Publications
38.
Simonini,
Alessia;
Dreyer,
Michael;
Urbano,
Annafederica;
Sanfedino,
Francesco;
Himeno,
Takehiro;
Behruzi,
Philipp;
Avila,
Marc;
Pinho,
Jorge;
Peveroni,
Laura;
Gouriet,
Jean-Baptiste
Cryogenic Propellant Management in Space: Open Challenges and Perspectives
npj Microgravity, 10 (34) :1—13
Cryogenic Propellant Management in Space: Open Challenges and Perspectives
npj Microgravity, 10 (34) :1—13
2024
37.
Govindan,
Sesha N. C.
Investigation of Interface Stability During the Filling of Liquid into a Tank Under Reduced Gravity
PhD Thesis
Universität Bremen
2024
Investigation of Interface Stability During the Filling of Liquid into a Tank Under Reduced Gravity
PhD Thesis
Universität Bremen
2024
36.
Shukla,
Prithvi;
Dreyer,
Michael E.
Phase Separation through Screen Channel Liquid Acquisition Devices in Microgravity
Microgravity Science and Technology, 36 (7) :1—23
2024
Phase Separation through Screen Channel Liquid Acquisition Devices in Microgravity
Microgravity Science and Technology, 36 (7) :1—23
2024
2023
35.
Weber,
Niklas H.;
Dreyer,
Michael E.
Depressurization Induced Vapor Bubble Growth in Liquid Methane During Microgravity
Cryogenics, 134 :103716
2023
Depressurization Induced Vapor Bubble Growth in Liquid Methane During Microgravity
Cryogenics, 134 :103716
2023
34.
Govindan,
Sesha N. C.;
Dreyer,
Michael E.
Experimental Investigation of Liquid Interface Stability During the Filling of a Tank in Microgravity
Microgravity Sci. Tec., 35 (23) :1—23
April 2023
Experimental Investigation of Liquid Interface Stability During the Filling of a Tank in Microgravity
Microgravity Sci. Tec., 35 (23) :1—23
April 2023
33.
Govindan,
Sesha N. C.;
Dreyer,
Michael E.
Numerical Investigation of Interface Stability in Reduced Gravity for the Application of on-orbit Refueling of Spacecraft Tanks
International Journal of Energetic Materials and Chemical Propulsion, 22 (5) :27—44
2023
Numerical Investigation of Interface Stability in Reduced Gravity for the Application of on-orbit Refueling of Spacecraft Tanks
International Journal of Energetic Materials and Chemical Propulsion, 22 (5) :27—44
2023
2021
32.
Pingel,
Andre
Experimental and Theoretical Investigations of the Physical Processes Related to the Retention Capability of a Double Screen Element against Liquid Hydrogen in Earth's Gravity and in Microgravity with Respect to the Applied Stimuli
PhD Thesis
Universität Bremen
2021
Experimental and Theoretical Investigations of the Physical Processes Related to the Retention Capability of a Double Screen Element against Liquid Hydrogen in Earth's Gravity and in Microgravity with Respect to the Applied Stimuli
PhD Thesis
Universität Bremen
2021
ISBN: 978-3-7369-7642-9
2020
31.
Bisht,
Kamal S.;
Dreyer,
Michael E.
Phase Separation in Porous Media Integrated Capillary Channels
Microgravity Sci. Technol., 32 :1001—1018
2020
Phase Separation in Porous Media Integrated Capillary Channels
Microgravity Sci. Technol., 32 :1001—1018
2020
2019
30.
Friese,
Peter S.;
Hopfinger,
Emil J.;
Dreyer,
Michael E.
Liquid Hydrogen Sloshing in Superheated Vessels Under Microgravity
Experimental Thermal and Fluid Sciences, 106 :100
2019
Liquid Hydrogen Sloshing in Superheated Vessels Under Microgravity
Experimental Thermal and Fluid Sciences, 106 :100
2019
29.
Pingel,
Andre;
Dreyer,
Michael E.
Phase Separation of Liquid from Gaseous Hydrogen in Microgravity - Experimental Results
Microgravity Science and Technology, 31 (5) :649—671
2019
Phase Separation of Liquid from Gaseous Hydrogen in Microgravity - Experimental Results
Microgravity Science and Technology, 31 (5) :649—671
2019
28.
Pingel,
Andre;
Dreyer,
Michael E.
Phase Separation of Liquid from Gaseous Hydrogen in Microgravity – Experimental Results
Microgravity Science and Technology, 31 (5) :649—671
2019
Phase Separation of Liquid from Gaseous Hydrogen in Microgravity – Experimental Results
Microgravity Science and Technology, 31 (5) :649—671
2019
2018
27.
Grebenyuk,
Yulia
Experimental and Theoretical Investigations of Wicking in Porous Media
Publisher: Dissertation University of Bremen, Cuvillier Verlag
2018
Experimental and Theoretical Investigations of Wicking in Porous Media
Publisher: Dissertation University of Bremen, Cuvillier Verlag
2018
26.
Canfield,
Peter
Stability of Free Surfaces in Single-Phase and Two-Phase Open Capillary Channel Flow in a Microgravity Environment
Publisher: Dissertation University of Bremen, Cuvillier Verlag
2018
Stability of Free Surfaces in Single-Phase and Two-Phase Open Capillary Channel Flow in a Microgravity Environment
Publisher: Dissertation University of Bremen, Cuvillier Verlag
2018
2017
25.
Schmitt,
Sebastian
Experimental and Numerical Investigations of Two-Phase Flow with Non-Isothermal Boundary Conditions under Microgravity Conditions
Publisher: Cuvillier Verlag
2017
Experimental and Numerical Investigations of Two-Phase Flow with Non-Isothermal Boundary Conditions under Microgravity Conditions
Publisher: Cuvillier Verlag
2017
24.
Bronowicki,
Przemyslaw
Stability of Free Surface Flow in Capillary Channels with Rectangular Cross-Sections
Publisher: Dissertation University of Bremen, Cuvillier Verlag
2017
Stability of Free Surface Flow in Capillary Channels with Rectangular Cross-Sections
Publisher: Dissertation University of Bremen, Cuvillier Verlag
2017
2016
23.
Fuhrmann,
E.;
Dreyer,
M. E.;
Basting,
S.;
Baensch,
E.
Free Surface Deformation and Heat Transfer by Thermocapillary Convection
Heat Mass Transfer, 52 (4) :855—876
2016
Free Surface Deformation and Heat Transfer by Thermocapillary Convection
Heat Mass Transfer, 52 (4) :855—876
2016
22.
Grebenyuk,
Yulia;
Zhang,
Huixing;
Wilhelm,
Michaela;
Rezwan,
Kurosch;
Dreyer,
Michael E.
Wicking into Porous Polymer-Derived Ceramic Monoliths Fabricated by Freeze-Casting
Journal of the European Ceramic Society, 37 (5) :1993—2000
2016
Wicking into Porous Polymer-Derived Ceramic Monoliths Fabricated by Freeze-Casting
Journal of the European Ceramic Society, 37 (5) :1993—2000
2016
21.
Grebenyuk,
Yulia;
Dreyer,
Michael E.
Wicking of Liquid Nitrogen into Superheated Porous Structures
Cryogenics, 78 :27—39
2016
Wicking of Liquid Nitrogen into Superheated Porous Structures
Cryogenics, 78 :27—39
2016
2015
20.
Schmitt,
Sebastian;
Dreyer,
Michael E.
Free Surface Oscillations of Liquid Hydrogen in Microgravity Conditions
Cryogenics, 72 (1) :22—35
2015
Free Surface Oscillations of Liquid Hydrogen in Microgravity Conditions
Cryogenics, 72 (1) :22—35
2015
19.
Bronowicki,
P.;
Canfield,
P.;
Grah,
A.;
Dreyer,
M. E.
Free Surfaces in Open Capillary Channels – Parallel Plates
Phys. Fluids, 27 (012106) :1—21
2015
Free Surfaces in Open Capillary Channels – Parallel Plates
Phys. Fluids, 27 (012106) :1—21
2015
2014
18.
Fuhrmann,
E.;
Dreyer,
M. E.
Heat and Mass Transfer at a Free Surface with Diabatic Boundaries in a Single-Species System Under Microgravity Conditions
Exp. Fluids, 55 (1760) :1—18
2014
Heat and Mass Transfer at a Free Surface with Diabatic Boundaries in a Single-Species System Under Microgravity Conditions
Exp. Fluids, 55 (1760) :1—18
2014
17.
Kulev,
Nikolai;
Basting,
Steffen;
Baensch,
Eberhard;
Dreyer,
Michael
Interface Reorientation of Cryogenic Liquids Under Non-isothermal Boundary Conditions
Cryogenics, 62 :48—59
2014
Interface Reorientation of Cryogenic Liquids Under Non-isothermal Boundary Conditions
Cryogenics, 62 :48—59
2014
16.
Ludwig,
C.;
Dreyer,
M. E.
Investigations on Thermodynamic Phenomena of the Active-Pressurization Process of a Cryogenic Propellant Tank
Cryogenics, 63 :1—16
2014
Investigations on Thermodynamic Phenomena of the Active-Pressurization Process of a Cryogenic Propellant Tank
Cryogenics, 63 :1—16
2014
15.
Grah,
Aleksander;
Canfield,
Peter J.;
Bronowicki,
Przemyslaw M.;
Dreyer,
Michael E.;
Chen,
Yongkang;
Weislogel,
Mark M.
Transient Capillary Channel Flow Stability
Microgravity Sci. Technol., 26 (6) :385—396
2014
Transient Capillary Channel Flow Stability
Microgravity Sci. Technol., 26 (6) :385—396
2014
2013
14.
Conrath,
M.;
Canfield,
P. J.;
Bronowicki,
P. M.;
Dreyer,
M. E.;
Weislogel,
M. M.;
Grah,
A.
Capillary Channel Flow Experiments Aboard the International Space Station
Phys. Rev. E, 88 (063009) :1—8
2013
Capillary Channel Flow Experiments Aboard the International Space Station
Phys. Rev. E, 88 (063009) :1—8
2013