Andreas König-Haagen
Andreas König-Haagen
Chair of Engineering Thermodynamics and Transport Processes (LTTT), University of Bayreuth
Bestätigte E-Mail-Adresse bei uni-bayreuth.de - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Thermophysical characterization of MgCl2· 6H2O, xylitol and erythritol as phase change materials (PCM) for latent heat thermal energy storage (LHTES)
S Höhlein, A König-Haagen, D Brüggemann
Materials 10 (4), 444, 2017
352017
Economic model predictive control of combined thermal and electric residential building energy systems
S Kuboth, F Heberle, A König-Haagen, D Brüggemann
Applied Energy 240, 372-385, 2019
232019
A comprehensive benchmark of fixed-grid methods for the modeling of melting
A König-Haagen, E Franquet, E Pernot, D Brüggemann
International Journal of Thermal Sciences 118, 69-103, 2017
232017
Numerical modelling of melting and settling of an encapsulated PCM using variable viscosity
RR Kasibhatla, A König-Haagen, F Rösler, D Brüggemann
Heat and Mass Transfer 53 (5), 1735-1744, 2017
232017
An implicit algorithm for melting and settling of phase change material inside macrocapsules
M Faden, A König-Haagen, S Höhlein, D Brüggemann
International Journal of Heat and Mass Transfer 117, 757-767, 2018
222018
Numerical analysis of shell-and-tube type latent thermal energy storage performance with different arrangements of circular fins
S Kuboth, A König-Haagen, D Brüggemann
Energies 10 (3), 274, 2017
222017
Galactitol as phase change material for latent heat storage of solar cookers: Investigating thermal behavior in bulk cycling
G John, A König-Haagen, CK King’ondu, D Brüggemann, L Nkhonjera
Solar Energy 119, 415-421, 2015
172015
Thermoeconomic analysis of configuration methods for modular Organic Rankine Cycle units in low-temperature applications
M Preißinger, S Schatz, A Vogl, A König-Haagen, D Brüggemann
Energy conversion and management 127, 25-34, 2016
102016
IEA SHC Task 42/ECES Annex 29–Working Group B: Applications of compact thermal energy storage
W van Helden, M Yamaha, C Rathgeber, A Hauer, F Huaylla, ...
4th International Conference on Solar Heating and Cooling for Buildings and …, 2016
92016
IEA SHC Task 42/ECES Annex 29–A simple tool for the economic evaluation of thermal energy storages
C Rathgeber, S Hiebler, E Lävemann, P Dolado, A Lazaro, J Gasia, ...
Energy Procedia, 2016, vol. 91, p. 197-206, 2016
92016
Macro-Encapsulation of Inorganic Phase-Change Materials (PCM) in Metal Capsules
S Höhlein, A König-Haagen, D Brüggemann
Materials 11 (9), 1752, 2018
72018
Numerical modelling of wetting phenomena during melting of PCM
RR Kasibhatla, A König-Haagen, D Brüggemann
Procedia Engineering 157, 139-147, 2016
72016
Detailed exergetic analysis of a packed bed thermal energy storage unit in combination with an Organic Rankine Cycle
A König-Haagen, S Höhlein, D Brüggemann
Applied Thermal Engineering 165, 114583, 2020
62020
Experimental investigation of a finned pentaerythritol-based heat storage unit for solar cooking at 150-200 C
L NKhonjera, M Kuboth, A König-Haagen, G John, C King’ondu, ...
Energy Procedia 93, 160-167, 2016
42016
Velocity field and phase boundary measurements during melting of n-octadecane in a cubical test cell
M Faden, C Linhardt, S Höhlein, A König-Haagen, D Brüggemann
International Journal of Heat and Mass Transfer 135, 104-114, 2019
32019
Intercomparative tests on viscosity measurements of phase change materials
M Delgado, A Lázaro, M Biedenbach, S Gamisch, S Gschwander, ...
Thermochimica acta 668, 159-168, 2018
32018
An Optimum Enthalpy Approach for Melting and Solidification with Volume Change
M Faden, A König-Haagen, D Brüggemann
Energies 12 (5), 868, 2019
22019
Exergetic analysis of thermal energy storages in thermodynamic systems
A König-Haagen, F Rösler, D Brüggemann
Eurotherm Seminar 99, 2014
12014
Experimental short-term investigation of model predictive heat pump control in residential buildings
S Kuboth, F Heberle, T Weith, M Welzl, A König-Haagen, D Brüggemann
Energy and Buildings 204, 109444, 2019
2019
Exergetische Bewertung thermischer Speicher in Systemen am Beispiel einer Anlage mit kombinierter Stromerzeugung
A König-Haagen
Logos Verlag Berlin GmbH, 2019
2019
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