Naphthenic Acid Corrosion - test 0.25

Naphthenic acid corrosion (NAC), along with high-temperature sulfidation, is commonly recognized as two primary damage mechanisms prevalent in the high-temperature sections of atmospheric and vacuum distillation units. The subsequent chapter offers an overview of the naphthenic acid corrosion mechanism, including process-corrosion relationships and solutions for corrosion mitigation.

General Information

Historically, the term ’naphthenic acids’ referred to organic acids featuring saturated aliphatic rings with a carbon atom count ranging from 6 to 20, primarily found in crude oil and distillation side cuts. However, its definition has evolved to encompass all types of organic acids, including those with both saturated and unsaturated rings, some with structures containing up to 50 carbon atoms (see Figure 1). The molecular weight (MW) of these acids varies approximately from 100 to nearly 600-700 atomic units (au).

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Tools

Below is a user-friendly calculator to estimate crude corrosivity based on typical process variables.

These tools are intended as guidelines only, serving to offer preliminary insights into crude corrosivity. Engineers and specialists should exercise caution and discretion when interpreting the results, considering the complexity of factors influencing corrosion behavior.

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Calculator

Crude-Corrology®

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NOTICE: The provided tool is for advisory purposes only. Corrology Innovations Limited and its employees shall not be held liable for any damages, resulting from the use or inability to use the information provided.

CDU/VDU Risk & Sensitivity Analysis

Perform multi-material corrosion risk assessments for individual process points. Select a Corrosion Loop to calculate degradation across various alloys, then utilize Sensitivity Analysis to instantly identify sub-critical parameter levels and safety buffers for all materials within the circuit.

Customized configurations and batch multi-point analysis are available exclusively under the Enterprise Subscription.

Circuit / Loop Selection Select a defined corrosion loop to populate the risk profile
Low: < 0.2 mm/y Moderate: 0.2 to < 0.5 mm/y High: ≥ 0.5 mm/y
Note: Parameters marked 'Sub-critical' are within a 10% safety buffer of the next threshold.
UnitCircuit / LoopMaterialParameter (sub-critical)Corrosion RateRisk RankRemaining Service LifeComments
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References

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