@article {353, title = {Analysis and evaluation of steady-state and non-steady-state preserving operator splitting schemes for reaction-diffusion(-advection) problems}, journal = {Combustion and Flame}, volume = {255}, year = {2023}, month = {Jan-09-2023}, pages = {112881}, issn = {00102180}, doi = {10.1016/j.combustflame.2023.112881}, url = {https://doi.org/10.1016/j.combustflame.2023.112881}, author = {B{\"o}senhofer, Markus} } @conference {361, title = {Design and Simulation of flow field for sinusoidal scaffold using Computational fluid dynamics}, booktitle = {XXIX Congress of International/Japanese Society of Biomechanics}, year = {2023}, month = {08/2023}, publisher = {International Society of Biomechanics}, organization = {International Society of Biomechanics}, abstract = {
Bone can heal small defects by itself but fails to do so in case of severe bone damage. A common treatment for severe damage is grafting bone. Approximately 1.6 million bone grafts are performed in the United States per year [1]. Unfortunately, this treatment has several serious drawbacks, such as a high risk of infections or even donor site morbidities. Tissue Engineering and regenerative medicine is a promising biomedical alternative to cure severe bone damage. Scaffolds can be used to re-build the bone structure since they can support seeded cells and provide an optimal environment for cell growth [2]. The scaffold{\textquoteright}s geometry design influences flow characteristics, mass transfer rates, and wall shear stress (WSS). The WSS is an important parameter to investigate because it affects the differentiation and bioactivity of cells inside the scaffold. In this work, we investigate the influence of the scaffold geometry on the flow field, WSS and mass transport using computational fluid dynamics (CFD). The reliability of the numerical results is evaluated using the μ-particle image velocimetry (PIV) method.
}, keywords = {3D printing, CFD, OpenFOAM, Scaffold geometry, scaffolds, Wall shear stress}, author = {Theresia Baumgartner and Markus B{\"o}senhofer and Olivier Guillaume and Aleksandr Ovsianikov and Michael Harasek and Margit Gf{\"o}hler} } @article {358, title = {Development of a computer vision-based measuring system for investigating the porous media structure}, journal = {Materials Characterization}, volume = {203}, year = {2023}, month = {Jan-09-2023}, pages = {113087}, issn = {10445803}, doi = {10.1016/j.matchar.2023.113087}, url = {https://doi.org/10.1016/j.matchar.2023.113087}, author = {Ruzova, Т.А. and Haddadi, B. and Jonach, T. and Jordan, C. and Harasek, M.} } @article {335, title = {The effect of turbulence on the conversion of coal under blast furnace raceway conditions}, journal = {Fuel}, volume = {331}, year = {2023}, month = {Jan-01-2023}, pages = {125840}, issn = {00162361}, doi = {10.1016/j.fuel.2022.125840}, url = {https://doi.org/10.1016/j.fuel.2022.125840}, author = {Wartha, Eva-Maria and Haugen, Nils Erland and Karchniwy, Ewa and B{\"o}senhofer, Markus and Harasek, Michael and L{\o}v{\r a}s, Terese} } @conference {355, title = {An Eulerian-Based Reduction Model for Iron Ore Particle Reduction}, booktitle = {AISTech 2023AISTech 2023 Proceedings}, year = {2023}, publisher = {AIST}, organization = {AIST}, doi = {10.33313/38710.33313/387/039}, url = {https://imis.aist.org/store/detail.aspx?id=https://imis.aist.org/store/detail.aspx?id=PR-387-039}, author = {B{\"o}senhofer, M. and Feilmayr, C. and Harasek, M. and Hauzenberger, F. and Stocker, H.} } @conference {362, title = {How do sinusoidal scaffolds affect fluid flow-induced wall shear stress and mass transport?}, booktitle = {28th Congress of the European Society of Biomechanics }, year = {2023}, month = {07/2023}, publisher = {European Society of Biomechanics}, organization = {European Society of Biomechanics}, abstract = {Bone is one of the most transplanted tissues. About 1.6 million bone grafts are performed each year only in the United States [1]. This treatment has serious drawbacks, such as a higher risk of infections or even donor site morbidities. Therefore, an alternative is the use of scaffolds to create bone tissue. The role of scaffolds in bone tissue engineering is to mimic the native bone tissue and is used to provide a template that supports seeded cells to get an optimal environment for their proliferation [2] to re-build the damaged structure. Hence, an optimal scaffold design is important and must be found because even small changes in the geometry of the pore network of the scaffold influences the process of cell growth and mechanical properties [2,3]. Wall shear stress (WSS) has a significant role in the differentiation of cells, especially for bone. Even minor changes in the flow field, especially near the wall regions, can directly affect cell bioactivity. Therefore, in this work, we use computational fluid dynamics (CFD) simulations to investigate the WSS and the effect of the flow rate on mass transport rates in scaffolds. The numerical results were compared to {\textmu}-particle image velocimetry (PIV) experiments to evaluate the reliability of the CFD method.
}, keywords = {bone tissue, CFD, PIV, scaffolds, Wall shear stress}, author = {Theresia Baumgartner and Markus B{\"o}senhofer and Olivier Guillaume and Aleksandr Ovsianikov and Michael Harasek and Margit Gf{\"o}hler} } @article {363, title = {Influence of Raceway Shape on Species Concentration}, journal = {Iron \& Steel Technology}, volume = {20}, year = {2023}, month = {Aug-07-2024}, issn = {15470423}, doi = {10.33313/TR/0823}, url = {https://imis.aist.org/store/detail.aspx?id=PR-TN0823-1}, author = {B{\"o}senhofer, Markus and Wartha, Eva-Maria and Hauzenberger, Franz and Stocker, Hugo and Feilmayr, Christoph and Harasek, Michael} } @conference {354, title = {Investigation of the Thermally Thick Alternative Reducing Agent Behavior in the Raceway Zone}, booktitle = {AISTech 2023AISTech 2023 Proceedings}, year = {2023}, publisher = {AIST}, organization = {AIST}, doi = {10.33313/38710.33313/387/042}, url = {https://imis.aist.org/store/detail.aspx?id=https://imis.aist.org/store/detail.aspx?id=PR-387-042}, author = {B{\"o}senhofer, M. and Feilmayr, C. and Harasek, M. and Hauzenberger, F. and Kiss, M. and Stocker, H.} } @article {350, title = {Liquid{\textendash}Liquid Phase Separation of Two Non-Dissolving Liquids{\textemdash}A Mini Review}, journal = {Processes}, volume = {11}, year = {2023}, month = {Jan-04-2023}, pages = {1145}, doi = {10.3390/pr11041145}, url = {https://www.mdpi.com/2227-9717/11/4/1145https://www.mdpi.com/2227-9717/11/4/1145/pdf}, author = {Dimitrijevi{\'c}, Dragana and B{\"o}senhofer, Markus and Harasek, Michael} } @conference {359, title = {Modelling of Multi Stage Internal Loop Air Lift Bioreactor Utilizing Computational Fluid Dynamics}, booktitle = {17th Minisymposium Verfahrenstechnik}, year = {2023}, month = {April}, publisher = {University of Natural Resources and Life Sciences (BOKU), Department of Material Sciences and Process Engineering, Institute for Chemical and Energy Engineering, Muthgasse 107, A-1190 Wien editor= Bernhard Kling and Thomas Keller pages=84-89}, organization = {University of Natural Resources and Life Sciences (BOKU), Department of Material Sciences and Process Engineering, Institute for Chemical and Energy Engineering, Muthgasse 107, A-1190 Wien editor= Bernhard Kling and Thomas Keller pages=84-89}, author = {Ramonet, Fernando and Haddadi, Bahram and B{\"o}senhofer, Markus and Harasek, Michael} } @conference {356, title = {A Novel Test Rig for the Evaluation of Auxiliary Reducing Agents (ARAs)}, booktitle = {AISTech 2023AISTech 2023 Proceedings}, year = {2023}, publisher = {AIST}, organization = {AIST}, doi = {10.33313/38710.33313/387/044}, url = {https://imis.aist.org/store/detail.aspx?id=https://imis.aist.org/store/detail.aspx?id=PR-387-044}, author = {B{\"o}senhofer, M. and Feilmayr, C. and Harasek, M. and Hauzenberger, F. and Nanz, T. and Rieger, J. and Stocker, H.} } @conference {364, title = {Operator splitting versus source linearization for the reaction-(advection)-diffusion equation in OpenFOAM{\textregistered}}, booktitle = {31. Deutscher Flammentag Manuskripte }, year = {2023}, month = {09/2023}, abstract = {Novel combustion technologies like MILD or (ultra-)lean combustion aim to reduce pollutant emissions and increase process efficiency. Pollutants are reduced by distributing the reaction zone over large regions and keeping the combustion temperature low. Lower temperatures also reduce heat loss and increase combustion efficiency. These combustion conditions can come at the cost of unstable operation caused by frequent near-extinction or near-ignition states in the flame. These unstable states must be captured when modeling MILD or (ultra-)lean flames. Solving the reaction-advection-diffusion fully coupled is often prohibitive because of the numerical effort and the memory requirements. Common Computational Fluid Dynamics (CFD) codes use operator splitting (OS) schemes to overcome this issue. OS divides the reaction-diffusion problem into sub-problems and provides an algorithm to recover the original problem{\textquoteright}s solution by combining the sub-problems. The advantage of OS is that the individual sub-problems, e.g., transport and chemistry, can be solved with specialized solvers. The main drawback of using OS schemes is a loss of accuracy when recovering the original problem. Near-ignition or near-extinction states pose a peculiar problem for OS schemes, and the predicted results can deviate significantly from the actual one; furthermore, they can introduce a time step size dependence of the steady-state solution. OpenFOAM{\textregistered} uses a particular OS; the chemistry sub-problem is linearized and added as an explicit source to the transport problem. Technically speaking, this approach is not an OS but a source term linearization. As the open-source CFD toolbox OpenFOAM{\textregistered} is increasingly used for combustion simulations, understanding the accuracy, the steady-state consistency and the temporal evolution of the linearization approach is essential. In this work, the performance of the OpenFOAM{\textregistered} source linearization is evaluated and compared to OS schemes. The accuracy and steady-state consistency are evaluated by scalar linear stability analysis, while the temporal evolution is evaluated using near-ignition and near-extinction perfectly-stirred reactor test cases.
}, keywords = {Linear stability analysis, OpenFOAM{\textregistered}, operator splitting, Perfectly stirred reactor (PSR), Reaction-diffusion(-advection) equation, Reactive flow}, author = {Markus B{\"o}senhofer} } @article {349, title = {Optimal Design of Double Stage Internal Loop Air-Lift Bioreactor}, journal = {Energies}, volume = {16}, year = {2023}, month = {Jan-04-2023}, pages = {3267}, doi = {10.3390/en16073267}, url = {https://www.mdpi.com/1996-1073/16/7/3267https://www.mdpi.com/1996-1073/16/7/3267/pdf}, author = {Ramonet, Fernando and Haddadi, Bahram and Harasek, Michael} } @conference {360, title = {SAE Technical Paper SeriesExperimental Collision and Swirl of CFD Simulated Fuel Sprays in a Dual Injector Cylinder Head Concept}, booktitle = {16th International Conference on Engines \& VehiclesSAE Technical Paper Series}, year = {2023}, publisher = {SAE International}, organization = {SAE International}, address = {Capri, Italy400 Commonwealth Drive, Warrendale, PA, United States}, doi = {10.4271/2023-24-0080}, url = {https://www.sae.org/content/2023-24-0080https://www.sae.org/gsdownload/?prodCd=2023-24-0080}, author = {Gutierrez, Marcos and Taco, Diana and B{\"o}senhofer, Markus and Harasek, Michael and Castillo, Andres and Iniguez, Juan and Reyes, Gorky and Guanuche, Denny} } @article {357, title = {Water saturation of coal samples during long-term impregnationAbstract}, journal = {IOP Conference Series: Earth and Environmental Science}, volume = {1156}, year = {2023}, month = {Jan-04-2023}, pages = {012022}, issn = {1755-1307}, doi = {10.1088/1755-1315/1156/1/012022}, url = {https://doi.org/10.1088/1755-1315/1156/1/012022}, author = {Yelisieiev, Volodymyr and Lutsenko, Vasyl and Tepla, Tetiana and Ruzova, Tetiana and Harasek, Michael} } @article {328, title = {Dataset for the Heat-Up and Heat Transfer towards Single Particles and Synthetic Particle Clusters from Particle-Resolved CFD Simulations}, journal = {Data}, volume = {7}, year = {2022}, month = {Jan-02-2022}, pages = {23}, doi = {10.3390/data7020023}, url = {https://www.mdpi.com/2306-5729/7/2/23https://www.mdpi.com/2306-5729/7/2/23/pdf}, author = {Pichler, Mario and B{\"o}senhofer, Markus and Harasek, Michael} } @conference {336, title = {Effect of Different Diesel Fuel Nozzle Holes Geometries on Cavitation}, booktitle = {Conference on Sustainable Mobility SAE Technical Paper Series}, year = {2022}, publisher = {SAE International}, organization = {SAE International}, address = {400 Commonwealth Drive, Warrendale, PA, United States}, doi = {10.4271/2022-24-0027}, url = {https://www.sae.org/content/2022-24-0027}, author = {Gutierrez, Marcos and Taco, Diana and B{\"o}senhofer, Markus and Harasek, Michael and Castillo, Andres and Iniguez, Juan} } @article {317, title = {Enhanced kinetic model identification for gas{\textendash}solid reactions through Computational Fluid Dynamics}, journal = {Chemical Engineering Journal}, volume = {430}, year = {2022}, month = {Jan-02-2022}, pages = {132850}, issn = {13858947}, doi = {10.1016/j.cej.2021.132850}, url = {https://doi.org/10.1016/j.cej.2021.132850}, author = {Wartha, Eva-Maria and Birkelbach, Felix and B{\"o}senhofer, Markus and Harasek, Michael} } @article {326, title = {Heat Transfer Models for Dense Pulverized Particle Jets}, journal = {Processes}, volume = {10}, year = {2022}, month = {Jan-02-2022}, pages = {238}, doi = {10.3390/pr10020238}, url = {https://www.mdpi.com/2227-9717/10/2/238https://www.mdpi.com/2227-9717/10/2/238/pdf}, author = {B{\"o}senhofer, Markus and Pichler, Mario and Harasek, Michael} } @article {312, title = {Importance of considering interstitial fluid effects in the kinetic theory of granular flow for raceway formation prediction}, journal = {Chemical Engineering Science}, volume = {247}, year = {2022}, month = {Jan-01-2022}, pages = {117026}, issn = {00092509}, doi = {10.1016/j.ces.2021.117026}, url = {https://doi.org/10.1016/j.ces.2021.117026}, author = {Wartha, Eva-Maria and B{\"o}senhofer, Markus and Harasek, Michael} } @conference {333, title = {Influence of Raceway Shape on Species Concentration}, booktitle = {AISTech 2022 Proceedings of the Iron and Steel Technology ConferenceAISTech 2022 Proceedings of the Iron and Steel Technology Conference}, year = {2022}, publisher = {AIST}, organization = {AIST}, doi = {10.33313/38610.33313/386/023}, url = {http://digital.library.aist.org/pages/http://digital.library.aist.org/pages/PR-386-023.htm}, author = {Wartha, E. and B{\"o}senhofer, M. and Hauzenberger, F. and Stocker, H. and Feilmayr, C. and Harasek, M.} } @proceedings {338, title = {Modelling And Characterization Of Internal Loop Air Lift Bioreactor Configurations Through Computational Fluid Dynamics}, year = {2022}, month = {05/2022}, author = {Ramonet Marques, Fernando and Haddadi, Bahram and Harasek, Michael} } @article {339, title = {Modelling and Design of Optimal Internal Loop Air-Lift Reactor Configurations Through Computational Fluid Dynamics}, journal = {Chemical Engineering Transactions}, volume = {94}, year = {2022}, month = {Sep.}, pages = {817-822}, doi = {10.3303/CET2294136}, url = {https://www.cetjournal.it/index.php/cet/article/view/CET2294136}, author = {Ramonet, Fernando and Haddadi, Bahram and Jordan, Christian and Harasek, Michael} } @proceedings {321, title = {Artificial Neural Networks to Substitute the ODE Solver in Reactive Flow Simulations}, year = {2021}, month = {04/2021}, pages = {266-271}, author = {Wartha, EM and Cabrerea Ormaza, MD and B{\"o}senhofer, M and Harasek, M} } @article {347, title = {CFD optimisation and analysis of existing AD and Biorefineries Report}, year = {2021}, institution = {European Comission}, issn = {Ref. Ares(2021)7353824 - 29/11/2021}, doi = {10.13140/RG.2.2.10570.85442}, author = {Ramonet Marques, Fernando and Harasek, Michael} } @article {315, title = {Dataset for the simulated biomass pyrolysis in rotary kilns with varying particle residence time distributions}, journal = {Data in Brief}, volume = {39}, year = {2021}, month = {Jan-12-2021}, pages = {107603}, abstract = {Slow pyrolysis of biomass is commonly performed in rotary kilns. The effect of the particle residence time distribution on biomass conversion is often neglected when numerically modeling such systems. But this effect might be significant under certain conditions. The data presented here are results of numerical simulation of the biomass pyrolysis in rotary kilns under numerous operating conditions and levels of axial dispersion of biomass particles. The varied operating conditions are the kiln diameter (D=0.1{\textendash}1\ m), the ratio of particle to kiln diameter (d/D=5{\texttimes}10-3{\textendash}40{\texttimes}10-3), the ratio of kiln length to kiln diameter (L/D=1{\textendash}10), the kiln{\textquoteright}s inclination angle (β=0.1{\textendash}8o), the Froude number (Fr=10-3{\textendash}10-2), the rotational Reynolds number (Re=102{\textendash}16{\texttimes}103), and the P{\'e}clet number (Pe=5{\textendash}100). Data of 13,851 single case simulations are provided with this article. This includes the mean particle residence time, gas, bed and kiln wall temperatures, solid and gaseous species mass flows, heat fluxes, and the solid bed height over the kiln length. These comprehensive data have the potential to help in modeling, design, analysis, and optimization of rotary kilns used for the pyrolysis of biomass. The main characterization and interpretation is presented in the related main research paper by Pichler et\ al. (2021)[1].
}, issn = {23523409}, doi = {10.1016/j.dib.2021.107603}, url = {https://doi.org/10.1016/j.dib.2021.107603}, author = {Pichler, Mario and Haddadi, Bahram and Jordan, Christian and Norouzi, Hamidreza and Harasek, Michael} } @article {302, title = {Design and Simulation of Gas Burner Ejectors}, journal = {Carbon Resources Conversion}, year = {2021}, month = {Jan-01-2021}, issn = {25889133}, doi = {10.1016/j.crcon.2021.01.006}, url = {10.1016/j.crcon.2021.01.006}, author = {Pichler, Mario and Wesenauer, Florian and Jordan, Christian and Puskas, Stefan and Streibl, Bernhard and Winter, Franz and Harasek, Michael} } @article {293, title = {Effect of particle contact point treatment on the CFD simulation of the heat transfer in packed beds}, journal = {Chemical Engineering Research and Design}, volume = {165}, year = {2021}, month = {Jan-01-2021}, pages = {242 - 253}, issn = {02638762}, doi = {10.1016/j.cherd.2020.11.005}, url = {https://doi.org/10.1016/j.cherd.2020.11.005}, author = {Pichler, Mario and Haddadi, Bahram and Jordan, Christian and Norouzi, Hamidreza and Harasek, Michael} } @conference {325, title = {A generic Euler-Euler multi-phase chemistry framework for OpenFOAM{\textregistered}}, booktitle = {18th Multiphase Flow Conference and Short Course: Simulation, Experiment and Application}, year = {2021}, month = {11/2021}, abstract = {Multi-phase reactive flows are an immanent aspect of chemical engineering applications, e.g. solid fuel conversion, thermo-chemical energy storage, or heterogeneous catalysis. In recent years, applying computational methods for process optimization or intensification has become more popular. Computational Fluid Dynamics (CFD) provides a spatially resolved, steady-state or transient method to investigate complex processes. Flow, temperature, species profiles, and homogeneous chemistry are readily available in common CFD codes. Contrary, heterogeneous chemistry is typically only available in the Eulerian-Lagrangian (EL) modeling approach, while Euler-Euler (EE) implementations of heterogeneous chemistry are hardly available. Despite ever-increasing computational resources, modeling large- or industry-scale aggregates in the EL framework by e.g. CFD-DEM is still prohibitive. As a consequence, EE two-phase or multi-phase models are often employed to reduce the computational effort of granular phases by modeling their rheology with the Kinetic Theory of Granular Flows (KTGF). Providing a generic framework to include heterogeneous chemistry in the EE framework seems crucial to improve the application of CFD in industry-scale process development, optimization, or intensification. In this work, we present our implementation of such a multi-phase chemistry framework in the open-source CFD toolbox OpenFOAM{\textregistered}. The novel framework integrates seamlessly into the stock OpenFOAM{\textregistered} multiphaseEulerFoam solver and provides heterogeneous chemistry models of different complexity. The currently implemented heterogeneous chemistry models focus on gas-solid reactivity and range from detailed chemistry based on the SurfaceCHEMKIN formalism to effective rate approximations. A thorough introduction and discussion of the generic EE multi-phase chemistry framework are followed by an overview of the currently available gas-solid chemistry models. In the last part, we highlight the capabilities of the novel framework by presenting selected reactive multi-phase processes.
}, author = {Markus B{\"o}senhofer and Eva-Maria Wartha and Matthias Kiss and Michael Harasek} } @conference {313, title = {The Influence of Coke Reactivity on the Raceway Size {\textemdash} A Case Study}, booktitle = {AISTech 2021AISTech 2021 Proceedings of the Iron and Steel Technology Conference}, year = {2021}, publisher = {AIST}, organization = {AIST}, doi = {10.33313/38210.33313/382/252-83212-040}, url = {http://digital.library.aist.org/pages/PR-382http://digital.library.aist.org/pages/PR-382-152.htm}, author = {B{\"o}senhofer, M. and Wartha, E. and Hauzenberger, F. and Feilmayr, C. and Stocker, H. and Rieger, J. and Schatzl, M. and Harasek, M.} } @article {305, title = {Influence of Particle Residence Time Distribution on the Biomass Pyrolysis in a Rotary Kiln}, journal = {Journal of Analytical and Applied Pyrolysis}, year = {2021}, month = {Jan-04-2021}, pages = {105171}, issn = {01652370}, doi = {10.1016/j.jaap.2021.105171}, url = {https://doi.org/10.1016/j.jaap.2021.105171}, author = {Pichler, Mario and Haddadi, Bahram and Jordan, Christian and Norouzi, Hamidreza and Harasek, Michael} } @article {314, title = {Modeling the effective thermal conductivity of hollow bricks at high temperatures}, journal = {Construction and Building Materials}, volume = {309}, year = {2021}, pages = {125066}, abstract = {In this work, we derive a model for the anisotropic effective thermal conductivity of bricks based on the unit cell model approach. The presented model considers conduction and surface-to-surface radiation in the brick. Four different radiation models are presented, compared, and validated using fully resolved computational fluid dynamics simulations for three different brick profiles and experiments. Good agreement with fully resolved computational fluid dynamics simulations with and without radiation is found. The validated model was then applied in a global sensitivity study and to simulate the temperature distribution in brick stacks in a tunnel kiln segment under firing conditions.
}, keywords = {Computational fluid dynamics (CFD), Effective thermal conductivity, Global sensitivity study, Hollow bricks, Numerical simulation, Radiation modeling}, issn = {0950-0618}, doi = {https://doi.org/10.1016/j.conbuildmat.2021.125066}, url = {https://www.sciencedirect.com/science/article/pii/S0950061821028117}, author = {Mario Pichler and Bahram Haddadi and Christian Jordan and Michael Harasek} } @article {301, title = {Non-isothermal effectiveness factors in thermo-chemical char conversion}, journal = {Carbon Resources Conversion}, year = {2021}, month = {Jan-01-2021}, issn = {25889133}, doi = {10.1016/j.crcon.2021.01.004}, url = {https://www.sciencedirect.com/science/article/pii/S2588913321000120}, author = {B{\"o}senhofer, Markus and Harasek, Michael} } @proceedings {322, title = {opiTemp: A low budget, open-source optical temperature sensing system}, year = {2021}, month = {04/2021}, pages = {1455-1460}, author = {Markus B{\"o}senhofer and Felix Resch and Thomas Nanz and Michael Harasek} } @proceedings {323, title = {Particle Resolved Thermo-Chemical Conversion of Pulverized Coal Clusters}, year = {2021}, month = {10/2021}, pages = {10}, author = {Matthias Kiss and Markus B{\"o}senhofer and Magdalena Schatzl and Michael Harasek} } @proceedings {318, title = {On the role of heat transfer in the thermo-chemical conversion of pulverized coal}, year = {2021}, month = {10/2021}, pages = {38-49}, author = {Markus B{\"o}senhfoer and Franz Hauzenberger and Christoph Feilmayr and Hugo Stocker and Magdalena Schatzl and Michael Harasek} } @article {297, title = {Solubility Data of Potential Salts in the MgO-CaO-SO2-H2O-O2 System for Process Modeling}, journal = {Processes}, volume = {9}, year = {2021}, month = {Jan-01-2021}, pages = {50}, doi = {10.3390/pr9010050}, url = {https://www.mdpi.com/2227-9717/9/1/50https://www.mdpi.com/2227-9717/9/1/50/pdf}, author = {Wei{\ss}, Barbara D. and Harasek, Michael} } @proceedings {319, title = {Species diffusion modeling in porous particles for metallurgical applications}, year = {2021}, month = {10/2021}, pages = {18-28}, author = {Matthias Kiss and Markus B{\"o}senhofer and Magdalena Schatzl and Michael Harasek} } @article {274, title = {Characteristic Chemical Time Scales for Reactive Flow Modeling}, journal = {Combustion Science and Technology}, year = {2020}, pages = {1-26}, doi = {10.1080/00102202.2020.1760257}, url = {https://doi.org/10.1080/00102202.2020.1760257}, author = {Eva-Maria Wartha and Markus B{\"o}senhofer and Michael Harasek} } @conference {300, title = {Combining an implicit solution with an explicit corrector step for the solution of the continuity equations in a two-fluid solver}, booktitle = {14th International Conference on CFD in 6 Oil \& Gas, Metallurgical and Process Industries SINTEF, Trondheim, Norway, October 12{\textendash}14, 2020}, year = {2020}, publisher = {SINTEF Academic Press}, organization = {SINTEF Academic Press}, address = {Trondheim, Norway}, url = {https://hdl.handle.net/11250/2720854}, author = {Wartha, Eva-Maria and B{\"o}senhofer, Markus and Harasek, Michael} } @article {282, title = {Computation of Global and Local Mass Transfer in Hollow Fiber Membrane Modules}, journal = {Sustainability}, volume = {12}, year = {2020}, month = {Jan-03-2020}, pages = {2207}, doi = {10.3390/su12062207}, url = {https://www.mdpi.com/2071-1050/12/6/2207https://www.mdpi.com/2071-1050/12/6/2207/pdf}, author = {Lukitsch, Benjamin and Ecker, Paul and Elenkov, Martin and Janeczek, Christoph and Haddadi, Bahram and Jordan, Christian and Krenn, Claus and Ullrich, Roman and Gfoehler, Margit and Harasek, Michael} } @article {280, title = {Computational fluid dynamics analysis of char conversion in Sandia{\textquoteright}s pressurized entrained flow reactor}, journal = {Review of Scientific Instruments}, volume = {91}, year = {2020}, month = {Jan-07-2020}, pages = {074103}, issn = {0034-6748}, doi = {10.1063/5.0005733}, url = {http://aip.scitation.org/doi/10.1063/5.0005733}, author = {B{\"o}senhofer, Markus and Hecht, Ethan and Shaddix, Christopher R. and K{\"o}nig, Bernhard and Rieger, Johannes and Harasek, Michael} } @conference {303, title = {Considering Reactions in Design and Simulation of Ejectors}, booktitle = {Proceedings of the 16. Minisymposium Verfahrenstechnik \& 7. Partikelforum}, year = {2020}, isbn = {978-3-903337-01-5}, author = {Pichler, Mario and Wesenauer, Florian and Jordan, Christian and Puskas, Stefan and Streibl, Bernhard and Winter, Franz and Harasek, Michael}, editor = {Jordan, Christian} } @article {284, title = {Estimation Methods for Viscosity, Flow Rate and Pressure from Pump-Motor Assembly Parameters}, journal = {Sensors}, volume = {20}, year = {2020}, month = {Jan-03-2020}, pages = {1451}, doi = {10.3390/s20051451}, url = {https://www.mdpi.com/1424-8220/20/5/1451https://www.mdpi.com/1424-8220/20/5/1451/pdf}, author = {Elenkov, Martin and Ecker, Paul and Lukitsch, Benjamin and Janeczek, Christoph and Harasek, Michael and Gf{\"o}hler, Margit} } @booklet {290, title = {Fallstudie R{\"u}hrerdrehzahl}, year = {2020}, author = {Pichler, Mario and Haddadi, Bahram and Harasek, Michael} } @conference {298, title = {Non-Isothermal Effectiveness Factors in Coal Combustion}, booktitle = {Proceedings of the 16. Minisymposium Verfahrenstechnik \& 7. Partikelforum}, year = {2020}, address = {Vienna, Austria}, isbn = {978-3-903337-01-5}, doi = {10.34726/543}, author = {B{\"o}senhofer, Markus and Harasek, Michael} } @booklet {289, title = {Phase III: CFD Simulation Kalzinator}, year = {2020}, author = {Pichler, Mario and Haddadi, Bahram and Jordan, Christian and Wesenauer, Florian and Winter, Franz and Harasek, Michael} } @conference {281, title = {Pulverized Coal Conversion in Blast Furnaces {\textemdash} Analysis of Involved Scales}, booktitle = {AISTech2020 Proceedings of the Iron and Steel Technology Conference}, year = {2020}, publisher = {AIST}, organization = {AIST}, doi = {10.33313/38010.33313/380/032}, url = {http://digital.library.aist.org/pages/PR-380http://digital.library.aist.org/pages/PR-380-032.htm}, author = {B{\"o}senhofer, M. and Wartha, E. and Jordan, C. and Hauzenberger, F. and Feilmayr, C. and Stocker, H. and Rieger, J. and K{\"o}nig, B. and Harasek, M.} } @conference {299, title = {Region Coupling Algorithms in OpenFoam}, booktitle = {Proceedings of the 16. Minisymposium Verfahrenstechnik \& 7. Partikelforum}, year = {2020}, address = {Vienna, Austria}, isbn = {978-3-903337-01-5}, doi = {10.34726/544}, author = {Kiss, Matthias and B{\"o}senhofer, Markus and Schatzl, Magdalena and Harasek, Michael} } @article {283, title = {Transient simulation and modeling of photovoltaic-PEM water electrolysis}, journal = {Energy Sources, Part A: Recovery, Utilization, and Environmental Effects}, volume = {42}, year = {2020}, month = {Feb-05-2020}, pages = {1097 - 1107}, issn = {1556-7036}, doi = {10.1080/15567036.2019.1602220}, url = {https://www.tandfonline.com/doi/full/10.1080/15567036.2019.1602220https://www.tandfonline.com/doi/pdf/10.1080/15567036.2019.1602220}, author = {Sharifian, Seyedmehdi and Asasian Kolur, Neda and Harasek, Michael} } @booklet {288, title = {Zwischenbericht 1 Projekt TOREtech}, year = {2020}, author = {Puskas, Stefan and Jordan, Christian and Pichler, Mario and Wesenauer, Florian and Streibl, Bernhard and Winter, Franz and Harasek, Michael} } @booklet {287, title = {Zwischenbericht 2 Projekt TOREtech}, year = {2020}, author = {Puskas, Stefan and Jordan, Christian and Pichler, Mario and Wesenauer, Florian and Streibl, Bernhard and Winter, Franz and Harasek, Michael} } @conference {292, title = {Fluid flow simulation in packed bed unit operations in chemical engineering}, booktitle = {AHPC19 booklet of abstracts}, year = {2019}, author = {Jordan, Christian and Pichler, Mario and Haddadi, Bahram and Harasek, Michael} } @proceedings {261, title = {Membrane contactors for biomedical applications}, year = {2019}, publisher = {EWM 2019}, address = {B{\r a}stad, Sweden}, author = {Harasek, Michael and Lukitsch, Benjamin and Ecker, Paul and Janeczek, Christoph and Gf{\"o}hler, Margit} } @conference {249, title = {Mesh Partitioning of Reactive Flow Simulations {\textendash} Speed-up and Other Side Effects}, booktitle = {9th European Combustion Meeting}, year = {2019}, month = {04/2019}, address = {Lisbon, Portugal}, author = {Wartha, E.-M. and B{\"o}senhofer, M. and Jordan, C. and Harasek, M.} } @conference {250, title = {Multi-Phase Reactive Systems {\textendash} Analysis of Involved Time Scales}, booktitle = {9th European Combustion Meeting}, year = {2019}, month = {04/2019}, address = {Lisbon, Portugal}, author = {M. B{\"o}senhofer and Wartha, E.-M. and Jordan, C. and K{\"o}nig, B. and Harasek, M.} } @conference {291, title = {New Method for Numerical Calibration of a Rotary Kiln Model - A Multiscale Approach}, booktitle = {Abstracts}, year = {2019}, author = {Jordan, Christian and Pichler, Mario and Haddadi, Bahram and Norouzi, Hamid R. and Wesenauer, Florian and Weber, Jakob and Winter, Franz and Harasek, Michael} } @conference {254, title = {Pore-forming additives in brick production and their behaviour in the burning process - first results of an ongoing investigation}, booktitle = {15th Minisymposium Verfahrenstechnik}, year = {2019}, month = {04/2019}, address = {Leoben, Austria}, author = {F. Wesenauer and C. Jordan and F. Birkelbach and M. Pichler and M. Harasek and F. Winter} } @conference {251, title = {Pulverized Coal Feeding Vessels - Characterization and Optimization}, booktitle = {AISTech 2019}, year = {2019}, month = {05/2019}, address = {Pittsburgh, PA, USA}, doi = {10.1000/377.042}, author = {B{\"o}senhofer, Markus and Antunes Paiva, In{\^e}s Isabel and Tjaden, Stefan and Jordan, Christian and Harasek, Michael and Rieger, Johannes and Feilmayr, Christoph and Hauzenberger, Franz} } @conference {252, title = {A Raceway Model Based on Open-Source Software}, booktitle = {AISTech 2019}, year = {2019}, month = {05/2019}, address = {Pittsburgh, PA, USA}, doi = {10.1000/377.272}, author = {B{\"o}senhofer, Markus and Wartha, Eva-Maria and Jordan, Christian and Harasek, Michael and Feilmayr, Christoph and Hauzenberger, Franz and K{\"o}nig, Bernhard} } @conference {256, title = {A simple calcination model - implementation and validation in OpenFOAM}, booktitle = {15th Minisymposium Verfahrenstechnik}, year = {2019}, month = {04/2019}, address = {Leoben, Austria}, author = {M. Pichler and B. Haddadi and C. Jordan and M. Haraseka and F. Wesenauer and F. Winter} } @article {248, title = {Suitability of pulverised coal testing facilities for blast furnace applications}, journal = {Ironmaking \& Steelmaking}, year = {2019}, month = {Aug-01-2020}, pages = {1 - 12}, issn = {0301-9233}, doi = {10.1080/03019233.2019.1565152}, url = {https://www.tandfonline.com/doi/full/10.1080/03019233.2019.1565152}, author = {B{\"o}senhofer, Markus and Wartha, Eva-Maria and Jordan, Christian and Feilmayr, Christoph and Stocker, Hugo and Hauzenberger, Franz and Rieger, Johannes and Tjaden, Stefan and Walk, Arleen and Harasek, Michael} } @conference {218, title = {Basic Performance Tests of the MILL Intravascular CO2 Removal Catheter}, booktitle = {2018 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)}, year = {2018}, publisher = {IEEE}, organization = {IEEE}, author = {Janeczek, Christoph and Lukitsch, Benjamin and Huber-Dangl, Florentine and Karabegovic, Alen and Jordan, Christian and Haddadi, Bahram and Ullrich, Roman and Krenn, Claus G. and Gf{\"o}hler, Margit and Harasek, Michael} } @conference {220, title = {CFD Simulation of blood gas transport in a hollowfiber membrane packing for design optimization of intracorporal CO2 removal catheters}, booktitle = {8th World Congress of Biomechanics, WCB 2018}, year = {2018}, address = {Dublin, Ireland}, author = {Harasek, Michael and Lukitsch, Benjamin and Gf{\"o}hler, Margit and Janeczek, Christoph and Karabegovic, Alen and Huber-Dangl, Florentine and Krenn, Claus G. and Ullrich, Roman} } @conference {225, title = {Characterization of Gas Phase Reaction Regime in the Raceway Zone}, booktitle = {AISTech 2018 Proceedings}, year = {2018}, address = {Philadelphia, PA, USA}, author = {B{\"o}senhofer, Markus and Wartha, Eva-Maria and Jordan, Christian and Harasek, Michael and Feilmayr, Christoph and Hauzenberger, Franz} } @inbook {215, title = {Computational Improvements for the Eddy Dissipation Concept by Operator Splitting and Tabulation}, booktitle = {Proceedings of the 28th European Symposium on Computer Aided Process Engineering}, volume = {43}, number = {2010}, year = {2018}, pages = {1687{\textendash}1692}, abstract = {The Eddy Dissipation Concept (EDC) is a well working concept for turbulent reacting flows, which depicts the influence of chemical reactions as well as turbulence. The problem when using detailed chemical mechanisms - necessary for more information about radical species and pollutants - is the vastly increased computational demand. Operator splitting and in situ adaptive tabulation (ISAT) can be a way to reduce the computational effort and improve the application of detailed chemical mechanisms with the EDC. Two operator splitting mechanisms are presented and used for the simulation of Sandia Flame D. The computational time can be decreased and the results fit well to the experimental results.
}, keywords = {Eddy Dissipation Concept (EDC), in situ adaptive tabulation (ISAT), OpenFOAM, operator splitting, turbulent combustion}, isbn = {9780444642356}, issn = {15707946}, doi = {10.1016/B978-0-444-64235-6.50294-1}, author = {Wartha, Eva-Maria and B{\"o}senhofer, Markus and Harasek, Michael} } @proceedings {262, title = {Design of Control Strategies for the CO2 Removal from Blood with an Intracorporeal Membrane Device}, year = {2018}, publisher = {BMEiCON 2018}, address = {Chiang Mai, Thailand}, author = {Harasek, Michael and Elenkov, Martin and Lukitsch, Benjamin and Ecker, Paul and Janeczek, Christoph and Gf{\"o}hler, Margit} } @article {216, title = {The Eddy Dissipation Concept{\textemdash}Analysis of Different Fine Structure Treatments for Classical Combustion}, journal = {Energies}, volume = {11}, year = {2018}, abstract = {The Eddy Dissipation Concept (EDC) is common in modeling turbulent combustion. Several model improvements have been proposed in literature; recent modifications aim to extend its validity to Moderate or Intense Low oxygen Dilution (MILD) conditions. In general, the EDC divides a fluid into a reacting and a non-reacting part. The reacting part is modeled as perfectly stirred reactor (PSR) or plug flow reactor (PFR). EDC theory suggests PSR treatment, while PFR treatment provides numerical advantages. Literature lacks a thorough evaluation of the consequences of employing the PFR fine structure treatment. Therefore, these consequences were evaluated by employing tests to isolate the effects of the EDC variations and fine structure treatment and by conducting a Sandia Flame D modeling study. Species concentration as well as EDC species consumption/production rates were evaluated. The isolated tests revealed an influence of the EDC improvements on the EDC rates, which is prominent at low shares of the reacting fluid. In contrast, PSR and PFR differences increase at large fine fraction shares. The modeling study revealed significant differences in the EDC rates of intermediate species. Summarizing, the PFR fine structure treatment might be chosen for schematic investigations, but for detailed investigations a careful evaluation is necessary.
}, issn = {1996-1073}, doi = {10.3390/en11071902}, url = {http://www.mdpi.com/1996-1073/11/7/1902}, author = {B{\"o}senhofer, Markus and Wartha, Eva-Maria and Jordan, Christian and Harasek, Michael} } @mastersthesis {227, title = {Effect of particle contact point treatment on the heat transfer in packed beds}, year = {2018}, school = {Technische Universit{\"a}t Wien (TUWien)}, type = {masters}, address = {Vienna, Austria}, url = {http://repositum.tuwien.ac.at/obvutwhs/download/pdf/2582224?originalFilename=true}, author = {Pichler, Mario} } @article {217, title = {Engineering of three-dimensional pre-vascular networks within fibrin hydrogel constructs by microfluidic control over reciprocal cell signaling}, journal = {Biomicrofluidics}, volume = {12}, year = {2018}, doi = {10.1063/1.5027054}, author = {Bachmann, Barbara Eva-Maria and Spitz, Sarah and Rothbauer, Mario and Jordan, Christian and Purtscher, Michaela and Zirath, Helene and Schuller, Patrick and Eilenberger, Christoph and Ali, Syed Faheem and M{\"u}hleder, Severin and Oberbauer, Eleni and Harasek, Michael and Redl, Heinz and Holnthoner, Wolfgang and Ertl, Peter} } @conference {255, title = {Influence of Local Contact Point Treatment on Porosity and Pressure Drop in Packed Bed Simulations}, booktitle = {PFAU, Austrian OpenFOAM User Meeting}, year = {2018}, month = {11/2018}, address = {Vienna, Austria}, author = {M. Harasek and M. Pichler and B. Haddadi and H. Norouzi and C. Jordan} } @conference {219, title = {Intravascular Membrane Catehter for CO2 Reduction: In Vitro Tests and First Results}, booktitle = {8th World Congress of Biomechanics, WCB 2018}, year = {2018}, address = {Dublin, Ireland}, author = {Janeczek, Christoph and Karabegovic, Alen and Huber-Dangl, Florentine and Harasek, Michael and Lukitsch, Benjamin and Krenn, Claus G. and Ullrich, Roman and Willinger, Reinhard and Gf{\"o}hler, Margit} } @conference {253, title = {Local Contact Point Treatment in Sphere Packings}, booktitle = {2nd International Symposium on Computational Particle Technology and 13th International Conference on CFD in the Minerals and Process lndustries}, year = {2018}, month = {12/2018}, address = {Melbourne, Australien}, author = {M. Harasek and M. Pichler and B. Haddadi and H. Norouzi and C. Jordan} } @article {260, title = {Membrane modeling using CFD: Combined evaluation of mass transfer and geometrical influences in 1D and 3D}, journal = {Journal of Membrane Science}, volume = {563}, year = {2018}, pages = {199-209}, abstract = {In current literature two main approaches are used for the simulation of membrane contactors. One route considers membrane modules only in 1D for process simulation applications, the other route focuses on 3D simulation of modules using Computational Fluid Dynamics to provide very detailed information about membrane mass transfer or geometrical influences on the module performance. A new CFD algorithm is introduced in the current work. It is capable of performing both 3D and 1D simulations using the same code {\textendash} 1D to be used in fast process simulation applications whereas the 3D method can be applied for fully resolved CFD applications. Using experimental results from pure gas permeation of a hollow fiber module, it was demonstrated that 1D and 3D simulations compare with less than 2\% deviation on a global scale. Based on the 3D simulations, it was found that the arrangement of the fibers can lead to high velocity zones close to the module walls. It was demonstrated that the 1D CFD method performs well even for almost pure gases like CH4 at retentate side, by running simulations of a pilot scale biogas separation module in co- and counter-current configurations.
}, keywords = {Computational Fluid Dynamics, Gas permeation, Module performance, Multicomponent separation, Process simulation}, issn = {03767388}, doi = {10.1016/j.memsci.2018.05.040}, url = {https://www.sciencedirect.com/science/article/pii/S0376738817335998?via\%3Dihub}, author = {Haddadi, Bahram and Jordan, Christian and Miltner, Martin and Harasek, Michael} } @conference {259, title = {The Minimally Invasive Liquid Lung Catheter: In-Vitro Results in a Model Environment}, booktitle = {45th ESAO Congress}, year = {2018}, month = {08/2018}, publisher = {International Journal of Artificial Organs Vol 41}, organization = {International Journal of Artificial Organs Vol 41}, address = {Madrid, Spain}, doi = {10.1177/0391398818785526}, url = {https://journals.sagepub.com/doi/10.1177/0391398818785526}, author = {Janeczek, Christoph and Ecker, Paul and Huber-Dangl, Florentine and Karabegovic, Alen and Lukitsch, Benjamin and Harasek, Michael and Jordan, Christian and Ullrich, Roman and Gf{\"o}hler, Margit} } @conference {236, title = {Physical shape optimization for a three-dimensional ow using a sedimentation-erosion model and the lattice Boltzmann method}, booktitle = {EFMC12 - 12th European Fluid Mechanics Conference}, year = {2018}, address = {Vienna, Austria}, author = {J{\"a}ger, Stephan and Blacher, David and Harasek, Michael} } @conference {223, title = {Problem of Controlling Blood Flow through an Intravascular Membrane Catheter}, booktitle = {2018 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)}, year = {2018}, address = {Honolulu, USA}, author = {Karabegovic, Alen and Lukitsch, Benjamin and Janeczek, Christoph and Huber-Dangl, Florentine and Ecker, Paul and Harasek, Michael and Gf{\"o}hler, Margit} } @conference {224, title = {Pulverized Coal Injection (PCI) Test Facilities and Methods - Overview and Recommendations}, booktitle = {AISTech 2018 Proceedings}, year = {2018}, address = {Philadelphia, PA, USA}, author = {B{\"o}senhofer, Markus and Jordan, Christian and Harasek, Michael and Feilmayr, Christoph and Hauzenberger, Franz and Walk, Arleen and Tjaden, Stefan} } @unpublished {234, title = {Radiation in particle clouds}, number = {1}, year = {2018}, address = {Vienna, Austria}, author = {B{\"o}senhofer, Markus and Jordan, Christian and Harasek, Michael} } @conference {239, title = {Radiative Heating of a Single Coal Particle Under Blast Furnace Conditions}, booktitle = {14th Minisymposium Chemical {\&} Process Engineering}, year = {2018}, isbn = {978-3-200-05641-1}, author = {B{\"o}senhofer, Markus and Jordan, Christian and Harasek, Michael} } @conference {221, title = {Simulation of an Intracorporeal Membrane Catheter for CO2 Reduction in Blood}, booktitle = {15th International Symposium on Computer Methods in Biomechanics and Biomedical Engineering and 3rd Conference on Imaging and Visualization, CMBBE 2018}, year = {2018}, address = {Lisbon, Portugal}, author = {Harasek, Michael and Gf{\"o}hler, Margit and Lukitsch, Benjamin and Janeczek, Christoph and Karabegovic, Alen and Huber-Dangl, Florentine and Krenn, Claus G. and Ullrich, Roman} } @article {226, title = {Simultaneous Laser Doppler Velocimetry and stand-off Raman spectroscopy as a novel tool to assess flow characteristics of process streams}, journal = {Chemical Engineering Journal}, volume = {334}, year = {2018}, pages = {123{\textendash}133}, doi = {10.1016/j.cej.2017.10.027}, author = {Haddadi, Bahram and Gasser, Christoph and Jordan, Christian and Harasek, Michael and Lendl, Bernhard} } @unpublished {229, title = {TUW-IVT and K1-MET - Cooperation Highlights}, number = {1}, year = {2018}, author = {Harasek, Michael and B{\"o}senhofer, Markus and Wartha, Eva-Maria and Jordan, Christian} } @unpublished {208, title = {CFD @ TU Wien}, year = {2017}, author = {Harasek, Michael and Haddadi, Bahram and Jordan, Christian and Harsfalvi, Zsolt and B{\"o}senhofer, Markus and Lukitsch, Benjamin and Wartha, Eva-Maria and Ecker, Paul and Pichler, Mario} } @conference {231, title = {Computational fluid dynamic analysis of cooling in a mixed vessel using a non-Newtonian medium}, booktitle = {VSS 2017 - Vienna young Scientists Symposium}, year = {2017}, address = {Vienna, Austria}, isbn = {978-3-9504017-5-2}, author = {Harsfalvi, Zsolt and Jordan, Christian and Haddadi, Bahram and Harasek, Michael} } @article {197, title = {Computational fluid dynamic analysis of cooling in a mixed vessel using a non-Newtonian medium}, journal = {Chemical Engineering Transactions}, volume = {61}, year = {2017}, pages = {565{\textendash}570}, doi = {10.3303/CET1761092}, author = {Harsfalvi, Zsolt and Jordan, Christian and Haddadi, Bahram and Harasek, Michael} } @unpublished {205, title = {Computational Fluid Dynamic Analysis of Cooling in a Mixed Vessel using a Non-Newtonian Medium}, year = {2017}, author = {Harsfalvi, Zsolt and Jordan, Christian and Haddadi, Bahram and Harasek, Michael} } @article {195, title = {Cost efficient CFD simulations: Proper selection of domain partitioning strategies}, journal = {Computer Physics Communications}, volume = {219}, year = {2017}, pages = {121{\textendash}134}, doi = {10.1016/j.cpc.2017.05.014}, author = {Haddadi, Bahram and Jordan, Christian and Harasek, Michael} } @conference {240, title = {Difficulties in the characterization of gas phase combustion regimes}, booktitle = {13th Minisymposium Chemical and Process Engineering}, year = {2017}, author = {B{\"o}senhofer, Markus and Jordan, Christian and Harasek, Michael} } @unpublished {206, title = {Einsatz von CFD zur Verfahrensoptimierung}, year = {2017}, author = {Jordan, Christian and Harasek, Michael} } @conference {222, title = {Experimental study of fouling issues in a biomass pellet driven Stirling engine}, booktitle = {5. Central European Biomass Conference}, year = {2017}, address = {Graz, Austria}, isbn = {978-3-9504380-1-7}, author = {Mair, Christine and Riepl, Rosemarie and Aigenbauer, Stefan and H{\"o}ftberger, Ernst and Weissinger, Alexander and Schmidl, Christoph and Haslinger, Walter and Jordan, Christian and Harasek, Michael} } @unpublished {230, title = {Feasibility study of the {$\Gamma-Re_\Theta$} turbulence model for internal mixing}, number = {15}, year = {2017}, author = {Ecker, Paul and Haddadi, Bahram and Jordan, Christian and Harasek, Michael} } @conference {199, title = {A Flame D Modelling Study Employing Eddy Dissipation Concept Modifications}, booktitle = {Digital Proceedings}, year = {2017}, isbn = {978-953-59504-1-7}, author = {B{\"o}senhofer, Markus and Jordan, Christian and Harasek, Michael} } @conference {237, title = {Grid Dependency Study in CFD Computation of Flow Structure in a T-Mixer}, booktitle = {13th Minisymposium Chemical and Process Engineering}, year = {2017}, address = {Innsbruck, Austria}, author = {Haddadi, Bahram and Jordan, Christian and Harasek, Michael} } @unpublished {228, title = {Heat transfer in stirred reactors (using Non{\&}{\#}8208;Newtonian Medium)}, number = {14}, year = {2017}, author = {Harsfalvi, Zsolt and Jordan, Christian and Haddadi, Bahram and Harasek, Michael} } @conference {201, title = {Impact of CFD Partitioning Strategies on Power Efficiency of High Performance Computing}, booktitle = {Proceedings}, year = {2017}, author = {Haddadi, Bahram and Jordan, Christian and Harasek, Michael} } @conference {200, title = {Intracorporeal Membrane Catheter for CO2 Reduction in the Blood - Drive Unit and Control System}, booktitle = {International Journal of Artificial Organs}, year = {2017}, doi = {10.5301/ijao.5000641}, url = {http://publik.tuwien.ac.at/files/publik_267186.pdf}, author = {Gf{\"o}hler, Margit and Janeczek, Christoph and Karabegovic, Alen and Futter, Livia and Harasek, Michael and Haddadi, Bahram and Jordan, Christian and Krenn, Claus G. and Neudl, Susanna and Ullrich, Roman} } @article {196, title = {Intracorporeal Membrane Catheter for CO$_{2}$ Reduction in a Blood-Membrane Contactor}, journal = {International Journal of Artificial Organs}, volume = {40}, year = {2017}, pages = {414}, doi = {10.5301/ijao.5000629}, author = {Harasek, Michael and Haddadi, Bahram and Jordan, Christian and Gf{\"o}hler, Margit and Janeczek, Christoph and Karabegovic, Alen and Futter, Livia and Krenn, Claus-Georg and Neudl, Susanna and Ullrich, Robert} } @conference {204, title = {Intracorporeal Membrane Catheter for CO$_{2}$ Reduction in a Blood-Membrane Contactor}, booktitle = {ESAO 2017 - 44th Annual Congress of the European Society for Artificial Organs}, year = {2017}, address = {Vieanna, Austria}, author = {Harasek, Michael and Haddadi, Bahram and Jordan, Christian and Halmschlager, Verena and Gf{\"o}hler, Margit and Janeczek, Christoph and Karabegovic, Alen and Futter, Livia and Krenn, Claus-Georg and Neudl, Susanna and Ullrich, Robert} } @unpublished {241, title = {Laminar/turbulent transition}, number = {14}, year = {2017}, author = {Lukitsch, Benjamin and Harasek, Michael} } @unpublished {235, title = {Multi-phase Reacting Flows in OpenFOAM{\textregistered}}, number = {14}, year = {2017}, author = {B{\"o}senhofer, Markus and Jordan, Christian and Harasek, Michael} } @conference {232, title = {Numerical Investigation of Particle Types Influence on Packed Bed Adsorber Behaviour}, booktitle = {12th International Conference on CFD in Oil {\&} Gas, Metallurgical and Process Industries}, year = {2017}, address = {Trondheim, Norway}, isbn = {978-82-536-1544-8}, author = {Haddadi, Bahram and Jordan, Christian and Norouzi, Hamid R. and Harasek, Michael} } @conference {202, title = {Numerical Investigation of Particle Types Influence on Packed Bed Adsorber Behaviour}, booktitle = {Proceedings}, year = {2017}, author = {Haddadi, Bahram and Jordan, Christian and Norouzi, Hamid R. and Harasek, Michael} } @conference {203, title = {Numerical investigation of transitional turbulent mixing}, booktitle = {AHPC 17}, year = {2017}, author = {Jordan, Christian and Haddadi, Bahram and Harasek, Michael} } @conference {198, title = {The Relevance of Reaction Mechanisms in the CFD Modelling of Blast Furnaces}, booktitle = {Proceedings}, year = {2017}, author = {B{\"o}senhofer, Markus and Harasek, Michael and Jordan, Christian and Feilmayr, Christoph and Hauzenberger, Franz} } @conference {233, title = {Sensor positions killing your plant performance?}, booktitle = {EuroPACT 2017 - 4th European Conference on Process Analytics and Control Technology}, year = {2017}, address = {Potsdam, Germany}, author = {Jordan, Christian and Haddadi, Bahram and Harasek, Michael} } @mastersthesis {207, title = {A Study on New Developments and Chemical Time Scale Definitions for the Eddy Dissipation Concept}, year = {2017}, school = {Institut f{\"u}r Verfahrenstechnik, Umwelttechnik und Technische Biowissenschaften}, type = {masters}, author = {Wartha, Eva-Maria} } @conference {238, title = {Towards Generic Reactive Flow Modelling}, booktitle = {VSS 2017 - Vienna young Scientists Symposium}, year = {2017}, address = {Vienna, Austria}, isbn = {978-3-9504017-5-2}, author = {B{\"o}senhofer, Markus and Jordan, Christian and Harasek, Michael} } @article {39, title = {Designing Better Membrane Modules Using CFD}, journal = {Chemical Product and Process Modeling}, volume = {11}, year = {2016}, pages = {57{\textendash}66}, doi = {10.1515/cppm-2015-0066}, author = {Haddadi, Bahram and Jordan, Christian and Schretter, Philipp and Lassmann, Tino and Harasek, Michael} } @article {139, title = {Fully Resolved CFD Simulation of a Hollow Fibre Membrane Module}, journal = {Chemical Engineering Transactions}, volume = {52}, year = {2016}, pages = {433{\textendash}438}, doi = {10.3303/CET1652073}, author = {Harasek, Michael and Haddadi, Bahram and Miltner, Martin and Schretter, Philipp and Jordan, Christian} } @conference {177, title = {Investigation of Alternative Reducing Agent Conversion in the Raceway Cavity of Blast Furnaces by Numerical Simulation}, booktitle = {Proceedings}, year = {2016}, author = {Harasek, Michael and Maier, Christian and Jordan, Christian and B{\"o}senhofer, Markus and Feilmayr, Christoph} } @article {138, title = {Investigation of the Pressure Drop of Random Packed Bed Adsorbers}, journal = {Chemical Engineering Transactions}, volume = {52}, year = {2016}, pages = {439{\textendash}444}, doi = {10.3303/CET1652074}, author = {Haddadi, Bahram and Jordan, Christian and Norouzi, Hamid R. and Harasek, Michael} } @article {148, title = {Optimierung eines biomassebefeuerten Stirling-Motors}, journal = {Chemie Ingenieur Technik}, volume = {88}, year = {2016}, pages = {1387{\textendash}1388}, doi = {10.1002/cite.201650479}, author = {Jordan, Christian and Harasek, Michael} } @article {50, title = {CFD simulation of straight and slightly swirling turbulent free jets using different RANS-turbulence models}, journal = {Applied Thermal Engineering}, volume = {89}, year = {2015}, pages = {1117{\textendash}1126}, doi = {10.1016/j.applthermaleng.2015.05.048}, author = {Miltner, Martin and Jordan, Christian and Harasek, Michael} } @conference {56, title = {Designing Better Membrane Modules Using CFD}, booktitle = {Proceeding Book}, year = {2015}, author = {Haddadi, Bahram and Jordan, Christian and Schretter, Philipp and Lassmann, Tino and Harasek, Michael} } @conference {55, title = {Numerical Simulation of Adsorption Phenomena Using Multi-Region Approach}, booktitle = {Proceedings}, year = {2015}, isbn = {978-3-200-04069-4}, author = {Haddadi, Bahram and Jordan, Christian and Harasek, Michael} } @article {38, title = {Numerische Simulation des Konzentrations- \& und Str{\"o}mungsprofiles in einem Festbettadsorber}, journal = {Chemie Ingenieur Technik}, volume = {87}, year = {2015}, pages = {1040}, doi = {10.1002/cite.201550083}, author = {Haddadi, Bahram and Jordan, Christian and Harasek, Michael} } @article {147, title = {Optimale Lamellenfl{\"a}che eines Radialw{\"a}rmetauschers f{\"u}r einen biomassebefeuerten Stirling-Motor}, journal = {Chemie Ingenieur Technik}, volume = {87}, year = {2015}, pages = {1044}, doi = {10.1002/cite.201550082}, author = {Jordan, Christian and Harasek, Michael} } @article {162, title = {On the Applicability of RANS-Turbulence Models in CFD Simulations for the Description of Turbulent Free Jets During Biomass Combustion}, journal = {Chemical Engineering Transactions}, volume = {39}, year = {2014}, pages = {913{\textendash}918}, doi = {10.3303/CET1439153}, author = {Miltner, Martin and Jordan, Christian and Harasek, Michael} } @article {160, title = {CFD-Simulation der Biomasseverbrennung unter Anwendung leistungsf{\"a}higer Modellans{\"a}tze}, journal = {Chemie Ingenieur Technik}, volume = {86}, year = {2014}, pages = {1618{\textendash}1619}, doi = {10.1002/cite.201450516}, author = {Miltner, Martin and Harasek, Michael} } @article {136, title = {Collocation Method for the Modeling of Membrane Gas Permeation Systems}, journal = {International Journal of Nonlinear Sciences and Numerical Simulation}, volume = {15}, year = {2014}, pages = {307{\textendash}316}, doi = {10.1515/ijnsns-2013-0113}, author = {Feichtinger, Anna and Makaruk, Aleksander and Weinm{\"u}ller, Ewa and Friedl, Anton and Harasek, Michael} } @article {42, title = {Optical and Numerical Analysis of Droplet Breakup}, journal = {Chemical Engineering Transactions}, volume = {39}, year = {2014}, pages = {1735{\textendash}1740}, doi = {10.3303/CET1439290}, author = {Jordan, Christian and Maier, Christian and Harsfalvi, Zsolt and Kiss, Bence and Harasek, Michael} } @article {151, title = {Determination of mixing quality in biogas plant digesters using tracer tests and computational fluid dynamics}, journal = {Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis}, volume = {140}, year = {2013}, pages = {1269{\textendash}1278}, doi = {10.11118/actaun201361051269}, author = {Kamarad, Ludek and Pohn, Stefan and Bochmann, G{\"u}nther and Harasek, Michael} } @article {156, title = {Investigation of Alternative Reducing Agent Injection into the Raceway of Blast Furnaces using CFD}, journal = {Chemical Engineering Transactions}, volume = {35}, year = {2013}, pages = {1345{\textendash}1350}, doi = {10.3303/CET1335224}, author = {Maier, Christian and Jordan, Christian and Harasek, Michael and Feilmayr, Christoph and Thaler, Christoph} } @article {47, title = {Numerical and Experimental Study of Alternative Reductant Injection into the Raceway of the Blast Furnace}, journal = {BHM Berg- und H{\"u}ttenm{\"a}nnische Monatshefte}, volume = {158}, year = {2013}, pages = {453{\textendash}454}, doi = {10.1007/s00501-013-0191-3}, author = {Maier, Christian and Jordan, Christian and Knepper, M. and Babich, A. and Senk, D. and Feilmayr, Christoph and Thaler, Christoph and Harasek, Michael} } @article {45, title = {Implementation and Validation of a Three-Dimensional Multiphase-CFD-Model for Blast Furnace Processes}, journal = {Chemical Engineering Transactions}, volume = {29}, year = {2012}, pages = {925{\textendash}930}, author = {Maier, Christian and Jordan, Christian and Harasek, Michael and Feilmayr, Christoph and Thaler, Christoph} } @article {52, title = {Turbulent Phenomena in the Aerobreakup of Liquid Droplets}, journal = {CFD Letters}, volume = {4}, year = {2012}, pages = {112{\textendash}126}, author = {Nagy, Jozsef and Horvath, Andras and Jordan, Christian and Harasek, Michael} } @proceedings {91, title = {Injection of heavy fuel oil and other auxiliary reduction agents into a blast furnace raceway}, year = {2011}, author = {Jordan, Christian and Harasek, Michael and Maier, Christian and Feilmayr, Christoph and Schuster, Stefan} } @article {41, title = {CFD Analysis of Injection of Heavy Fuel Oil and Plastic Particles into a Blast Furnace Raceway - Estimation of Droplet Size Distribution}, journal = {Chemical Engineering Transactions}, volume = {21}, year = {2010}, pages = {1087{\textendash}1092}, doi = {10.3303/CET1021182}, author = {Jordan, Christian and Harasek, Michael and Zauner, Florian and Kirchbacher, Florian and Feilmayr, Christoph and Schuster, Stefan} } @conference {172, title = {CFD simulation of bubble columns using a VOF model}, booktitle = {CFD 2010 - Proceedings}, year = {2010}, isbn = {978-989-96778-1-4}, author = {Harasek, Michael and Horvath, Andras and Jordan, Christian and Kuttner, Christian} } @conference {58, title = {Combined injection of plastic particles and heavy fuel oil into a blast furnace raceway - detailed CFD analysis}, booktitle = {CFD 2010 - Proceedings}, year = {2010}, isbn = {978-989-96778-1-4}, author = {Jordan, Christian and Harasek, Michael and El-Gohary-Ahmed, Amal and Feilmayr, Christoph and Schuster, Stefan} } @article {48, title = {Development of Agitation Systems in Biogas Plants : Investigation of Mixing Characteristics, Improvement of Energy Efficiency and Scale-up using CFD}, journal = {Chemical Engineering Transactions}, volume = {21}, year = {2010}, pages = {1195{\textendash}1200}, doi = {10.3303/CET1021200}, author = {Maier, Christian and Weichselbaum, Wolfgang and Schlerka, Martin and Harasek, Michael} } @article {40, title = {Improvement of a Combustion Unit Based on a Grate Furnace for Granular Dry Solid Biofuels Using CFD Methods}, journal = {Heat Transfer Engineering}, volume = {31}, year = {2010}, pages = {774{\textendash}781}, doi = {10.1080/01457630903501062}, author = {Jordan, Christian and Harasek, Michael} } @conference {176, title = {Investigation of the SO$_{2}$ Production Process by Combustion of Sulphur - Containing Substances Using CFD}, booktitle = {Sulphur 2010 Technical Preprints}, year = {2010}, url = {http://publik.tuwien.ac.at/files/PubDat_194257.pdf}, author = {Harasek, Michael and Maier, Christian and Haberfelner, Heinz} } @article {44, title = {Process-Simulation and Computational Fluid Dynamics for the Development of a Novel Solid Biomass-Fired Combustor}, journal = {Chemical Engineering Transactions}, volume = {21}, year = {2010}, pages = {1093{\textendash}1098}, doi = {10.3303/CET1021183}, author = {Kuttner, Christian and Miltner, Martin and Harasek, Michael and Friedl, Anton} } @article {145, title = {CFD Simulation of Bubble Columns using the VOF Model : Comparison of commercial and Open Source Solvers with an Experiment}, journal = {Chemical Engineering Transactions}, volume = {18}, year = {2009}, pages = {605{\textendash}610}, doi = {10.3303/CET0918098}, author = {Horvath, Andras and Jordan, Christian and Lukasser, Michael and Kuttner, Christian and Makaruk, Aleksander and Harasek, Michael} } @conference {173, title = {CFD Simulation einer Blasens{\"a}ule mit dem VOF Modell - Fluent vs. OpenFOAM vs. Experiment}, booktitle = {Chemie Ingenieur Technik}, year = {2008}, publisher = {Wiley-VCH}, organization = {Wiley-VCH}, address = {9}, author = {Harasek, Michael and Horvath, Andras and Jordan, Christian and Kuttner, Christian and Lukasser, Michael} } @article {163, title = {Computational fluid dynamic simulation of a solid biomass combustor: modelling approaches}, journal = {Clean Technologies and Environmental Policy}, volume = {10}, year = {2008}, pages = {165{\textendash}174}, author = {Miltner, Martin and Makaruk, Aleksander and Harasek, Michael and Friedl, Anton} } @article {144, title = {Influence of Vortex-Finder Diameter on Axial Gas Flow in Simple Cyclone}, journal = {Chemical Product and Process Modeling}, volume = {3}, year = {2008}, author = {Horvath, Andras and Jordan, Christian and Harasek, Michael} } @article {143, title = {CFD methods for the reduction of reactive gas emission from a paper laminating machine}, journal = {Journal of Hazardous Materials}, volume = {144}, year = {2007}, pages = {687{\textendash}691}, author = {Horvath, Andras and Jordan, Christian and Forstner, Gerhard and Altacher, Peter and Harasek, Michael} } @conference {175, title = {Evaluation of the High Temperature Conversion of Plastic Particles after Injection into Blast Furnace Raceway Using CFD Simulations}, booktitle = {Prc.of AIChE Annual Meeting}, year = {2007}, author = {Harasek, Michael and Jordan, Christian and Winter, Franz and Aichinger, Georg and Feilmayr, Christian and Schuster, Stefan} } @article {164, title = {Process simulation and CFD calculations for the development of an innovative baled biomass-fired combustion chamber}, journal = {Applied Thermal Engineering}, volume = {27}, year = {2007}, pages = {1138{\textendash}1143}, author = {Miltner, Martin and Miltner, Angela and Harasek, Michael and Friedl, Anton} } @conference {190, title = {CFD simulation of a solid biomass combustor: modelling approaches for the reduction of emissions and maximisation of the thermal efficiency}, booktitle = {Summaries 4 - System Engineering}, year = {2006}, author = {Miltner, Martin and Miltner, Angela and Makaruk, Aleksander and Harasek, Michael and Friedl, Anton} } @conference {188, title = {CFD-modelling for the combustion of solid baled biomass}, booktitle = {Fifth International Conference on CFD in the Process Industries CSIRO}, year = {2006}, author = {Miltner, Martin and Makaruk, Aleksander and Harasek, Michael and Friedl, Anton} } @conference {170, title = {Control of emission of reactive gas from a paper laminating machine by use of CFD}, booktitle = {Chemical Industry and Environment V (5th European meeting on Chemical Industry and Environment)}, year = {2006}, publisher = {Vienna University of Technology}, organization = {Vienna University of Technology}, address = {Horn, Austria}, isbn = {3900554579}, author = {Horvath, Andras and Jordan, Christian and Forstner, Gerhard and Altacher, Peter and Harasek, Michael}, editor = {H{\"o}flinger, Wilhelm} } @conference {178, title = {Emissionsreduktion von Reaktivgas aus einer Laminiermaschine mit Hilfe von CFD}, booktitle = {GVC/Dechema-Jahrestagungen 2006}, year = {2006}, publisher = {Chemie Ingenieur Technik/Wiley-VCH Verlag}, organization = {Chemie Ingenieur Technik/Wiley-VCH Verlag}, address = {78/9}, author = {Horvath, Andras and Jordan, Christian and Harasek, Michael} } @article {154, title = {NOx formation in natural gas combustion - a new simplified reaction scheme for CFD calculations}, journal = {Fuel}, volume = {85}, year = {2006}, pages = {513{\textendash}523}, doi = {10.1016/j.fuel.2005.07.012}, author = {L{\"o}ffler, Gerhard and Sieber, Richard and Harasek, Michael and Hofbauer, Hermann and Hauss, R. and Landauf, J} } @conference {189, title = {Optimierung einer innovativen Verbrennungsanlage f{\"u}r ballenf{\"o}rmige Biomassen mittels Prozesssimulation und CFD}, booktitle = {GVC/DECHEMA-Jahrestagungen 2006}, year = {2006}, publisher = {Chemie Ingenieur Technik/Wiley-VCH Verlag}, organization = {Chemie Ingenieur Technik/Wiley-VCH Verlag}, address = {78/9}, author = {Miltner, Martin and Miltner, Angela and Harasek, Michael and Friedl, Anton} } @article {135, title = {Processing and simulation of few nm thick high-k dielectric films}, journal = {Microelectronic Engineering}, volume = {83}, year = {2006}, pages = {1571{\textendash}1572}, author = {Abermann, Stephan and Jordan, Christian and Harasek, Michael and Bertagnolli, Emmerich} } @conference {186, title = {Behandlung von turbulenten Drall-Freistrahlen mit CFD}, booktitle = {Chemie Ingenieur Technik}, year = {2005}, publisher = {WILEY-VCH}, organization = {WILEY-VCH}, address = {8}, author = {Miltner, Martin and Jordan, Christian and Potetz, Angela and Harasek, Michael} } @conference {184, title = {Modellierung turbulenter Freistrahlen mit numerischer Str{\"o}mungssimulation (CFD)}, booktitle = {Chemie Ingenieur Technik}, year = {2005}, publisher = {WILEY-VCH}, organization = {WILEY-VCH}, address = {8}, author = {Jordan, Christian and Miltner, Martin and Potetz, Angela and Harasek, Michael} } @article {153, title = {NOx Formation in Natural Gas Combustion-Evaluation of Simplified Reaction Schemes for CFD Calculations}, journal = {Industrial {\&} Engineering Chemistry Research}, volume = {44}, year = {2005}, pages = {6622{\textendash}6633}, author = {L{\"o}ffler, Gerhard and Sieber, Richard and Harasek, Michael and Hofbauer, Hermann and Hauss, R. and Landauf, J} } @conference {174, title = {Numerische Simulation der Ranque-Hilsch-Vortextube}, booktitle = {Chemie Ingenieur Technik}, year = {2005}, publisher = {WILEY-VCH}, organization = {WILEY-VCH}, address = {8}, author = {Harasek, Michael and Jordan, Christian and Raubik, Gregory} } @conference {185, title = {Predicting the pressure drop of cyclones by combined application of computational fluid dynamics and chemometric methods}, booktitle = {Conferentia Chemometrica 2005, Chemometrics VII}, year = {2005}, isbn = {9637067124}, author = {Maier, Christine and Jordan, Christian and Harasek, Michael and Varmuza, Kurt} } @conference {187, title = {Process Simulation And CFD Calculations For The Development Of An Innovative Baled Biomass-Fired Combustion Chamber}, booktitle = {Chemical Engineering Transactions}, year = {2005}, publisher = {AIDIC servizi SRL}, organization = {AIDIC servizi SRL}, address = {7}, isbn = {88-900775-8-1}, author = {Miltner, Martin and Kerschbaum, Angela and Jordan, Christian and Harasek, Michael and Friedl, Anton} } @conference {169, title = {CFD-simulation of a baled biomass-fired furnace: Combustion modelling and design optimisation for the reduction of emissions}, booktitle = {Second World Biomass Conference Rome}, year = {2004}, publisher = {2nd World Conference and Technology Exhibition on Biomass for Energy, Industry and Climate Protection}, organization = {2nd World Conference and Technology Exhibition on Biomass for Energy, Industry and Climate Protection}, address = {Florence}, isbn = {88-89407-04-2}, author = {Harasek, Michael and Miltner, Martin and Jordan, Christian and Friedl, Anton} } @conference {183, title = {Combined Application of Computational Fluid Dynamics Simulations and Chemometric Methods in Cyclone Design}, booktitle = {Symposium on Computer Applications and Chemometrics in Analytical Chemistry}, year = {2004}, isbn = {963-9495-56-5}, author = {Horvath, Andras and Jordan, Christian and Harasek, Michael and Varmuza, Kurt} } @conference {167, title = {Investigation of dependence of gas flow on the geometry of cyclonic separators by CFD simulations}, booktitle = {CHISA 2004 - 16\textsuperscript{th} International Congress of Chemical and Process Engineering}, year = {2004}, publisher = {Czech Society of Chemical Engineering}, organization = {Czech Society of Chemical Engineering}, address = {Prague, Czech Republic}, isbn = {80-86059-40-5}, author = {Harasek, Michael and Horvath, Andras and Jordan, Christian} } @conference {182, title = {Gas Cleaning in Absorption Columns with Structured Packing}, booktitle = {Chemical Industry and Environment IV, 2nd Volume}, year = {2003}, publisher = {Proceedings}, organization = {Proceedings}, author = {Siminiceanu, I and Dragan, M and Friedl, Anton and Harasek, Michael and Dragan, S} } @conference {180, title = {CDF-Simulation of Mass Transfer Effects in Gas and Vapour Permeation Moduls}, booktitle = {ICOM 2002}, year = {2002}, author = {Staudacher, Max and Harasek, Michael and Brinkmann, Torsten and Hilgendorff, W and Friedl, Anton} } @article {166, title = {CFD-simulation of mass transfer effects in gas and vapour permeation modules}, journal = {Desalination}, volume = {146}, year = {2002}, pages = {237{\textendash}241}, author = {Staudacher, Max and Harasek, Michael and Brinkmann, Torsten and Hilgendorff, W and Friedl, Anton} } @conference {181, title = {CFD-Simulation of Membrane Modules in Gas and Vapor Permeation: Comparison of the Influence of different Geometries on Mass Transfer through Membranes}, booktitle = {Book of Abstracts}, year = {2002}, publisher = {Proceedings}, organization = {Proceedings}, author = {Staudacher, Max and Harasek, Michael and Brinkmann, Torsten and Hilgendorff, W and Friedl, Anton} } @conference {179, title = {Hydrodynamics of Absorption Columns with Structured Packing}, booktitle = {Book of Abstracts Volume I, OP025}, year = {2002}, publisher = {3rd International Conference of the Chemical Societies of the South-Eastern European Countries on Chemistry in the New Millennium - an Endless Frontier}, organization = {3rd International Conference of the Chemical Societies of the South-Eastern European Countries on Chemistry in the New Millennium - an Endless Frontier}, address = {Bucharest, Romania}, author = {Siminiceanu, I and Dragan, M and Dragan, S and Friedl, Anton and Harasek, Michael} } @article {140, title = {CFD-Simulation of Preparative Chromatographic Columns: Effect of the Distributor and the Column Design on the Separation Performance}, journal = {Chemie Ingenieur Technik}, volume = {6}, year = {2001}, pages = {639}, author = {Harasek, Michael and Paul, Jan and Jordan, Christian and Friedl, Anton} } @article {20, title = {Design, simulation and application of a new micromixing device for time resolved infrared spectroscopy of chemical reactions in solution}, journal = {Lab on a Chip}, volume = {1}, year = {2001}, pages = {16{\textendash}21}, abstract = {We present a novel micromachined fast diffusion based mixing unit for the study of rapid chemical reactions in solution with stopped-flow time resolved Fourier transform infrared spectroscopy (TR-FTIR). The presented approach is based on a chip for achieving lamination of two liquid sheets of 10 μm thickness and \~{}1 mm width on top of each other and operation in the stopped-flow mode. The microstructure is made on infrared transmitting calcium fluoride discs and built up with two epoxy negative photoresist layers and one silver layer in between. Due to the highly laminar flow conditions and the short residence time in the mixer there is hardly any mixing when the two liquid streamlines pass through the mixing unit, which allows one to record a mid-IR transmission spectrum of the analytes prior to reaction. When the flow is stopped, the reactant streams are arrested in the flow-cell and rapidly mixed by diffusion due to the reduced interstream distances and the reaction can be directly followed with hardly any dead time. On the basis of two model reactions{\textemdash}neutralisation of acetic acid with sodium hydroxide as well as saponification of methyl monochloroacetate{\textemdash}the performance of the mixing device was tested revealing proper functioning of the device with a time for complete mixing of less than 100 ms. The experimental results were supported by numerical simulations using computational fluid dynamics (CFD), which allowed a reliable, quantitative analysis of concentration, pressure and flow profiles in the course of the mixing process.
}, doi = {http://dx.doi.org/10.1039/b104391a}, author = {Hinsmann, Peter and Frank, Johannes and Svasek, Peter and Harasek, Michael and Lendl, Bernhard} } @article {141, title = {Exit Geometry Effects on the Fluidization on Fine Particles in CFB Reaktor: Analysis by Semi-Theoretical and CFD Modeling}, journal = {Chemie Ingenieur Technik}, volume = {6}, year = {2001}, pages = {628}, author = {Harasek, Michael and Schausberger, Paul and Jordan, Christian and Winter, Franz} } @article {24, title = {Fluiddynamische Simulation in der Membrantechnik}, year = {2001}, abstract = {In Zusammenarbeit mit dem Institut f{\"u}r Chemie des HGF Forschungszentrums GKSS wurden mit Hilfe des Softwarepakets FLUENT Untersuchungen an Membranmodulen zur Gasaufbereitung vorgenommen. Der transmembrane Stofftransport wurde mit sogenannten {\quotedblbase}user defined functions{\textquotedblleft} (UDF) modelliert.
}, author = {Staudacher, Max and Harasek, Michael and Brinkmann, Torsten and Hilgendorff, Walter} } @article {142, title = {Modeling and optimisation of novel membrane/adsorbent-based extracorporeal blood purification devices by computational fluid dynamics}, journal = {International Journal of Artificial Organs}, volume = {24}, year = {2001}, pages = {551}, author = {Harasek, Michael and Strobl, W and Friedl, Anton and Falkenhagen, Dieter} } @article {23, title = {Str{\"o}mungen in Sch{\"u}ttungen und Faserb{\"u}ndeln}, year = {2001}, abstract = {Im Hinblick auf eine Optimierung des Designs sollte das Str{\"o}mungsverhalten in Dialyse- und Chromatographiemodule berechnet werden. Einer der Schwerpunkte dieser Analyse war auch die Frage, in wie weit Membranen und por{\"o}se Sch{\"u}ttungsschichten vereinfacht abgebildet werden k{\"o}nnen, um dennoch richtige Aussagen f{\"u}r An- und Abstr{\"o}mbereiche zu erhalten.
}, author = {Jordan, Christian and Paul, Georg and Flannery, Connor and Friedl, Anton and Harasek, Michael} } @article {22, title = {Fluiddynamische Aspekte eines Flugstromreaktors}, year = {2000}, abstract = {Aufgabe dieser Arbeit war es, eine technisch realisierte Rauchgas-Trockensorptionsanlage mit Hilfe der numerischen Str{\"o}mungssimulation eingehend zu untersuchen. Schwerpunkt der Berechnungen waren das Verhalten der Str{\"o}mung im Diffusor (Abl{\"o}sungserscheinungen), die Simulation der partikelbeladenen Gasstr{\"o}mung und die Turbulenzmodellierung.
}, author = {Jordan, Christian and Friedl, Anton and Harasek, Michael} } @article {21, title = {Untersuchung der Str{\"o}mungsabl{\"o}sung in dreidimensionalen, runden Diffusoren mit Hilfe numerischer Str{\"o}mungssimulation}, year = {1999}, type = {Report}, abstract = {In dreidimensionalen, kreisrunden Diffusoren mit konstantem Verh{\"a}ltnis der Einlauf- und Auslaufquerschnitte wurden die Aufweitungswinkel variiert, um festzustellen, ab welchem keine Str{\"o}mungsabl{\"o}sung mehr auftritt. Als Kriterium f{\"u}r das Vorhandensein einer Grenzschichtabl{\"o}sung wurde das Auftreten einer R{\"u}ckstr{\"o}mung im Diffusorteil bewertet. Die Untersuchung wurde durch Simulation einer Gasstr{\"o}mung (ideales Gas) mit Hilfe des kommerziellen CFD-Programmes FLUENT durchgef{\"u}hrt.
}, author = {Harasek, Michael and Jordan, Christian} }