Company Filing History:
Years Active: 2005
Title: Innovator Spotlight: Karithik Balakrishnan
Introduction: Karithik Balakrishnan is a notable inventor based in Albany, NY, recognized for his contribution to the field of phase interface detection. With a keen focus on innovation, Balakrishnan has developed a unique process that advances the understanding of interfacial reactions, which has potential applications in various industries.
Latest Patents: Karithik Balakrishnan holds one patent titled "Process for Detecting the Location of a Phase Interface." This patent outlines processes for identifying the location of an interface between different phases within a reaction mixture. In his innovative approach, Balakrishnan introduces a reaction mixture into a vessel where the mixture results from a two-phase interfacial reaction. Notably, he addresses scenarios where the difference in densities between at least two phases is less than or equal to about 1 g/cc. The process involves separating the mixture into its constitutive phases, measuring the electrical inductance at various latitudinal locations, and determining the interface's location.
Career Highlights: Balakrishnan's professional journey has been significantly shaped by his role at General Electric Company, where he engages in research and development focused on advancing technology in the realms of materials and processes. His innovative spirit and scientific acumen have established him as a valuable member of the company.
Collaborations: Throughout his career, Balakrishnan has collaborated with talented peers, including Danny L. McNeil and Martin H. Oyevaar. These collaborations have enabled the sharing of knowledge and ideas, fostering further innovation in their respective fields.
Conclusion: Karithik Balakrishnan exemplifies the essence of innovation through his groundbreaking work in detecting phase interfaces. His patent serves as a testament to his contribution to engineering and technology, positioning him as a promising inventor within the industry. As he continues to advance his research, the impact of his work is anticipated to resonate within various applications, driving future advancements.