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{
"count": 92732,
"next": "https://eartharxiv.org/api/keywords/?format=api&limit=100&offset=10800",
"previous": "https://eartharxiv.org/api/keywords/?format=api&limit=100&offset=10600",
"results": [
{
"word": " advection"
},
{
"word": " atmospheric composition"
},
{
"word": "chemical transport modeling"
},
{
"word": "dimensionality reduction"
},
{
"word": "atmospheric composition"
},
{
"word": "operational forecasting"
},
{
"word": "storm track"
},
{
"word": "midwinter suppression"
},
{
"word": "anticyclone"
},
{
"word": "Lagrangian tracking"
},
{
"word": "interdecadal modulation"
},
{
"word": "East Asia"
},
{
"word": "Japan Sea"
},
{
"word": " leaf-waxes"
},
{
"word": " hydroclimate reconstructions"
},
{
"word": "Black Terrace"
},
{
"word": " Black Terrace Crater"
},
{
"word": " Ferdinand von Hochstetter"
},
{
"word": " spatial"
},
{
"word": " historical survey data"
},
{
"word": " Tarawera eruption"
},
{
"word": " Pink"
},
{
"word": " Black and White Terraces"
},
{
"word": " Lake Rotomahana"
},
{
"word": " Rotomahana Basin"
},
{
"word": "Seagrass mapping; Zostera japonica; Time-series analysis; Multi-Otsu algorithm; Yellow River Delta"
},
{
"word": "Seagrass mapping"
},
{
"word": "Zostera japonica"
},
{
"word": "Multi-Otsu algorithm"
},
{
"word": "Yellow River Delta"
},
{
"word": "LANDSAT satellites"
},
{
"word": " hyperspectral"
},
{
"word": " reflectance"
},
{
"word": " macrolitter"
},
{
"word": " spectral angle mapping"
},
{
"word": "reflectance"
},
{
"word": "macrolitter"
},
{
"word": "spectral angle mapping"
},
{
"word": "Land use/Land cover; Uttarakhand; Himalaya; Climate; Anthropogenic action."
},
{
"word": "ULVZ"
},
{
"word": "slab window-azimuthal anisotropy-mantle flow-olivine fabrics-volcanic gap-toroidal flow"
},
{
"word": "Rotomahana Basin"
},
{
"word": " reverse engineering"
},
{
"word": " Mount Tarawera eruption"
},
{
"word": " Lake Rotomahana."
},
{
"word": ": Rotomahana Basin"
},
{
"word": "Gas geothermometer; Geothermal fluid; Reservoir temperature; Supercritical geothermal fluids; Yangbajing geothermal field"
},
{
"word": " Air Quality"
},
{
"word": " Aerosol Index"
},
{
"word": " Functional Data Analysis."
},
{
"word": "Aerosol Index"
},
{
"word": "Functional Data Analysis"
},
{
"word": "geological hydrogen storage"
},
{
"word": " µCT"
},
{
"word": " drainage"
},
{
"word": " imbibition"
},
{
"word": "Partially Penetrating Wells"
},
{
"word": "Aquifer Test"
},
{
"word": "Upper Rhine Valley"
},
{
"word": "Hydraulic Tomography"
},
{
"word": " Random Forest Regression"
},
{
"word": " African continent"
},
{
"word": "Random Forest Regression"
},
{
"word": "African continent"
},
{
"word": "Layer-wise Relevance Propagation"
},
{
"word": "Horizontal well; Geothermal exploitation; Hot dry rocks; Working fluids; Injection-production modes; Optimization scheme"
},
{
"word": "heavy metals"
},
{
"word": "AMDE"
},
{
"word": "MDF"
},
{
"word": "atmospheric deposition"
},
{
"word": "bryophyte"
},
{
"word": "terrestrial vegetation"
},
{
"word": "The fundamental properties of salt have long been exploited in the search for hydrocarbons"
},
{
"word": " as they influence many of the hydrocarbon play elements. This industrial application has driven the pursuit of salt tectonic knowledge over the last century and led to major conceptual advances in th"
},
{
"word": " the current need"
},
{
"word": " and social-political demand"
},
{
"word": " to decarbonize suggests that the applicability of salt tectonic knowledge will expand to other aspects of the subsurface that are relevant to the energy transition. The pace of this change leaves the"
},
{
"word": " we discuss the role salt tectonics can play in a number of key energy transition technologies"
},
{
"word": " namely"
},
{
"word": " energy storage as gas in salt caverns (e.g. hydrogen and compressed air)"
},
{
"word": " and geothermal energy. For each of these technologies we explore: i) fundamental concepts and driving forces; ii) how and why the properties of salt are of importance; and iii) the key salt-related t"
},
{
"word": " potential future research directions"
},
{
"word": " and technical approaches needed for large-scale development. We highlight how salt basins offer vast potential for development throughout the energy transition including"
},
{
"word": " but not limited to: i) the likely demand for thousands of new hydrogen storage caverns inside salt bodies by 2050; ii) a likely early focus for porous media CO2 storage sites in basins strongly influ"
},
{
"word": " and evolution of salt structures and their surrounding sediments"
},
{
"word": " and potentially the development of more predictive models of salt tectonic behaviour. Critically"
},
{
"word": " we see the need to integrate learnings of salt tectonics gained in the academic"
},
{
"word": " mining"
},
{
"word": " solution mining"
},
{
"word": " and oil and gas communities"
},
{
"word": " and apply a fresh perspective to answer research questions of relevance to the energy transition. Developing this new understanding will help optimise design"
},
{
"word": " reduce geotechnical risk"
},
{
"word": " and improve efficiency for energy transition technologies"
},
{
"word": " thus indicating a strong future demand for salt tectonic research."
},
{
"word": "salt caverns"
},
{
"word": "CCUS"
},
{
"word": "\\item Tsunamis \\item Subduction zone processes \\item Mechanics"
},
{
"word": " and modelling \\item Guided waves \\item Wave propagation \\item Computational seismology"
},
{
"word": " and modeling"
},
{
"word": "Guided waves"
}
]
}