Scientific production
EFCE Opinion paper:
- de Hemptinne et al: "A view on the future of thermodynamics” (2022) IECR, Vol61, 39, 14664-14680
Thermodynamics is the science of the interactions between energy and matter. It was formalized in the late 19th century and remains an essential piece in solving many technological challenges that society faces today. Yet, it is often considered complex and challenging, perhaps because it is often taught within a rigid mathematical framework...
- Kontogeorgis et al. «Conclusions from Round Table Discussion during IUT of ESAT 2021 electrolyte thermodynamics challenges - From industrial needs to academic research” (2022) FluidPhase Eq, Vol 556, 113399
EleTher chair and JIP production
- Vaque Aura et al. « Data analysis for electrolyte systems : a method illustrated on alkali halides in water”
(2021) JChem Eng Data Vol 66, p 2976-2990 - Tsanas et al. « Calculation of phase and chemical equilibrium for multiple ion-containing phases including stability analysis” (2021) ChemEngSci Vol 248, 117174
- Roa Pinto et al: «Temperature dependence and short-range electrolytic interactions within the e-PPC-SAFT framework” (2022) FluidPhase Eq, Vol 560, 113486
- Yang et al. «A Benchmark Database for Mixed-Solvent Electrolyte Solutions: Consistency Analysis Using E-NRTL” (2022) IECR, Vol61, 42, 15576-15593
- Yang et al: "Reference Density Database for 20 Aqueous Alkali Halide Solutions" (2022) JPhys Chem Ref Data, Vol51(4):043104
- Yang et al.: "Systematic evaluation of parameterization approaches for the ePPC-SAFT model for aqueous alkali halide solutions" (2023) Fluid Phase Eq, Vol570, 113778
- Yang et al: "Systematic evaluation of parameterization approaches for the ePPC-SAFT model for aqueous alkali halide solutions. II. Alkali bromides, iodides, fluorides, and lithium halides" (2023) Fluid Phase Eq, Vol 573, 113853
- Due Olsen et al.: "Comparisons of equation of state models for electrolytes: e-CPA and e-PPC-SAFT" (2023) Fluid Phase Eq., Vol 571, 113804
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