Company Filing History:
Years Active: 2010
Title: Christopher Henry Spurrell: Innovator in Material Detection Technology
Introduction
Christopher Henry Spurrell is an accomplished inventor based in Hawthorne, CA. He has made significant contributions to the field of material detection, particularly in the context of enclosed passages. His innovative approach has led to the development of a unique device that enhances the ability to detect material deposits within pipes.
Latest Patents
Spurrell holds a patent for a device and method for detecting deposition on an inner surface of a pipe. This invention provides a method and device for detecting mercury or other material deposits on the inner surface of an enclosed passage. The device includes a detection unit that can be transported through the passage, featuring a radiation source and an x-ray fluorescence detector. The radiation source emits radiation toward the inner surface to excite it, while the x-ray fluorescence detector identifies material deposits by detecting the resulting x-ray emissions. This technology allows for the identification of material deposits at various positions along the length of the passage, generating multiple data points that indicate the existence of material deposits.
Career Highlights
Christopher Spurrell is currently employed at Chevron U.S.A. Inc., where he applies his expertise in material detection technology. His work at Chevron has allowed him to further develop his innovative ideas and contribute to advancements in the industry.
Collaborations
One of Spurrell's notable collaborators is Darrell Lynn Gallup. Their partnership has fostered a creative environment that encourages the development of new technologies and solutions in the field of material detection.
Conclusion
Christopher Henry Spurrell is a notable inventor whose work in detecting material deposits has the potential to significantly impact various industries. His innovative device and method demonstrate the importance of advancements in technology for ensuring safety and efficiency in enclosed passages.