Asphaltenes Pipeline Cleanout: A Horizontal Challenge for Coiled Tubing

Abstract: Crude produced in the North of Monagas Estate, East Venezuela, has a high asphaltene content, which comes out of solution in both the wellbore tubulars and pipeline. This can eventually lead to complete plugging of the pipeline. This increases the cost of maintaining production because of the need to periodically remove these organic deposits. In a specific case, 9 km of 8–5/8-in. outside diameter (OD) production pipeline was successfully cleaned out using 2-in. OD coiled-tubing (CT) to regain pipeline product… Show more

“…SARA analysis has successfully guided the processing and refining paths of crude oils based on the quantity of asphaltenes in crude oils. Asphaltenes precipitate when the temperature/pressure changes, or the oil loses its light components, is mixed with a paraffinic solvent, or is blended with a paraffinic crude oil. , Such precipitation may lead to the deposition of asphaltenes in production wells and pipelines (Figure a), resulting in the flow restriction or even bringing oil production to a halt. ,− In addition, asphaltenes play a significant role in the stabilization of water-in-oil (W/O) emulsions − (Figure b), which lead to severe corrosion problems in production and transportation as a result of the dissolved salts and entrained fine solids carried by emulsified water droplets . Moreover, crude oil with a high content of asphaltenes tends to form coke when heated, which is highly detrimental to heat exchangers and catalyst beds in upgrading and refining. ,,, Because of its simplicity, SARA analysis is a reasonable first step in characterizing oils, providing warning for potential asphaltene-related losses suffered by the oil industry.…”

“…(a) Pipeline plugged with asphaltenes. Reprinted with permission from ref . Copyright 2005 Society of Petroleum Engineers.…”

Fractionation of Asphaltenes in Understanding Their Role in Petroleum Emulsion Stability and Fouling

“…SARA analysis has successfully guided the processing and refining paths of crude oils based on the quantity of asphaltenes in crude oils. Asphaltenes precipitate when the temperature/pressure changes, or the oil loses its light components, is mixed with a paraffinic solvent, or is blended with a paraffinic crude oil. , Such precipitation may lead to the deposition of asphaltenes in production wells and pipelines (Figure a), resulting in the flow restriction or even bringing oil production to a halt. ,− In addition, asphaltenes play a significant role in the stabilization of water-in-oil (W/O) emulsions − (Figure b), which lead to severe corrosion problems in production and transportation as a result of the dissolved salts and entrained fine solids carried by emulsified water droplets . Moreover, crude oil with a high content of asphaltenes tends to form coke when heated, which is highly detrimental to heat exchangers and catalyst beds in upgrading and refining. ,,, Because of its simplicity, SARA analysis is a reasonable first step in characterizing oils, providing warning for potential asphaltene-related losses suffered by the oil industry.…”

“…(a) Pipeline plugged with asphaltenes. Reprinted with permission from ref . Copyright 2005 Society of Petroleum Engineers.…”

Fractionation of Asphaltenes in Understanding Their Role in Petroleum Emulsion Stability and Fouling

“…Despite their applications in coatings and paving, asphaltenes are generally considered a nuisance. − Their ability to self-associate and partition at oil–solid and oil–water interfaces is the root cause of several major issues encountered during oil production and processing. The adsorption of asphaltenes onto solid surfaces can (i) change the wettability of reservoir rocks and plug wellbores , and (ii) block pipelines and foul equipment, thereby reducing oil recovery and potentially halting oil production. On the other hand, the adsorption of asphaltenes to the oil–water interfaces significantly contributes to the stabilization of undesirable water-in-oil (W/O) emulsions, which pose severe corrosion problems to pipelines and refining facilities due to salts and fine solids associated with emulsified water droplets. − These asphaltene-induced problems are closely related to the inevitable self-aggregation behavior of asphaltenes as a result of the strong adsorption of asphaltene aggregates at oil–water interfaces or onto mineral and metallic surfaces. ,,, …”

“…2−4 Their ability to self-associate and partition at oil− solid and oil−water interfaces is the root cause of several major issues encountered during oil production and processing. The adsorption of asphaltenes onto solid surfaces can (i) change the wettability of reservoir rocks and plug wellbores 5,6 and (ii) block pipelines and foul equipment, 7 thereby reducing oil recovery and potentially halting oil production. On the other hand, the adsorption of asphaltenes to the oil−water interfaces significantly contributes to the stabilization of undesirable water-in-oil (W/O) emulsions, which pose severe corrosion problems to pipelines and refining facilities due to salts and fine solids associated with emulsified water droplets.…”

Interactions of Asphaltene Subfractions in Organic Media of Varying Aromaticity

“…Naturally occurring asphaltenes in crude oil are known for causing considerable problems in the petroleum industry . Primary damages caused by asphaltenes include plugging wellbore, fouling transportation pipelines, producing a stabilized oil–water emulsion, and catalyst deactivation . Most of these problems can be attributed to the aggregation and precipitation behaviors of asphaltenes, which have been widely observed in experimental studies .…”

Asphaltene Aggregation and Assembly Behaviors in Organic Solvents with Water and Inhibitor