S. Blazquez
19 Papers
S. Blazquez is an academic researcher. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 2, co-authored 8 publications.
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Papers
Solubility of Methane in Water: Some Useful Results for Hydrate Nucleation
Joanna Grabowska,S. Blazquez,Eduardo Sanz,I.M. Zeron,J. Algaba,José Manuel Míguez,Felipe J. Blas,Carlos Vega +7 more
TL;DR: In this article , the TIP4P/Ice force field and a simple LJ model were used to determine the solubility of methane in water along the 400 bar isobar, and the results showed that the driving force for hydrate nucleation under experimental conditions is higher than that for the formation of pure ice when compared at the same supercooling.
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A New Force Field for OH– for Computing Thermodynamic and Transport Properties of H2 and O2 in Aqueous NaOH and KOH Solutions
P. Habibi,Ahmadreza Rahbari,S. Blazquez,Carlos Vega,Poulumi Dey,Thijs J. H. Vlugt,Othonas A. Moultos +6 more
TL;DR: In this article , the authors present an extensive collection of new data and engineering equations for H2 and O2 self-diffusivities and solubilities in NaOH and KOH solutions for process design and optimization of efficient alkaline electrolyzers and fuel cells.
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Computation of Electrical Conductivities of Aqueous Electrolyte Solutions: Two Surfaces, One Property
S. Blazquez,José L. F. Abascal,Jelle Lagerweij,P. Habibi,Poulumi Dey,Thijs J. H. Vlugt,Othonas A. Moultos,Carlos Vega +7 more
TL;DR: The electrical conductivities of aqueous electrolyte solutions are accurately computed using a new method that incorporates the use of different charges to describe the potential energy surface and the dipole moment surface.
Three phase equilibria of the methane hydrate in NaCl solutions: a simulation study
TL;DR: In this paper , the authors performed molecular dynamics simulations to determine the three-phase coexistence temperature for a methane hydrate system in equilibrium with a NaCl solution and a methane gas phase.
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Building a Hofmeister-like series for the maximum in density temperature of aqueous electrolyte solutions.
TL;DR: In this paper , the temperature of the maximum in density at room pressure is experimentally evaluated for aqueous solutions of a set of halides containing F−, Cl−, Br−, I−, Li+, Na+, K+, Rb+, Cs+ and Mg2+ at a 1 m concentration.
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