Jake A. Nesbitt scite author profile

Jake A. Nesbitt

5Publications

54Citation Statements Received

131Citation Statements Given

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122

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University of Saskatchewan

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Vanadium Geochemistry of Oil Sands Fluid Petroleum Coke

Nesbitt

Lindsay

2017

Environ. Sci. Technol.

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Vanadium has previously been linked to elevated toxicity of leachates derived from oil sands petroleum coke. However, geochemical controls on V mobility within coke deposits remain poorly constrained. Detailed examinations of porewater and solid-phase V geochemistry were therefore performed on oil sands fluid petroleum coke deposits in Alberta, Canada. Sample collection focused on both active and reclaimed deposits, which contained more than 3 × 10 m of fluid petroleum coke. Dissolved V concentrations were highest (up to 3.0 mg L) immediately below the water table but decreased rapidly with increasing depth. This trend corresponded to a transition from mildly acidic (pH 6-7) and oxic conditions to mildly alkaline (pH 7-8.5) and anoxic conditions. Scanning electron microscopy (SEM), electron microprobe analysis (EMPA), and micro-X-ray fluorescence (μXRF) mapping revealed coke particles exhibited an internal structure characterized by successive concentric layers. The outer margins of these layers were characterized by elevated V, Fe, Si, and Al concentrations, indicating the presence of inorganic phases. Micro-X-ray absorption near-edge structure (μXANES) spectroscopy revealed that V speciation was dominated by V(IV) porphyrins except at outer margins of layers, where octahedrally coordinated V(III) was a major component. Minor to trace V(V) was also detected within fluid petroleum coke particles.

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Geochemical characteristics of oil sands fluid petroleum coke

Nesbitt

Lindsay

Chen

2017

Applied Geochemistry

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Aqueous- and solid-phase molybdenum geochemistry of oil sands fluid petroleum coke deposits, Alberta, Canada

2019

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Nickel geochemistry of oil sands fluid petroleum coke deposits, Alberta, Canada

Nesbitt

Robertson

Swerhone

et al. 2018

FACETS

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Nickel (Ni) leaching from oil sands petroleum coke can have toxicological effects on aquatic organisms. However, geochemical controls on Ni release, transport, and attenuation within coke deposits remains limited. We examined the geochemistry of fluid coke and associated pore waters from two deposits at an oil sands mine near Fort McMurray, Alberta, Canada. Synchrotron-based micro-X-ray fluorescence (μXRF) and micro-X-ray absorption near edge structure (μXANES) spectroscopy show that Ni(II)-porphyrin complexes dominate, but inorganic phases including Ni(II)-sulfide and Ni(II)-oxide comprise a minor component of fluid coke. Sequential chemical extractions suggested that sorption–desorption reactions may influence Ni mobility within fluid coke deposits. Although only a small proportion of total Ni (<4%) is susceptible to leaching under environmentally relevant concentrations, dissolved Ni concentrations ( n = 65) range from 2 to 120 μg·L−1 (median 7.8 μg·L−1) within the two deposits and generally decrease with depth below the water table. Pore water Ni concentrations are negatively correlated with pH, but not with dissolved sulfate, bicarbonate, or chloride. Overall, our findings suggest that pore water pH and sorption–desorption reactions are principal controls on dissolved Ni concentrations within oil sands fluid petroleum coke deposits.

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Vanadium and Nickel Geochemistry of Fluid Petroleum Coke Deposits at an Oil Sands Mine, Alberta, Canada

Lindsay¹,

Nesbitt²,

Swerhone³

2016

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Jake A. Nesbitt

Vanadium Geochemistry of Oil Sands Fluid Petroleum Coke

Geochemical characteristics of oil sands fluid petroleum coke

Aqueous- and solid-phase molybdenum geochemistry of oil sands fluid petroleum coke deposits, Alberta, Canada

Nickel geochemistry of oil sands fluid petroleum coke deposits, Alberta, Canada

Vanadium and Nickel Geochemistry of Fluid Petroleum Coke Deposits at an Oil Sands Mine, Alberta, Canada

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