Non-equilibrium thermo-chemical heat storage in porous media: Part 2–A 1D computational model for a calcium hydroxide reaction system
Thermal energy storage technologies can facilitate the transition to an energy system based
largely on renewable sources and enable efficiency gains for industrial processes in …
largely on renewable sources and enable efficiency gains for industrial processes in …
Non-equilibrium thermo-chemical heat storage in porous media: Part 2–A 1D computational model for a calcium hydroxide reaction system
H Shao, T Nagel, C Roßkopf, M Linder, A Wörner… - Energy, 2013 - ideas.repec.org
Thermal energy storage technologies can facilitate the transition to an energy system based
largely on renewable sources and enable efficiency gains for industrial processes in …
largely on renewable sources and enable efficiency gains for industrial processes in …
Non-equilibrium thermo-chemical heat storage in porous media: Part 2–A 1D computational model for a calcium hydroxide reaction system
H Shao, T Nagel, C Roßkopf, M Linder, A Wörner… - Energy, 2013 - econpapers.repec.org
Thermal energy storage technologies can facilitate the transition to an energy system based
largely on renewable sources and enable efficiency gains for industrial processes in …
largely on renewable sources and enable efficiency gains for industrial processes in …
Non-equilibrium thermo-chemical heat storage in porous media: Part 2–A 1D computational model for a calcium hydroxide reaction system
H Shao, T Nagel, C Roßkopf, M Linder, A Wörner… - Energy, 2013 - infona.pl
Thermal energy storage technologies can facilitate the transition to an energy system based
largely on renewable sources and enable efficiency gains for industrial processes in …
largely on renewable sources and enable efficiency gains for industrial processes in …
[引用][C] Non-equilibrium thermo-chemical heat storage in porous media: Part 2–A 1D computational model for a calcium hydroxide reaction system
H Shao, T Nagel, C Roßkopf, M Linder, A Wörner… - Energy, 2013 - cir.nii.ac.jp
Non-equilibrium thermo-chemical heat storage in porous media: Part 2 – A 1D computational
model for a calcium hydroxide reaction system | CiNii Research CiNii 国立情報学研究所 学術 …
model for a calcium hydroxide reaction system | CiNii Research CiNii 国立情報学研究所 学術 …
[PDF][PDF] Non-equilibrium thermo-chemical heat storage in porous media: Part 2 e A 1D computational model for a calcium hydroxide reaction system
H Shao, T Nagel, C Roßkopf, M Linder, A Wörner… - Energy, 2013 - academia.edu
abstract Thermal energy storage technologies can facilitate the transition to an energy
system based largely on renewable sources and enable efficiency gains for industrial …
system based largely on renewable sources and enable efficiency gains for industrial …
Non-equilibrium thermo-chemical heat storage in porous media: Part 2–A 1D computational model for a calcium hydroxide reaction system
H Shao, T Nagel, C Roßkopf, M Linder, A Wörner… - Energy, 2013 - ui.adsabs.harvard.edu
Thermal energy storage technologies can facilitate the transition to an energy system based
largely on renewable sources and enable efficiency gains for industrial processes in …
largely on renewable sources and enable efficiency gains for industrial processes in …
Non-equilibrium thermo-chemical heat storage in porous media: Part 2–A 1D computational model for a calcium hydroxide reaction system
H Shao, T Nagel, C Roßkopf, M Linder, A Wörner… - Energy (Oxford), 2013 - osti.gov
Thermal energy storage technologies can facilitate the transition to an energy system based
largely on renewable sources and enable efficiency gains for industrial processes in …
largely on renewable sources and enable efficiency gains for industrial processes in …
[引用][C] Non-equilibrium thermo-chemical heat storage in porous media: Part 2–A 1D computational model for a calcium hydroxide reaction system
H Shao, T Nagel, C Roßkopf, M Linder, A Wörner… - Energy, 2013 - elib.dlr.de
electronic library - Non-equilibrium thermo-chemical heat storage in porous media: Part 2 –
A 1D computational model for a calcium hydroxide reaction system elib DLR-Header DLR-Logo …
A 1D computational model for a calcium hydroxide reaction system elib DLR-Header DLR-Logo …
Non-equilibrium thermo-chemical heat storage in porous media: Part 2–A 1D computational model for a calcium hydroxide reaction system
H Shao, T Nagel, C Roßkopf, M Linder, A Wörner… - Energy (Oxford …, 2013 - inis.iaea.org
[en] Thermal energy storage technologies can facilitate the transition to an energy system
based largely on renewable sources and enable efficiency gains for industrial processes in …
based largely on renewable sources and enable efficiency gains for industrial processes in …