Publications

Samuel Burbulla, and Christian Rohde. A finite-volume moving-mesh method for two-phase flow in fracturing porous media. J. Comput. Phys., 111031, 2022. [PUMA: Finite Two-phase models Dynamic in methods from:brittalenz Fracture porous am media fracture Moving-mesh ians matrix aperture volume propagation Discrete flow algorithm] URL

Röck S. Verl A. Hoher, S.. A System Dynamic Model of a Complex Material Flow System for VirtualCommissioning: A System Dynamic Model of a Complex Material Flow System for VirtualCommissioning. --, 2011. [PUMA: based Real-time modelling, simulation, Material Physically ISW flow]

Christina Lienstromberg, Tania Pernas-Casta\ no, and Juan J. L. Velázquez. Analysis of a two-fluid Taylor-Couette flow with one non-Newtonian fluid. J. Nonlinear Sci., (32)2:Paper No. 24, 55, 2022. [PUMA: Lienstromberg iadm two-fluid from:elkepeter flow Taylor-Couette] URL

Christina Lienstromberg, Tania Pernas-Castano, and Juan J. L. Velázquez. Analysis of a two-fluid Taylor-Couette flow with one non-Newtonian fluid. J. Nonlinear Sci., (32)2:Paper No. 24, 55, 2022. [PUMA: Lienstromberg iadm two-fluid flow Taylor-Couette] URL

Christoph Kattmann, Krzysztof Rudion, and Stefan Tenbohlen. Clustering of smart meter data for data compression and fast power flow computation. CIRED 2015, 23rd International Conference and Exhibition on Electricity Distribution, Lyon, Frankreich, June 15-18, 2015, 2015. [PUMA: Compression Clustering Meter Computationsend:unibiblio Data Fast Smart Flow Power]

Daniel Contreras, and Krzysztof Rudion. Computing the feasible operating region of active distribution networks: Comparison and validation of random sampling and optimal power flow based methods. IET Generation, Transmission & Distribution, (15)10:1600-1612, May 2021. [PUMA: based methods sampling optimal networks: active Computing distribution random the Comparison of and operating power feasible region flow validation]

Christoph Kattmann, Ahmad Abdel-Majeed, and Stefan Tenbohlen. Database-Assisted Load Flow Simulation for Low Voltage Grids Using a Model Reduction Approach. 2014. [PUMA: Grids Load Low Reduction Voltage Simulation Approach Model Flow]

Kazuhiko Terashima Oliver Sawodny Yoshiyuki Noda, Markus Birkhold, and Alexander Verl. Flow Rate Estimation Using Unscented Kalman Filterin Automatic Pouring Robot: Flow Rate Estimation Using Unscented Kalman Filterin Automatic Pouring Robot. --, 2011. [PUMA: foundry robot, filter, Kalman estimation, unscented automatic rate equipment ISW flow pouring]

Allen Q. Howard, and Thomas Naini. Four Methods for LIDAR Retrieval of Microscale Wind Fields. Remote Sensing, (4)12:2329--2355, 2012. [PUMA: wind semblance models;fluid;LiDAR;retrievals;spatio-temporal methods;vector and fields flow]

D.S. Martínez, A. García, J.P. Solano, and A. Viedma. Heat transfer enhancement of laminar and transitional Newtonian and non-Newtonian flows in tubes with wire coil inserts. International Journal of Heat and Mass Transfer, (76):540 - 548, 2014. [PUMA: coil myown transfer inserts, Newtonian Heat enhancement, Non Wire flow flow, Transitional] URL