Regional-Scale Distribution of Helium Isotopes in Aquifers: How Informative Are They as Groundwater Tracers and Chronometers?

Pinti, Daniele L.; Larocque, Marie; Méjean, Pauline; Saby, Marion; Hernández, Hernández; Gagné, Sylvain; Roulleau, Émilie; Sano, Yuji; Castro, Maria Clara; Matsumoto, Takuya; Horoi, Viorel

doi:10.3390/w14121940

Cited by 3 publications

(1 citation statement)

References 70 publications

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“…For example, experimentally synthesized g-C 3 N 4 membrane, possessing uniformly distributed sub-nanopores around 4.76 Å, has demonstrated extremely high selectivity for He extraction from natural gas (10 7 to 10 65 ) at room temperature . Similar natural porous membranes such as C 2 N, CTF-0, g-C 2 O, IGP, and Fe/Ni-PTC MOF, have also been theoretically investigated and shown superior He separation properties, which have greatly stimulated experimental explorations. − In addition, the separation of 3 He is of utmost importance as it plays a critical role in various advanced technologies, including cryogenics, isotope labeling, and power generation. , Therefore, 2D porous membranes, such as g-C 3 N 4 , 2DPPH, and graphdiyne, − have also been investigated for separation of He isotopes, some of which even possess industrial acceptable permeance, showing great potential in practical applications.…”

Section: Introductionmentioning

confidence: 99%

Simulation Studies on Improved Separation of Helium and Helium Isotopes by Strain Modulated r-N-GY Monolayer Nanostructure

Zhang

et al. 2023

ACS Appl. Nano Mater.

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Acquiring helium gas (He) via membrane separation technology is deemed a prospective and benign approach to mitigate the He shortage crisis. This study demonstrates, through theoretical means, that the recently synthesized r-N-GY nanostructure can serve as a semipermeable membrane for highly efficient separation of He and its isotopes. Our simulation results clearly reveal that the r-N-GY monolayer exhibits an excellent selectivity in separating He from natural gas molecules, with a selectivity exceeding 10 8 toward He over other impurities. Additionally, the He permeance reaches 1.1 × 10 −5 mol s −1 m −2 Pa −1 , surpassing the industrial standard by 4 orders of magnitude. We further demonstrate that the application of tensile strain can effectively regulate He permeance. For instance, the application of 8% strain along the armchair (AC) direction results in the substantial reduction in the energy barrier for gas molecules passing through the r-N-GY monolayer, leading to a two-order-of-magnitude increase in He permeation rate compared to that of the unstrained case, while still maintaining ultra-high He/Ne and He/N 2 selectivity (10 3 and 10 15 , respectively). Moreover, there is a marked enhancement for the quantum sieving of 3 He/ 4 He upon application of 8% tensile strain along AC direction, thus offering a promising strategy for both He and 3 He isotope separation. Therefore, this study suggests a high performance and strain-tunable nanostructure candidate with great promise in He and He isotope purification that can constitute the ultimate functions of nanomaterials in semi-permeable membrane technique.

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Section: Introductionmentioning

confidence: 99%

Simulation Studies on Improved Separation of Helium and Helium Isotopes by Strain Modulated r-N-GY Monolayer Nanostructure

Zhang

et al. 2023

ACS Appl. Nano Mater.

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Geothermal resources of Réunion Island, Indian Ocean, studied by noble gas systematics in thermal springs

Roulleau,

Pinti,

Famin

et al. 2024

Journal of Volcanology and Geothermal Research

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Origin of Helium and Associated Fluid in Fault‐Related Hydrothermal Systems of the Eastern Pyrenees

Milesi,

Cardoso,

Pik

et al. 2024

Terra Nova

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Intense hydrothermal activity hosted by regional tectonic structures occurs in the Eastern part of the Pyrenees. Helium isotope ratios (3He/4He) in hot springs along the Têt (0.033–0.099 Ra) and the Tech (0.171–0.375 Ra) faults indicate different signatures from purely crustal to slightly contaminated by magmatic helium. 3He/4He ratio increased towards the East, consistently with the observed thinning of the continental crust. These results suggest localised and not interconnected hydrothermal systems at fault scale. The origin of magmatic helium contamination is discussed in the light of the Gulf of Lion geodynamic evolution and data from comparable orogenic hydrothermal systems in the Alps.

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Regional-Scale Distribution of Helium Isotopes in Aquifers: How Informative Are They as Groundwater Tracers and Chronometers?

Cited by 3 publications

References 70 publications

Simulation Studies on Improved Separation of Helium and Helium Isotopes by Strain Modulated r-N-GY Monolayer Nanostructure

Simulation Studies on Improved Separation of Helium and Helium Isotopes by Strain Modulated r-N-GY Monolayer Nanostructure

Geothermal resources of Réunion Island, Indian Ocean, studied by noble gas systematics in thermal springs

Origin of Helium and Associated Fluid in Fault‐Related Hydrothermal Systems of the Eastern Pyrenees

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