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Nickel Vanadium Ni V Crude Oil Petroleum Gravity Density

Reference data and engineering information about nickel vanadium ni v crude oil petroleum gravity density for material properties applications.

nickelvanadiumcrudeoilData Table

Overview

Engineering reference data for Nickel Vanadium Ni V Crude Oil Petroleum Gravity Density in material science and properties.

Key Formulas

Stress

σ=FA\sigma = \frac{F}{A}

Force per unit area.

Strain

ε=ΔLL0\varepsilon = \frac{\Delta L}{L_0}

Change in length per original length.

Hooke's Law

σ=Eε\sigma = E \varepsilon

Stress proportional to strain in elastic region.

Thermal Expansion

ΔL=αL0ΔT\Delta L = \alpha L_0 \Delta T

Length change due to temperature.

Variables

SymbolDescriptionUnit
σ\sigmaStressPa
ε\varepsilonStrain
EEYoung's modulusPa
α\alphaThermal expansion coefficient1/°C
ΔT\Delta TTemperature change°C

Nickel and Vanadium Content in Crude Oils vs. API Gravity

Analysis of over 120 crude oil assays from major producers (BP, ExxonMobil, Statoil, 2008-2017) reveals a distinct pattern in the concentration of trace metals. Each data point represents a single crude oil, which invariably contains both nickel (Ni) and vanadium (V).

A key observable trend is that heavier, denser crude oils (lower API gravity) typically contain significantly higher concentrations of nickel and vanadium. These metals are often associated with the heavier asphaltene and resin fractions of petroleum.

Example Data: Trace Metals vs. Crude Oil Density

The following table illustrates the inverse relationship between API gravity and Ni/V content, using representative data points inspired by the cited assays.

5 rows
Representative nickel and vanadium concentrations vs. API gravity for crude oils.
API Gravity(°API)
Nickel (Ni)(ppm)
Vanadium (V)(ppm)
15.245180
21.71865
28.5822
35.125
40.80.51

Source: Based on data pattern from BP, ExxonMobil, and Statoil crude oil assays (2008-2017)

Important Properties

  • Source of Metals: Nickel and vanadium are naturally occurring, bound within complex organometallic compounds (e.g., porphyrins) in the heaviest fractions of crude oil.
  • Significance: High concentrations of these metals are undesirable as they poison catalysts during fluid catalytic cracking (FCC) and other refining processes, leading to increased operational costs and catalyst replacement.
  • Visual Trend: When plotted, the data for Ni and V versus API gravity typically shows a strong negative correlation. This means as the density increases (API gravity decreases), the metal content increases sharply.

Interactive Charts

crude metal nickel vanadium gravity density

References