Search Results - "Palandri, James L."

Experimental investigation of CO2-brine-rock interactions at elevated temperature and pressure : Implications for CO2 sequestration in deep-saline aquifers by ROSENBAUER, Robert J, KOKSALAN, Tamer, PALANDRI, James L

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Geochemical models of metasomatism in ultramafic systems: serpentinization, rodingitization, and sea floor carbonate chimney precipitation by Palandri, James L, Reed, Mark H

“…In a series of water-rock reaction simulations, we assess the processes of serpentinization of harzburgite and related calcium metasomatism resulting in…”
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Ferric iron-bearing sediments as a mineral trap for CO2 sequestration: Iron reduction using sulfur-bearing waste gas by Palandri, James L., Kharaka, Yousif K.

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Ferric iron in sediments as a novel CO2 mineral trap : CO2-SO2 reaction with hematite by PALANDRI, James L, ROSENBAUER, Robert J, KHARAKA, Yousif K

“…Thermodynamic simulations of reactions among SO2-bearing CO2-dominated gas, water and mineral phases predict that FeIII in sediments should be converted almost…”
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Reconstruction of in situ composition of sedimentary formation waters by Palandri, James L., Reed, Mark H.

“…Chemical equilibrium calculations on sedimentary formation waters show that the waters, as analyzed, cannot be in equilibrium with diagenetic minerals in their…”
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Ferric iron-bearing sediments as a mineral trap for CO sub(2) sequestration: Iron reduction using sulfur-bearing waste gas by Palandri, James L, Kharaka, Yousif K

“…We present a novel method for geologic sequestration of anthropogenic CO sub(2) in ferrous carbonate, using ferric iron present in widespread redbeds and other…”
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Ferric iron-bearing sediments as a mineral trap for CO 2 sequestration: Iron reduction using sulfur-bearing waste gas by Palandri, James L., Kharaka, Yousif K.

“…We present a novel method for geologic sequestration of anthropogenic CO 2 in ferrous carbonate, using ferric iron present in widespread redbeds and other…”
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Experimental investigation of CO 2–brine–rock interactions at elevated temperature and pressure: Implications for CO 2 sequestration in deep-saline aquifers by Rosenbauer, Robert J., Koksalan, Tamer, Palandri, James L.

“…Deep-saline aquifers are potential repositories for excess CO 2, currently being emitted to the atmosphere from anthropogenic activities, but the reactivity of…”
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Ferric iron in sediments as a novel CO 2 mineral trap: CO 2–SO 2 reaction with hematite by Palandri, James L., Rosenbauer, Robert J., Kharaka, Yousif K.

“…Thermodynamic simulations of reactions among SO 2-bearing CO 2-dominated gas, water and mineral phases predict that Fe III in sediments should be converted…”
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Applications of computed chemical equilibria: I. Reconstruction of in situ composition of sedimentary formation waters. II. Disposal of hydrogen sulfide from natural gas. III. Serpentinization, related rodingitization, and silica-carbonate alteration of ultramafic rock by Palandri, James L

“…Calculations on published analyses of sedimentary waters lacking data for aluminum, silica, and organic acids, show that the waters are not in equilibrium with…”
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Applications of computed chemical equilibria: I. Reconstruction of in situ composition of sedimentary formation waters. II. Disposal of hydrogen sulfide from natural gas. III. Serpentinization, related rodingitization, and silica-carbonate alteration of ultramafic rock by Palandri, James L

“…Calculations on published analyses of sedimentary waters lacking data for aluminum, silica, and organic acids, show that the waters are not in equilibrium with…”
Get full text