direkt zum Inhalt springen

direkt zum Hauptnavigationsmenü

Sie sind hier

TU Berlin

Inhalt des Dokuments

Veröffentlichungen

vor >> [11]

2019

Albers, J. (2019). EES simulation model for the part load behaviour of single stage H2O/LiBr absorption chillers [15].

Link zur Publikation [16]

Albers, J. (2019). H2OLiBr_GF.LIB – Eine EES Bibliothek mit Stofffunktionen und deren partielle Ableitungen für H2O/LiBr Lösungen (Report) [17].

Link zur Publikation [18]

Albers, J. (2019). H2OLiBr_GF.LIB – Eine EES Bibliothek mit Stofffunktionen und deren partielle Ableitungen für H2O/LiBr Lösungen (LIB-file) [19].

Link zur Publikation [20]

Albers, J. (2019). Erweiterung einer Berechnungsmethode für die Regelung von Absorptionskälteanlagen [21]. TU Berlin, Fakultät III Prozesswissenschaften

Link zur Publikation [22]

Buscher, S. (2019). Visualization and modelling of flow pattern transitions in a cross-corrugated plate heat exchanger channel with uniform two-phase distribution [23]. International Journal of Heat and Mass Transfer

Link zur Publikation [24]

Buscher, S. (2019). Flow patterns of vertical and horizontal adiabatic two-phase flow in a plate heat exchanger single channel with uniform gas-liquid distribution: Paper ID 512 [25]. Proceedings of the 25th IIR International Congress of Refrigeration: Montréal (Canada), August 24-30, 2019. Elsevier.


Buscher, S. (2019). Pressure drop and void fraction of vertical and horizontal adiabatic two-phase flow in a plate heat exchanger single channel with uniform gas-liquid distribution: Paper ID 468 [26]. Proceedings of the 25th IIR International Congress of Refrigeration: Montréal (Canada), August 24-30, 2019. Elsevier.


Jahnke, A. (2019). Untersuchung des Honigmann-Prozesses zur thermochemischen Energiespeicherung [27].


Thiele, E., Jahnke, A. and Ziegler, F. (2019). Efficiency of the Reversible Honigmann Energy Storage [28]. Prooceedings of the 5th International Conference on Polygeneration (ICP 2019), 65–66.


Corrales Ciganda, J. L., Cudok, F., Wahl, M., Schloesser, M. and Metzner, D. (2019). Thermodynamic analysis of an absorption heat transformer based on experimental measurements [29]. International Institute of Refrigeration IIR, 4771-4778.


Lanser, W., Graf, R., Schröder, M. and Hausherr, C. (2019). Heat rejection coolers for absorption chillers – theory and field test results [30]. Proceedings of the 25th IIR International Congress of Refrigeration: Montréal (Canada), August 24-30, 2019. Elsevier.


Petersen, S., Hüls, W., Paitazoglou, C. and Albers, J. (2019). Active control of external volume flow rates for single effect absorption chillers [31]. Proceedings of the 25th IIR International Congress of Refrigeration: Montréal (Canada), August 24-30, 2019. Elsevier.


Kühn, R., Meyer, T., Winker, M. and Ziegler, F. (2019). Experimental investigation of ionic liquids as substitute for lithium bromide in water absorption chillers [32]. Proceedings of the fifth International Symposium on Innovative Materials and Processes in Energy Systems 2019, 5–9.


2018

Berns, N. and Buchin, O. (2018). Enhanced Measuring with Ultrasonic Clamp-On Flow Meters under Disturbed Flow Conditions [33]. 14th International European Metrology Association for Thermal Energy Measurement Summer School (EMATEM 2018)


Kühn, R., Römer, J. and Ziegler, F. (2018). Comparison of Ab- and Adsorbents for Low Temperature Heat Driven Sorption Cooling Machines [34]. International Journal of Refrigeration. Elsevier Ltd.

Link zur Publikation [35]

vor >> [46]

Nach oben

Neue Listen einfügen

Upload BibTeX

Alle Einträge nach BibTex exportieren [47]

Nach oben

------ Links: ------

Zusatzinformationen / Extras

Direktzugang

Schnellnavigation zur Seite über Nummerneingabe

Copyright TU Berlin 2008