Person

Dipl.-Ing.

Tim Gronarz

Tim Gronarz
Institute of Heat and Mass Transfer

Address

Building: 1225

Room: 204

Augustinerbach 6

52056 Aachen

Contact

workPhone
Phone: +49 241 80 97469
Fax: +49 241 80 92143
 

Functions and competences

Office Hours

To the office hours.

Personal competences

Fields of applied research

Current projects

  • OXYFLAME subproject C4

 

Publications

Title Author(s)
The Influence of Subsurface Temperature Measurements on the Determination of Transient Wall-Side Boundary Conditions: An Analytical Tool
Journal Article (2017)
Gronarz, Tim
Frekers, Yona
Kneer, Reinhold
Rohlfs, Wilko
Modeling of particle radiative properties in coal combustion depending on burnout
Journal Article (2017)
Gronarz, Tim
Habermehl, Martin
Kneer, Reinhold
Comparison of scattering behaviour for spherical and non-spherical particles in pulverized coal combustion
Journal Article (2017)
Gronarz, Tim
Schnell, Matthias
Siewert, Christoph
Schneiders, Lennart
Schröder, Wolfgang
Kneer, Reinhold
Quantification of the influence of parameters determining radiative heat transfer in an oxy-fuel operated boiler
Journal Article (2017)
Gronarz, Tim
Schulze, Jan
Laemmerhold, Mischka
Graeser, Philipp
Gorewoda, Jeanette
Kez, Vitali
Habermehl, Martin
Schiemann, Martin
Ströhle, Jochen
Epple, Bernd
Scherer, Viktor
Kneer, Reinhold
Influence of Index of Refraction and Particle Size Distribution on Radiative Heat Transfer in a Pulverized Coal Combustion Furnace
Journal Article (2017)
Johansson, Robert
Gronarz, Tim
Kneer, Reinhold
Modeling of Collisional Surface Production/Destruction Terms Within the Σ-Y Eulerian Spray Atomization Model
Conference Presentation (2017)
Eichler, Dominik
Pischke, Philipp
Gronarz, Tim
Kneer, Reinhold
Modellierung der Streuung und Absorption von Wärmestrahlung an Partikeln bei der Verbrennung von Kohlenstaub
Conference Presentation (2016)
Gronarz, Tim
Habermehl, Martin
Kneer, Reinhold
Approximations for particle scattering phase functions in solid fuel combustion
Contribution to a book, Contribution to a conference proceedings (2016)
Gronarz, Tim
Kneer, Reinhold
Habermehl, Martin
Modeling of Particle Radiation Interaction in Solid Fuel Combustion with Artificial Neural Networks
Journal Article (2016)
Gronarz, Tim
Habermehl, Martin
Kneer, Reinhold
Modellierung der Streuung und Absorption von Wärmestrahlung an Partikeln bei der Verbrennung von Kohlenstaub
Abstract, Conference Presentation (2016)
Gronarz, Tim
Kneer, Reinhold
Habermehl, Martin
Investigation of modelling approaches for scattering and absorption properties of particles in pulverized coal combustion
Journal Article (2016)
Gronarz, Tim
Habermehl, Martin
Hatzfeld, Oliver
Kneer, Reinhold
Modeling of Particle Radiation Interaction in Solid Fuel Combustion with Artificial Neural Networks
Contribution to a conference proceedings (2016)
Gronarz, Tim
Habermehl, Martin
Kneer, Reinhold
On the Importance of Particle Radiation Interaction in the Numerical Simulation of Pulverized Coal Combustion
Contribution to a conference proceedings, Report (2015)
Gronarz, Tim
Hatzfeld, Oliver
Habermehl, Martin
Kneer, Reinhold
Experimental Characterization of the effect of Dry Recirculation on a Swirled Self-Stabilized Oxycoal Flame
Contribution to a book, Contribution to a conference proceedings (2015)
Zabrodiec Garcia, Diego Manuel
Maßmeyer, Anna Lisa
Hees, Johannes Christoph
Gronarz, Tim
Gövert, Benjamin Maximilian
Höfler, Matthias
Ohliger, Andreas
Habermehl, Martin
Hatzfeld, Oliver
Kneer, Reinhold
Numerische Simulation der Stickoxidbildung bei der flammlosen Verbrennung von Kohle
Contribution to a book, Contribution to a conference proceedings (2013)
Gronarz, Tim
Habermehl, Martin
Kneer, Reinhold
Weidmann, Max
Kurz, Dominik
Scheffknecht, Günter