Calcium Naphthenates in Complex Production Systems - Evaluation and Chemical Inhibition Challenges

Abstract: Over the last 15 years, much research and many field application studies have led to considerable improvement in our understanding of the formation and mitigation of calcium naphthenate deposits.In this field example, calcium naphthenates and stable emulsions are formed following mixing of fluids from different reservoir formations on a single FPSO. High TAN crudes containing low levels of ARN produce with low calcium formation waters whereas low TAN crudes are associated with high calcium formation waters. Mi… Show more

“…A class of C 80 -C 82 tetraprotic naphthenic acids having molecular weight between 1227 and 1235 g/mol have been identified (Smith et al 2007;Baugh et al 2005). Also known as C 80 -tetraacids (C 80 -TA) or ARN acid (an allusion to their unique structural and molecular properties), they occur in low concentration (0.6-3.6 ppm) in oil but are the predominant acids in calcium naphthenate deposits (Juyal et al 2015;Nichols et al 2014). ARN acids have 4 to 8 rings in their structure.…”

“…Naphthenic acids are sparingly soluble in water except the very low molecular weight members (Havre et al 2002). The extent to which naphthenic acid dissociates depends on the pKa and partitioning coefficient of the individual acids (Nichols et al 2014). The partition coefficient is a function of the pH, concentration and structure of the acid (Havre et al 2002).…”

“…Apart from emulsion stabilization, the most notable flow assurance problem associated with sodium carboxylate soaps is the formation of sludge. Sludge formation begins when the amount of the fairly hydrophilic carboxylate soap exceeds its solubility limit (Nichols et al 2014;Junior et al 2013). Sludge is a highly viscous, paste-like carboxylate/bicarbonate-stabilized emulsion containing entrained solids such as sand, mineral scale and corrosion products.…”

“…This effect is related to the emulsion stabilization ability of bicarbonate. In a field simulation test, it was observed that despite relatively low pH, CaN formation increased due to the increase in bicarbonate concentration (Nichols et al 2014). This means that calcium naphthenate may precipitate at untypically low pH values if bicarbonate content (and calcium content) of the brine is high.…”

“…The low-level dissociation of tetraacid at low pH is sufficient to produce calcium naphthenate deposition due to the emulsion stabilizing effect of bicarbonate. Bicarbonate content of oil may increase by commingling of fluid or can be contributed by residual CO 2 in the separator (Nichols et al 2014).…”

Oilfield metal naphthenate formation and mitigation measures: a review

“…A class of C 80 -C 82 tetraprotic naphthenic acids having molecular weight between 1227 and 1235 g/mol have been identified (Smith et al 2007;Baugh et al 2005). Also known as C 80 -tetraacids (C 80 -TA) or ARN acid (an allusion to their unique structural and molecular properties), they occur in low concentration (0.6-3.6 ppm) in oil but are the predominant acids in calcium naphthenate deposits (Juyal et al 2015;Nichols et al 2014). ARN acids have 4 to 8 rings in their structure.…”

“…Naphthenic acids are sparingly soluble in water except the very low molecular weight members (Havre et al 2002). The extent to which naphthenic acid dissociates depends on the pKa and partitioning coefficient of the individual acids (Nichols et al 2014). The partition coefficient is a function of the pH, concentration and structure of the acid (Havre et al 2002).…”

“…Apart from emulsion stabilization, the most notable flow assurance problem associated with sodium carboxylate soaps is the formation of sludge. Sludge formation begins when the amount of the fairly hydrophilic carboxylate soap exceeds its solubility limit (Nichols et al 2014;Junior et al 2013). Sludge is a highly viscous, paste-like carboxylate/bicarbonate-stabilized emulsion containing entrained solids such as sand, mineral scale and corrosion products.…”

“…This effect is related to the emulsion stabilization ability of bicarbonate. In a field simulation test, it was observed that despite relatively low pH, CaN formation increased due to the increase in bicarbonate concentration (Nichols et al 2014). This means that calcium naphthenate may precipitate at untypically low pH values if bicarbonate content (and calcium content) of the brine is high.…”

“…The low-level dissociation of tetraacid at low pH is sufficient to produce calcium naphthenate deposition due to the emulsion stabilizing effect of bicarbonate. Bicarbonate content of oil may increase by commingling of fluid or can be contributed by residual CO 2 in the separator (Nichols et al 2014).…”

Oilfield metal naphthenate formation and mitigation measures: a review

Naphthenate and carboxylate soap treatment

Isolation of tetrameric acids from naphthenates deposits and characterization by high-resolution analytical techniques