Company Filing History:
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Years Active: 2016-2022
Title: The Innovative Contributions of Ryan Anthony Lack
Introduction
Ryan Anthony Lack is a notable inventor based in Broken Arrow, Oklahoma. He has made significant contributions to the field of submersible well pumps, holding two patents that showcase his innovative spirit and technical expertise. His work has been instrumental in enhancing the efficiency and reliability of well fluid pumping systems.
Latest Patents
Ryan's latest patents include an "Intermediate Bearing in Electrical Submersible Pump" and a "Detection of Well Fluid Contamination in Sealed Fluids of Well Pump Assemblies." The first patent describes a submersible well fluid pump featuring diffusers that are non-rotatably mounted in a pump housing. A drive shaft rotates an impeller between each of the diffusers, with a bearing positioned between two of the diffusers. This design incorporates a wave spring that ensures optimal performance. The second patent focuses on a submersible well pump assembly that includes a rotary pump driven by an electrical motor. It features a seal section that reduces pressure differentials and a sensor that detects contamination of the sealed fluid by well fluid.
Career Highlights
Throughout his career, Ryan has worked with prominent companies such as Baker Hughes Corporation and Baker Hughes Oilfield Operations LLC. His experience in these organizations has allowed him to develop and refine his innovative ideas, contributing to advancements in the oil and gas industry.
Collaborations
Ryan has collaborated with talented individuals, including Risa Rutter and Ketankumar Kantilal Sheth. These partnerships have fostered a creative environment that encourages the exchange of ideas and the development of groundbreaking technologies.
Conclusion
Ryan Anthony Lack's contributions to the field of submersible well pumps demonstrate his commitment to innovation and excellence. His patents reflect a deep understanding of engineering principles and a desire to improve industry standards. His work continues to influence the development of efficient pumping systems.