QUANTIFICATION OF PRESSURE INTERFERENCE AMONG WELLS

Organization Name

Saudi Arabian Oil Company

Inventor(s)

Omar H. Obathani of Dhahran (SA)

Noor M. Anisur Rahman of Dhahran (SA)

QUANTIFICATION OF PRESSURE INTERFERENCE AMONG WELLS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18092658 titled 'QUANTIFICATION OF PRESSURE INTERFERENCE AMONG WELLS

Abstract: Quantification of pressure interference among wells in a well system is determined by determining a base productivity index for a target well in the well system. The base productivity index is free of interference on production through the target well from flow through other wells in the multiple wells. A current productivity index for the target well is determined. The current productivity index is affected by interference on production through the target well from flow through other wells in the multiple wells. An interference modulus is determined for the target well based on the current productivity index and the base productivity index for the target well. Using the interference modulus for the target well, an effect, such as a numerical value representing the effect, on the target well, of the simultaneous flow through the other wells in the multiple wells is determined.

• Simplified Explanation:

The patent application focuses on quantifying pressure interference among wells in a well system by determining a base productivity index for a target well and calculating an interference modulus to assess the impact of simultaneous flow through other wells.

• Key Features and Innovation:

- Determining a base productivity index for a target well - Calculating an interference modulus to quantify pressure interference - Assessing the impact of simultaneous flow through multiple wells on the target well

• Potential Applications:

- Oil and gas production optimization - Well system management in the energy industry - Reservoir engineering and production forecasting

• Problems Solved:

- Addressing pressure interference among wells in a well system - Improving production efficiency and well performance - Enhancing reservoir management practices

• Benefits:

- Increased productivity and efficiency in well systems - Better understanding of pressure interference effects - Improved decision-making in reservoir engineering

• Commercial Applications:

Title: "Pressure Interference Quantification Technology for Well Systems" This technology can be applied in the oil and gas industry for optimizing production and managing well systems effectively. It has implications for reservoir engineering companies and energy corporations looking to improve their operations.

• Prior Art:

Readers can explore prior research on pressure interference quantification in well systems, reservoir engineering practices, and production optimization techniques to gain a deeper understanding of the technology's background.

• Frequently Updated Research:

Stay informed about the latest advancements in pressure interference quantification, reservoir management technologies, and production optimization strategies to leverage the most current research in the field.

Questions about Pressure Interference Quantification Technology: 1. How does the interference modulus help in assessing pressure interference among wells? The interference modulus provides a numerical value representing the impact of simultaneous flow through multiple wells on the target well, aiding in quantifying pressure interference accurately.

2. What are the potential implications of this technology for reservoir engineering companies? Reservoir engineering companies can benefit from improved production optimization, enhanced well performance, and better decision-making in managing well systems with the help of this technology.

Original Abstract Submitted

Quantification of pressure interference among wells in a well system is determined by determining a base productivity index for a target well in the well system. The base productivity index is free of interference on production through the target well from flow through other wells in the multiple wells. A current productivity index for the target well is determined. The current productivity index is affected by interference on production through the target well from flow through other wells in the multiple wells. An interference modulus is determined for the target well based on the current productivity index and the base productivity index for the target well. Using the interference modulus for the target well, an effect, such as a numerical value representing the effect, on the target well, of the simultaneous flow through the other wells in the multiple wells is determined.