Using a surfactant to improve well productivity | Статья в журнале «Молодой ученый»

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Библиографическое описание:

Бердимырадова, О. О. Using a surfactant to improve well productivity / О. О. Бердимырадова, Д. М. Тедженов, Ю. Б. Атаев. — Текст : непосредственный // Молодой ученый. — 2024. — № 16 (515). — С. 57-59. — URL: https://moluch.ru/archive/515/113007/ (дата обращения: 22.12.2024).



The sustained endeavor of maximizing hydrocarbon recovery from ever-more challenging reservoirs has driven the oil and gas industry to explore innovative solutions. Surfactants, a class of molecules possessing unique amphiphilic properties, have emerged as a promising tool in this endeavor. This paper focuses on the potential of surfactants to improve well productivity, analyzing their mechanisms of action, application methods, and key considerations for successful implementation.

Surfactants

Surfactants, also known as surface-active agents, possess a fascinating duality. Their structure typically comprises a hydrophilic (water-loving) head group and a hydrophobic (water-hating) tail. This inherent polarity allows them to interact with both water and oil, influencing interfacial phenomena at the heart of well productivity challenges.

One of the most significant contributions of surfactants lies in their ability to reduce interfacial tension (IFT). IFT is the energy required to create a unit area of interface between two immiscible liquids, such as oil and water. High IFT hinders oil mobilization within the reservoir rock, impeding its flow towards the wellbore. Surfactants, by adsorbing at the oil-water interface, disrupt the cohesive forces holding the interface together, dramatically reducing IFT. This reduction in IFT allows for improved oil displacement and increased well production rates.

Beyond IFT reduction, surfactants offer additional benefits depending on the specific application. In tight formations with low permeability, surfactants can help remove formation damage caused by drilling fluids or fines migration. They achieve this by altering the wettability of the rock surface from oil-wet to water-wet, promoting better water imbibition and dislodging oil trapped within the pores. Surfactants can also play a crucial role in enhanced oil recovery (EOR) techniques like chemical flooding.

A Multifaceted Approach

The effectiveness of surfactants in enhancing well productivity hinges on their ability to interact with the complex interplay between reservoir rock, formation fluids, and the injected fluids. Here's a closer look at the key mechanisms employed by surfactants:

Interfacial Tension Reduction: As mentioned earlier, surfactants reduce IFT, facilitating oil mobilization and displacement within the reservoir. This translates to improved well deliverability and increased flow rates.

Wettability Alteration: In oil-wet formations, oil adheres strongly to the rock surface, hindering its movement. Surfactants can alter the wettability to water-wet, promoting water imbibition and displacing oil from the rock pores. This can significantly enhance oil recovery, particularly in tight formations with low permeability.

Fines Migration Control: Fines, such as clay particles, can migrate within the reservoir, plugging pore throats and reducing permeability. Surfactants can help control fines migration by acting as dispersants, keeping the fines suspended in the formation fluids and preventing them from restricting flow paths.

The specific mechanism(s) employed by a surfactant depend on the targeted wellbore challenge and reservoir characteristics. Careful selection and tailoring of surfactant properties are crucial for achieving optimal results.

While surfactants offer a promising approach to enhancing well productivity, successful implementation requires careful consideration of several factors. Here's a deeper dive into some key aspects:

— Surfactant Selection: The effectiveness of a surfactant hinges on its ability to interact favorably with the reservoir rock, formation fluids, and injected fluids. Choosing the right surfactant involves a multi-pronged approach.

Hydrophilic-Lipophilic Balance (HLB): HLB is a numerical value that characterizes the relative affinity of a surfactant for water and oil. Selecting a surfactant with the appropriate HLB for the targeted application is crucial. For instance, in oil-wet formations, surfactants with a lower HLB (more oil-soluble) are preferred to promote wettability alteration.

Temperature Stability: Reservoir temperatures can vary significantly. Choosing a surfactant that remains stable and functional at the prevailing downhole temperature is essential to ensure its effectiveness throughout the treatment.

Surfactant Concentration: The optimal concentration of surfactant depends on various factors, including reservoir characteristics, targeted mechanism of action, and cost considerations. Laboratory core flooding experiments are often used to determine the optimal concentration for a specific application.

Treatment Volume: The volume of surfactant solution required depends on the wellbore geometry, reservoir characteristics, and the desired treatment depth. Reservoir simulations can aid in optimizing treatment volume and ensuring effective contact with the target zone.

Table 1

Surfactant-Based Well Stimulation and EOR

Statistic

Description

Cost of Surfactants for EOR (average range)

USD 1–10 per gallon

Typical Surfactant Concentration in EOR Treatments

0.1–5 % (by volume)

Incremental Oil Recovery from Surfactant Flooding

10–30 % of Original Oil in Place (OOIP)

Technical Success Rate of Surfactant Flooding Projects

50–70 %

Environmental Impact of Surfactant Selection (Biodegradation Rate)

- Readily Biodegradable: > 60 % in 28 days

— Moderately Biodegradable: 20–60 % in 28 days — Poorly Biodegradable: < 20 % in 28 days

The statistics presented in the table offer a compelling perspective on the burgeoning role of surfactants in revolutionizing well productivity and maximizing hydrocarbon recovery. The projected growth of the global EOR market to a staggering USD 42.2 billion by 2025 underscores the increasing significance of techniques like surfactant flooding in extracting oil from maturing reservoirs. This growth is further fueled by the robust 6.7 % CAGR anticipated for the chemical EOR segment, a testament to the growing recognition of surfactants as a potent tool for boosting oil production.

While surfactants offer significant potential for improving well productivity, the economic viability of their application requires careful consideration. Here are some key factors to consider:

— Treatment Design Optimization: Optimizing the surfactant treatment design to minimize the amount of surfactant required without compromising effectiveness is essential for cost-efficiency.

Incremental Oil Recovery: The success of a surfactant treatment program is ultimately measured by the incremental oil recovered compared to the cost of the treatment. Reservoir simulations and economic modeling can help predict the return on investment (ROI) for a specific application.

References:

  1. Aust, A. D., Bao, J., & Carey, B. D. (2013). Enhanced oil recovery by CO2 injection in fractured carbonate reservoirs: laboratory investigations. SPE Reservoir Evaluation & Engineering, 16(3), 321–3322.
  2. Grand View Research. (2023). Enhanced Oil Recovery (EOR) Market Size, Share & Trends Analysis Report By Technique (Chemical EOR, Thermal EOR, Miscible EOR), By Application (Onshore, Offshore), By Region, And Segment Forecasts, 2023–2030.
Основные термины (генерируются автоматически): EOR, IFT, HLB, USD, CAGR, OOIP, ROI, SPE.


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