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Month: July 2025

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News Article

Micromodel: An Innovative Technology for Optimizing Enhanced Oil Recovery

Micromodel fabrication process for enhanced oil recovery (EOR) research, showing step-by-step visualization from reservoir characterization to micromodel testing in oil-wet conditions.

Amid the challenges of enhanced oil recovery (Enhanced Oil Recovery), laboratory methods capable of visually representing fluid displacement mechanisms have become increasingly crucial. This is where the micromodel emerges as an innovative solution proudly developed by Indonesian researchers.

Micromodel is a two-dimensional laboratory device designed to replicate the pore structure of reservoir rocks, such as sandstone or carbonate rocks. Through a micromodel, the movement of fluids—such as water, oil, surfactants, and polymers—can be observed directly and in real-time.

Comparison of coreflood and micromodel flooding methods in observing fluid flow in reservoir rocks

Most conventional laboratory tests, like coreflooding, have limitations in providing direct visualization of chemical injection mechanisms. Micromodel address this challenge by enabling real-time observation of interfacial tension changes, wettability alteration, and viscosity displacement efficiency at the pore scale.

What Is the Purpose of Using a Micromodel?

Micromodel are used to:

  • Visually analyze the working mechanisms of chemical EOR
  • Evaluate the effectiveness of surfactants or polymers before upscaling to larger tests
  • Design efficient and targeted injection strategies
  • Identify phenomena such as channeling, viscous fingering, and oil entrapment often undetectable in conventional tests

Micromodel of OGRINDO ITB have some advantages:

  • Indigenous Innovation: Designed and developed by skilled local researchers.
  • Fast, Simple, and Cost-Effective: More efficient than coreflooding, in terms of time and cost.
  • Costumized Design: Tailored to match pore characteristics of sandstone or carbonat, even based on actual reservoir data.
  • Real-Time Visualization: Enables direct observation of fluid behavior at the microscopic scale.
  • Supports More Accurate EOR Design: Acts as a bridge between laboratory results and real-field applications.

Fabrication Process of the Micromodel

Fabrication process of micromodel includes the following stages:

Five main stages of micromodel
  1. Reservoir Characterization: Identifying the physical and petrophysical properties of the reservoir rock, such as porosity, permeability, fluid saturation, and geological structure.
  2. Thin Section & Petrography Analysis: Observing ultra-thin rock slices under a microscope to study mineral composition and rock textures.
  3. Rock Digitization: Converting physical rock data into 2D or 3D digital models.
  4. Micromodel Fabrication: Creating the micromodel through pore-pattern design, etching, and assembling materials using techniques such as thermal bonding.
  5. Micromodel Ready to Use: Final stage where micromodel has passed all fabrication and characterization tests, making it ready for EOR experiments such as surfactant or polymer injection or other EOR mechanism.

The key advantage of OGRINDO's micromodel lies in its design flexibility. By incorporating actual geological and petrophysical field data, micromodel can be customized to closely replicate real reservoir conditions. This makes the experimental results more relevant and reliable for supporting technical decisions in the field.

Visualization of oil-wet state in the micromodel

🔬 Micromodel is more than just a testing device—it is a window into a deeper understanding of subsurface fluid behavior. With OGRINDO ITB, let’s create smarter, more efficient, and data-driven EOR solutions.

📞 For more information or collaboration opportunities, contact our team at OGRINDO ITB.

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News Article

OGRINDO ITB Research Breakthrough: Combination of Surfactant & Titanium Dioxide Nanoparticles, Enhances Oil Recovery in Sandstone Reservoir

Research breakthrough by OGRINDO ITB on enhancing oil recovery in sandstone using surfactant and titanium dioxide nanoparticles

Innovation in technology Enhanced Oil Recovery (EOR) continues to evolve to address production challenges in mature oil fields. One of the current approaches gaining attention from researchers is the utilization of titanium dioxide (TiO₂) nanoparticles to improve surfactant performance in oil recovery processes, particularly in sandstone.

A research team from OGRINDO ITB recently published their latest research findings in a scientific article titled:
“Enhancement of Surfactant Performance via Titanium Dioxide Nanoparticles: Implication for Oil Recovery in Sandstone.”

🌟 What Makes This Research Special?

Surfactant alkyl ethoxy carboxylate (AEC) surfactant is one of the chemical agents commonly used in EOR methods. However, the OGRINDO team went further by exploring how the addition of TiO₂ nanoparticles to AEC could drastically alter the system’s performance. Comprehensive testing was conducted, covering:

  • Interfacial tension
  • Contact angle
  • Zeta potential
  • Coreflooding test

State of the Art

The latest innovation in this research is the evaluation of AEC surfactant performance by adding TiO₂ nanoparticles within a concentration range of 0%–0.05% w/w.

The addition of 0.05% w/w TiO₂ nanoparticles to 1.25% w/w AEC surfactant was able to reduce interfacial tension to a value of 5.85 × 10⁻⁵ mN/m. This excellent performance was also confirmed in the coreflooding,, where oil recovery increased to a maximum value of 59.52%.

This finding highlights the importance of TiO₂ nanoparticle stability in surfactant solutions, which turns out to be the key factor in enhancing oil recovery efficiency.

Figure 1: Contact angles of all tested solutions on the Berea sandstone thin section. Error bars represent the standard deviation of the measurements
Figure 2: Effect of TiO₂ nanoparticle addition to AEC surfactant on interfacial tension (adapted from Megayanti et al. (2023))

Why Is This Important?

This research provides valuable new insights into the development of surfactant- and nanoparticle-based EOR methods. With this approach, it is expected to open new opportunities for improving oil recovery efficiency from sandstone reservoir — especially in fields that have experienced production decline.

This discovery also strengthens OGRINDO’s position as a leading EOR research center in Indonesia, focusing on the development of environmentally friendly, sustainable technologies tailored to national industry needs.

📚 Read the full journal click here

🌐 Explore More of Our Flagship Research

Visit the complete list of OGRINDO ITB scientific publications to explore our breakthroughs in Enhanced Oil Recovery, CO₂, hydrogen, and other energy transition technologies: 👉 OGRINDO ITB Scientific Publications

Through research, collaboration, and innovation, OGRINDO ITB is committed to being at the forefront of supporting national and global energy transformation.

Let’s create a smarter and more sustainable energy future — together with OGRINDO.

🙏 Acknowledgement

The researchers express their gratitude to Oil and Gas Recovery for Indonesia (OGRINDO) ITB and the Enhanced Oil Recovery (EOR) ITB for access to the experimental equipment used in this study.

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News Article

Collaboration for Innovation: PT SNF Donates a Glove Box to the EOR Laboratory of FTTM ITB

Glove box inauguration ceremony by PT SNF Indonesia at the Enhanced Oil Recovery Laboratory, FTTM ITB to support oil recovery research.
The guests took a group photo in front of the Glove Box unit from SNF

As a tangible form of collaboration between industry and academia, PT SNF Water Science Indonesia officially handed over one unit of Glove Box, Viscometer, and supporting accessories to the Laboratory Enhanced Oil Recovery (EOR) Faculty of Mining and Petroleum Engineering (FTTM), Bandung Institute of Technology (ITB)

Dr. Ir. Dedy Irawan (Head of the Master’s and Doctoral Programs in Petroleum Engineering at ITB) shakes hands with Mr. David Chan, B.Eng (Managing Director of PT SNF Indonesia)

The donation ceremony took place on May 10, 2025, at the Auditorium Room, 8th floor of the PAU Building, ITB. The event was attended by Mr. David Chan, B.Eng., as Managing Director of PT SNF Indonesia, Prof. Dr. Elfahmi, S.Si., M.Si., as Director of Research and Innovation ITB, Head of the Master & Doctoral Program in Petroleum Engineering Dr. Ir. Dedy Irawan, S.T., M.T., Prof. Dr. Ir. Taufan Marhaendrajana, M.Sc., as Deputy of Exploitation at SKK Migas, and a team of lecturers and researchers involved in EOR technology research and development at ITB.

Prof. Dr. Elfahmi, S.Si., M.Si
Prof. Dr. Elfahmi, S.Si., M.Si
David Chan B. Eng
David Chan B. Eng
Prof. Dr. Ir. Taufan Marhaendrajana, M.Sc
Prof. Dr. Ir. Taufan Marhaendrajana, M.Sc

The glove box is a crucial tool in chemical and material research, including in the development of surfactants and polymers for technology Chemical Enhanced Oil Recovery (CEOR). The addition of this facility is expected to strengthen the capacity of the EOR Laboratory at FTTM ITB in producing more precise, safe, and impactful oil and gas technology innovations, contributing directly to the efficiency of national oil production.

PT SNF Indonesia, as a leading chemical company active in the supply of chemicals for the oil and gas industry, demonstrates its strong commitment to supporting research development and higher education in Indonesia. Through this donation, PT SNF not only provides equipment but also builds a collaborative bridge between industry and academic institutions as a strategic step to strengthen the oil and gas research ecosystem in Indonesia, particularly in the development of environmentally friendly and sustainable EOR methods.

📌 With close collaboration between academia and industry, we can jointly drive the advancement of national energy technology.

Glove Box Inauguration – PAU Building
Glove Box Inauguration - Dato Building
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News Article

Polymer: The Key to Efficient and Sustainable EOR Innovation

Illustration showing polymer injection process in oil reservoir to enhance oil recovery, depicting increased sweep efficiency and improved fluid mobility

One of the most effective and increasingly adopted Enhanced Oil Recovery (EOR) methods is polymer flooding. Polymers function by increasing the viscosity of injected water, enabling it to displace oil more uniformly and improve sweep efficiency. Polymer injection can contribute to an additional oil recovery of 5% to 30% of the Original Oil in Place (OOIP).

OGRINDO’s Strategic Role in Application of Polymer Flooding

As a technology- and research-based company, OGRINDO (Oil and Gas Recovery for Indonesia) is strongly committed to advancing innovation in polymer injection technology—ranging from laboratory testing (polymer screening) and field injection assistance to monitoring the injection well response post-injection.

The polymer screening process includes:

To date, OGRINDO ITB has partnered with chemical provider, both local and international, such as PT. Rakhara Chemical Technology, SNF Water Science, Kemira, Enerkon, and others. These collaborations ensure that we always use high-quality chemicals and top-tier testing methodologies. Trust your testing needs with us, and discover a dedicated and professional research partner.

OGRINDO’s Competitive Advantages

  • KAN-accredited laboratory facilities
  • Reliable, advanced, and up-to-date equipment
  • Skilled and professional research assistants
  • Continuous innovation in laboratory testing methods
  • Strong network of local and international partners
  • Proven track record in field projects
  • Commitment to energy efficiency and sustainability

Let’s Collaborate for an Optimal Polymer-Based EOR Solution!

In the face of future energy challenges, OGRINDO is your strategic partner in EOR technology. We offer not only laboratory testing services but also comprehensive solutions—from feasibility studies and injection design to full-scale field implementation.


🔗 Ready to boost your oil recovery with a more scientific, efficient, and sustainable approach?
📞 Contact us to explore collaboration opportunities in polymer-based EOR projects that support national oil and gas production.

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News Article

Surfactant EOR: An Efficient Solution for Optimizing Oil and Gas Production

Diagram showing the fundamental mechanisms of surfactant in Enhanced Oil Recovery, including interfacial tension reduction, wettability alteration, and microemulsion formation

In the oil and gas industry, understanding the fundamental concepts of surfactants is key to developing technologies that are not only efficient but also environmentally friendly and economically viable. Surfactants are far more than ordinary chemical compounds—they play a strategic role in various applications, particularly in Enhanced Oil Recovery (EOR).

Surfactant is surface active agent—a chemical compound capable of reducing surface tension between two phases: water and oil. A surfactant molecule consists of two main parts:
• A hydrophilic “head” (attracted to the water phase)
• A hydrophobic “tail” (attracted to the oil phase)

This structure allows surfactants to function as interfacial tension reducers between oil and water, microemulsion formers (emulsifiers), and wetting agents.

Mechanism of Surfactant for Optimal Oil Recovery
Effects of surfactant application on reservoir rocks

Why Choosing the Right Surfactant Matters
There is no one-size-fits-all surfactant for every reservoir. Selection must be tailor-made to match the specific conditions of each reservoir. Factors such as salinity, temperature, rock type, and crude oil characteristics significantly influence surfactant performance in enhancing oil recovery. Therefore, choosing and formulating the right surfactant is critical to optimizing production and reducing operational costs.

OGRINDO and Surfactant Research
As a company rooted in petroleum engineering expertise, OGRINDO (Oil and Gas Recovery for Indonesia) has in-depth competence in the research, development, and application of surfactant technology in the energy sector. We are committed to delivering science-based solutions that are lab-proven and field-tested. Our focus lies in creating efficient, environmentally friendly solutions—including the development of locally sourced surfactants that support Indonesia’s energy independence.

About Us

A research consortium under Petroleum Engineering ITB focused on advancing oil and gas recovery technologies and supporting the energy transition in Indonesia

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