11
  2. 2022

    1. P. Neumann, A. Das Sharma, L. Viot, T. Trummler, A. Doehring, M. Son, … N. Tippmann
      MaST: Scale-Bridging Exploration of Transcritical Fluid Systems
      dtec.bw-Beiträge der Helmut-Schmidt-Universität / Universität der Bundeswehr Hamburg: Forschungsaktivitäten im Zentrum für Digitalisierungs- und Technologieforschung der Bundeswehr
  3. 2021

    1. R. Stierle, J. Gross
      Hydrodynamic density functional theory for mixtures from a variational principle and its application to droplet coalescence
      2021, The Journal of Chemical Physics 155(13), 134101
    2. R. Stierle
      Development of Hydrodynamic Density Functional Theoryfor Mixtures and Application to Droplet Coalescence
      2021, Dissertation, University of Stuttgart
  4. 2020

    1. R. Stierle, C. Waibel, J. Gross, C. Steinhausen, B. Weigand, G. Lamanna
      On the Selection of Boundary Conditions for Droplet Evaporation and Condensation at high Pressure and Temperature Conditions from interfacial Transport Resistivities
      2020, International Journal of Heat and Mass Transfer 151, 119450
    2. A. Preusche, A. Dreizler, C. Steinhausen, G. Lamanna, R. Stierle
      Non-invasive, spatially averaged temperature measurements of falling acetone droplets in nitrogen atmosphere at elevated pressures and temperatures
      2020, The Journal of Supercritical Fluids 166, 105025
    3. G. Lamanna, C. Steinhausen, F. Weckenmann, B. Weigand, B. Bork, A. Preusche, … J. Gross
      Laboratory Experiments of High-Pressure Fluid Drops
      High-Pressure Flows for Propulsion Applications
    4. R. Stierle, E. Sauer, J. Eller, M. Theiss, P. Rehner, P. Ackermann, J. Gross
      Guide to efficient solution of PC-SAFT classical Density Functional Theory in various Coordinate Systems using fast Fourier and similar Transforms
      2020, Fluid Phase Equilibria 504, 112306
    5. R. Stierle, J. Gross
      A fast inverse Hankel Transform of first Order for computing vector-valued weight Functions appearing in Fundamental Measure Theory in cylindrical Coordinates
      2020, Fluid Phase Equilibria 511, 112500
  5. 2019

    1. C. Steinhausen, J. Reutsch, G. Lamanna, B. Weigand, R. Stierle, J. Gross, … A. Dreizler
      Droplet evaporation at high pressure and temperature conditions: A comparison of experimental estimations and direct numerical simulations
      Vortrag, Paris (F)
    2. M. Reitzle, S. Ruberto, R. Stierle, J. Gross, T. Janzen, B. Weigand
      Direct numerical simulation of sublimating ice particles
      2019, International Journal of Thermal Sciences 145, 105953
  6. 2018

    1. C. Waibel, R. Stierle, J. Gross
      Transferability of Cross-Interaction Pair Potentials: Vapor-Liquid Phase Equilibria of n-Alkane/Nitrogen Mixtures Using the TAMie Force Field
      2018, Fluid Phase Equilibria 456, 124–130
    2. G. Lamanna, C. Steinhausen, B. Weigand, A. Preusche, B. Bork, A. Dreizler, … J. Gross
      On the importance of non-equilibrium models for describing the coupling of heat and mass transfer at high pressure
      2018, International Communications in Heat and Mass Transfer 98, 49–58
  7. 2017

    1. C. Steinhausen, G. Lamanna, B. Weigand, R. Stierle, J. Gross, A. Preusche, A. Dreizler
      Experimental Investigation of Droplet Injections in the Vicinity of the Critical Point: A comparison of different model approaches
  8. 2014

    1. P. Günther, P. Kunz, R. Stierle, G. Eigenberger, U. Nieken
      Prozesssimulation einer Adsorptionskältemaschine: True-Moving-Bed-Approximation
      2014, Chemie Ingenieur Technik 86(1–2), 112--118

SS15         Molekulare Thermodynamik
WS15/16  Technische Thermodynamik 1, Tutorenqualifizierung
SS16         Technische Thermodynamik 2, Tutorenqualifizierung
WS16/17  Technische Thermodynamik 1, Tutorenqualifizierung,
SS17         Thermische Verfahrenstechnik 1
WS17/18  Thermodynamik der Gemische, Tutorenqualifizierung
SS18         Thermal Process Engineering
WS18/19  Projektarbeit: Validierung von Zustandsgleichungen mit Matlab
SS19         Technische Thermodynamik 2
WS19/20  Nichtgleichgewichts-Thermodynamik
WS 20/21 Technische Thermodynamik 1
WS 21/22 Technische Thermodynamik 1
SS22         Technische Thermodynamik 2
WS 22/23 Nichtgleichgewichtsthermodynamik (Dozent)

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