Publications

O. Böckmann, D. Marmullaku, M. Schäfer, and M. Schäfer. Dynamic Modeling and Simulation of a Facade Integrated Adsorption System for Solar Cooling of Lightweight Buildings. MPDI-Energies, 2024. [PUMA: Adsorption Buildings Cooling Dynamic Facade Integrated Lightweight Modeling Simulation Solar System a and for of]

O. Böckmann, M. Schäfer, and M. Schäfer. Modeling and simulation of a facade-integrated adsorption system for solar cooling of lightweight buildings. 2022. [PUMA: Modeling a adsorption and buildings cooling facade-integrated for lightweight of simulation solar system]

O. Böckmann, M. Baumann, M. Schäfer, and M. Schäfer. Modeling and simulation of a facade-integrated thermochemical energy storage system for solar cooling of buildings. 2024. [PUMA: Modeling a and buildings cooling energy facade-integrated for of simulation solar storage system thermochemical]

O. Böckmann, M. Baumann, M. Schäfer, and M. Schäfer. Modeling and simulation of a facade-integrated thermochemical energy storage system for solar cooling of buildings. 2024. [PUMA: Modeling a and buildings cooling energy facade-integrated for of simulation solar storage system thermochemical]

M. Schäfer, A. Thess, and A. Thess. Modeling and simulation of closed low-pressure zeolite adsorbers for thermal energy storage. International Journal of Heat and Mass Transfer, Elsevier, 2019,, 2019. [PUMA: Modeling adsorbers and closed energy for low-pressure of simulation storage thermal zeolite]

O. Böckmann, D. Marmullaku, M. Schäfer, and M. Schäfer. Dynamic Modeling and Simulation of a Facade-Integrated Adsorption System for Solar Cooling of Lightweight Buildings. Energies, MPDI, 2024. [PUMA: Adsorption Buildings Cooling Dynamic Facade-Integrated Lightweight Modeling Simulation Solar System a and for of]

D. Häuslein, R. Schmidt-Vollus, M. Popp M. Schäfer, and M. Schäfer. Dynamic modeling, design and simulation of a thermal pumped piston storage within a renewable energy distribution system. Energy Storage, Elsevier, 2024. [PUMA: Dynamic a and design distribution energy modeling of piston pumped renewable simulation storage system thermal within]

Rudolf Weber, Christian Freitag, Margit Wiedenmann, and Thomas Graf. High-Quality Laser Processing of CFRP. Lasers in Manufacturing 2015, 2015. [PUMA: Simulation Laser EnergyCoupling Modeling Cutting from:peterberger]

Rudolf Weber, Christian Freitag, Taras V. Kononenko, Margit Hafner, Volkher Onuseit, Anne Feuer, Andreas Michalowski, Thomas Graf, and Vitali I. Konov. Laser Processing of Carbon Fibre Reinforced Polymers. Phsics Procedia, (12, Part A)Elsevier Ltd., Amsterdam, 2011. [PUMA: MicroMaterialProcessing Drilling Simulation Laser MacroMaterialProcessing Modeling Cutting from:peterberger]

Peter Berger, Helmut Hügel, and Thomas Graf. Understanding Pore Formation in Laser Beam Welding. Phsics Procedia, (12, Part A):0, Elsevier Ltd., Amsterdam, 2011. [PUMA: LaserMatterInteraction Diagnostics Welding Simulation Laser MacroMaterialProcessing Modeling from:peterberger]

Peter Berger, Helmut Hügel, and Thomas Graf. Understanding Pore Formation in Laser Beam Welding. Phsics Procedia, (12, Part A)Elsevier Ltd., Amsterdam, 2011. [PUMA: LaserMatterInteraction Diagnostics Welding Simulation Laser MacroMaterialProcessing Modeling from:peterberger]

Peter Berger, Helmut Hügel, Axel Heß, Rudolf Weber, and Thomas Graf. Understanding of Humping Based on Conservation of Volume Flow. Phsics Procedia, (12, Part A)Elsevier Ltd., Amsterdam, 2011. [PUMA: LaserMatterInteraction Diagnostics Welding Simulation Laser MacroMaterialProcessing Modeling from:peterberger]

Rudolf Weber, Roland Gauch, and Thomas Graf. Influencing the melt pool dynamics with short pulses. Lasers in Manufacturing 2009, AT-Fachverlag GmbH, Stuttgart, 2009. [PUMA: MicroMaterialProcessing Drilling Simulation Laser MacroMaterialProcessing Modeling Cutting from:peterberger]

Andreas Ruf, Peter Berger, Friedrich Dausinger, and Helmut Hügel. Continuous multi-phase modeling of laser ablation with short pulses. Lasers in Manufacturing 2003, 357-362, AT-Fachverlag GmbH, Stuttgart, 2003. [PUMA: Drilling Simulation Laser Modeling Ablation from:peterberger]

Armin Strauch, D. Degenhardt, Peter Berger, J. Richardt, H. Tiedke, and Helmut Hügel. Efficient solution of the inverse problem in laser penetration welding using simulations and experiments. Lasers in Manufacturing 2001, 227, AT-Fachverlag GmbH, Stuttgart, 2001. [PUMA: Simulation Laser MacroMaterialProcessing Modeling from:peterberger]

Andreas Ruf, Detlef Breitling, Christian Föhl, Joachim Radtke, Friedrich Dausinger, Helmut Hügel, Taras V. Kononenko, S. Klimentov, S. Garnov, Vitali I. Konov, and J. Suzuki. Modeling and experimental analysis of hole formation in laser deep drilling with short and ultra-short pulses. Lasers in Manufacturing 2001, 214, AT-Fachverlag GmbH, Stuttgart, 2001. [PUMA: MicroMaterialProcessing Simulation Laser Modeling from:peterberger]

Helmut Hügel. Modeling, Simulation and Process Monitoring - Introduction to session 2. Lasers in Manufacturing 2001, 75, AT-Fachverlag GmbH, Stuttgart, 2001. [PUMA: ProcessMonitoring Simulation Laser Modeling from:peterberger]

Markus Beck, Friedrich Dausinger, and Helmut Hügel. Modell zur Beschreibung der Energieeinkopplung von CO2-Laserstrahlung beim Tiefschweißen. In Wilhelm Waidelich (Eds.), Proceedings of the 9th International Congress LASER 89, 550, Springer, Berlin, 1990. [PUMA: Welding Simulation Laser Modeling from:peterberger]

Helmut Hügel. Modeling, Simulation and Process Monitoring - Introduction to session 2. Lasers in Manufacturing 2001, 75, AT-Fachverlag GmbH, Stuttgart, 2001. [PUMA: Laser Modeling ProcessMonitoring Simulation]

Armin Strauch, D. Degenhardt, Peter Berger, J. Richardt, H. Tiedke, and Helmut Hügel. Efficient solution of the inverse problem in laser penetration welding using simulations and experiments. Lasers in Manufacturing 2001, 227, AT-Fachverlag GmbH, Stuttgart, 2001. [PUMA: Laser MacroMaterialProcessing Modeling Simulation]