Explosive Fracturing

Explosive Fracturing: A Blast from the Past in Oil & Gas Stimulation

Explosive fracturing, once a prominent technique in the oil and gas industry, has seen its role diminish over time. This method involves using explosives to create fractures in the rock surrounding a wellbore, increasing the permeability of the formation and allowing for enhanced oil and gas production.

How It Works:

Explosive fracturing utilizes the immense force of detonated explosives to create a network of fractures in the formation. These explosives are typically placed in carefully designed charges within the wellbore. The detonation generates a shockwave that propagates through the rock, causing it to fracture.

Advantages and Disadvantages:

Advantages:
- Early Stimulation: It was one of the first methods used for stimulating oil and gas production.
- Perf Breakdown: Effective in breaking down perforations and enhancing their productivity.
- Near-Well Damage Remediation: Can help overcome some forms of near-wellbore damage, such as fines migration.
Disadvantages:
- Short Fracture Length: Explosives generate short, localized fractures, limiting the volume of rock contacted.
- Potential for Damage: The explosive force can damage the wellbore and surrounding formation, reducing long-term productivity.
- Safety Concerns: Handling and detonating explosives pose significant safety risks.
- Environmental Impact: The use of explosives can potentially trigger seismic activity and contaminate groundwater.

Current Usage:

While explosive fracturing was once widely used, its application has significantly decreased due to the development of more efficient and safer stimulation methods like hydraulic fracturing. Its primary use today lies in:

Perf Breakdown: Breaking down perforations to enhance flow.
Overcoming Near-Well Damage: Addressing near-wellbore issues such as fines migration or formation damage.

Conclusion:

Explosive fracturing holds a place in oil and gas history as one of the earliest stimulation methods. While it remains a viable option for specific applications like perf breakdown and near-wellbore damage remediation, its overall use has declined due to the emergence of safer, more effective, and environmentally friendly techniques. As the industry continues to evolve, explosive fracturing is likely to be used even less frequently in the future.

Test Your Knowledge

Explosive Fracturing Quiz

Instructions: Choose the best answer for each question.

1. What is the primary purpose of explosive fracturing in oil and gas production?

a) To increase the viscosity of the oil and gas. b) To create fractures in the rock surrounding a wellbore, enhancing permeability. c) To prevent the formation of gas hydrates. d) To reduce the pressure within the reservoir.

Answer

b) To create fractures in the rock surrounding a wellbore, enhancing permeability.

2. Which of the following is NOT an advantage of explosive fracturing?

a) Early stimulation of production. b) Effective perf breakdown. c) Long fracture lengths, maximizing rock contact. d) Remediation of near-wellbore damage.

Answer

c) Long fracture lengths, maximizing rock contact.

3. What is a significant safety concern associated with explosive fracturing?

a) Risk of equipment malfunction. b) Potential for environmental contamination. c) Handling and detonating explosives. d) All of the above.

Answer

d) All of the above.

4. What is the primary reason for the decline in the use of explosive fracturing?

a) The development of more efficient and safer stimulation methods. b) Increasing costs associated with explosive materials. c) Government regulations prohibiting its use. d) The discovery of new, more accessible oil and gas reservoirs.

Answer

a) The development of more efficient and safer stimulation methods.

5. Which of the following is a current application of explosive fracturing?

a) Stimulating shale gas reservoirs. b) Breaking down perforations to enhance flow. c) Creating new oil and gas wells. d) Reducing the viscosity of heavy oil.

Answer

b) Breaking down perforations to enhance flow.

Explosive Fracturing Exercise

Scenario: You are an engineer tasked with choosing the best stimulation method for a new oil well in a tight sandstone formation. The well has experienced near-wellbore damage due to fines migration. You have the following options:

Hydraulic fracturing: A modern and widely used technique, but it may be expensive for this specific formation.
Explosive fracturing: A more affordable option, but it carries the risks associated with explosives.
Acid stimulation: A less invasive method, but it may not be effective for the near-wellbore damage.

Task:

Evaluate the pros and cons of each method considering the well's specific conditions.
Determine which method is the most suitable based on your analysis and justify your choice.

Exercise Correction

**Analysis:** * **Hydraulic fracturing:** * **Pros:** Creates long, complex fractures, effective for tight formations. * **Cons:** Expensive, potential for environmental impact. * **Explosive fracturing:** * **Pros:** Can overcome near-wellbore damage, less expensive than hydraulic fracturing. * **Cons:** Short fracture lengths, safety risks, potential for damage to wellbore. * **Acid stimulation:** * **Pros:** Less invasive, can dissolve some types of damage. * **Cons:** May not be effective for fines migration, limited impact on permeability. **Choice:** Considering the near-wellbore damage and the need for a cost-effective solution, **explosive fracturing** appears to be the most suitable option. However, it's crucial to implement the necessary safety precautions and conduct a thorough environmental risk assessment. **Justification:** Explosive fracturing's ability to address near-wellbore damage, coupled with its lower cost compared to hydraulic fracturing, makes it a viable option for this scenario. Acid stimulation is less likely to be effective for fines migration. While explosive fracturing has risks, they can be mitigated with careful planning and execution.

Books

"Petroleum Engineering: Drilling and Well Completions" by William C. Lyons - A comprehensive textbook covering various aspects of well completion, including stimulation techniques like explosive fracturing.
"Reservoir Stimulation" by J. C. Donaldson and H. J. Ramey - This book delves into various reservoir stimulation methods, including a dedicated chapter on explosive fracturing and its historical context.
"The Economics of Oil Recovery" by M. King Hubbert - This classic work touches upon the evolution of oil production techniques, providing historical insights into the use of explosive fracturing in the early days.

Articles

"Explosive Fracturing: A Review of Past Practices and Current Applications" by S. A. Holditch and J. R. Suman - This article provides a detailed review of explosive fracturing, its history, advantages, disadvantages, and current usage.
"Explosive Fracturing: A Legacy of Innovation and Safety" by R. J. King - Focuses on the evolution of explosive fracturing techniques and safety protocols throughout the years.
"Hydraulic Fracturing vs. Explosive Fracturing: A Comparison of Stimulation Techniques" by D. A. Warpinski - This article offers a direct comparison between hydraulic fracturing and explosive fracturing, highlighting their respective strengths and weaknesses.

Online Resources

Society of Petroleum Engineers (SPE): This organization maintains a vast library of technical articles and papers related to oil and gas production, including a section on stimulation techniques, where you can find resources on explosive fracturing.
*Schlumberger: * This leading oilfield service company offers a wealth of technical information on various well completion and stimulation methods, including a section on explosive fracturing and its applications.
Halliburton: Similar to Schlumberger, Halliburton provides extensive technical resources on oil and gas production, with a focus on stimulation techniques, including information on explosive fracturing.

Search Tips

Use specific keywords: Instead of simply searching "Explosive Fracturing," use more specific phrases like "explosive fracturing history," "explosive fracturing advantages," "explosive fracturing disadvantages," or "explosive fracturing applications."
Include relevant industry terms: Add terms like "oil and gas," "well stimulation," "reservoir engineering," or "production enhancement" to refine your search.
Explore academic databases: Use academic search engines like Google Scholar, ScienceDirect, or JSTOR to access peer-reviewed research articles on explosive fracturing.