Ariel Harter Lomas

Title: The Innovative Minds of Ariel Harter Lomas: A Pioneer in Hot Gas Path Measurement

Introduction: Ariel Harter Lomas, an inventive woman based in Simpsonville, South Carolina, has made significant contributions to the field of engineering, particularly in the realm of hot gas path measurement technologies. As an employee of General Electric Company, she has demonstrated unparalleled creativity and technical expertise throughout her career.

Latest Patents: Ariel holds one patent, which is for a groundbreaking hot gas path measurement apparatus. This innovative device features a substrate with a specialized coating applied to its surface, strategically positioned between the substrate and the hot gas path. The apparatus further includes a measurement device housed within a recess in the substrate, equipped with a sensor and a holder designed to align the sensor with the surface of the coating or partially within the hot gas path. This invention has potential applications in various high-temperature environments, leading to advancements in efficiency and safety.

Career Highlights: Throughout her career, Ariel Harter Lomas has showcased her commitment to pushing the boundaries of technology. Her role at General Electric Company has allowed her to collaborate with industry leaders, enhancing her skills as an inventor and innovator. With a focus on developing practical solutions, she continues to be a vital part of her team.

Collaborations: Ariel has worked alongside esteemed colleagues such as David Richard Johns and James Stewart Phillips, contributing to a dynamic work environment that fosters innovation. Their collective expertise and teamwork have propelled various projects forward, facilitating the advancement of technologies that address complex challenges.

Conclusion: Ariel Harter Lomas exemplifies the spirit of innovation through her contributions to hot gas path measurement technology. Her dedication to her craft at General Electric Company, coupled with her collaboration with talented colleagues, positions her as an influential figure in the engineering community. The impact of her patent will likely be felt in various industries that rely on high-temperature environments, showcasing her role as a leader in technological advancement.