Company Filing History:
Years Active: 1978
Title: The Innovative Contributions of Robert C. Ransom
Introduction
Robert C. Ransom, a notable inventor based in Placentia, California, has made significant strides in the field of reservoir engineering. With one patented invention to his name, Ransom's work focuses on optimizing methods for determining fluid saturation in hydrocarbon reservoirs, enhancing the efficiency of secondary recovery operations.
Latest Patents
Ransom's sole patent, titled "Determining Residual Oil Saturation Following Flooding," presents a novel method for evaluating fluid saturation levels, including hydrocarbon and water saturation, in a reservoir post-secondary recovery. The method involves the injection of hydrocarbons followed by a secondary recovery medium to equilibrate the fluid saturation in the reservoir vicinity with that of the bulk. By employing logging instruments, this method effectively determines the hydrocarbon saturation, gas saturation, as well as residual oil and water saturation, providing a comprehensive understanding of reservoir conditions.
Career Highlights
Ransom has built a career at the Union Oil Company of California, a company renowned for its innovations in the oil and gas industry. His work contributes to ongoing advancements in secondary recovery techniques, critical for extracting remaining hydrocarbons from reservoirs after initial oil recovery efforts.
Collaborations
Throughout his career, Robert C. Ransom has collaborated with fellow engineer LeRoy W. Holm, further advancing their joint efforts towards improving reservoir recovery methods. Their partnership exemplifies the synergy of expertise in the pursuit of innovative solutions in the field.
Conclusion
Robert C. Ransom's contributions to reservoir engineering, especially through his patented method for determining fluid saturation, highlight the impact of innovation in the energy sector. As the industry continues to evolve, Ransom's work remains a valuable asset in enhancing the efficiency of hydrocarbon recovery processes.