Nicole Justis

Title: The Innovative Contributions of Nicole Justis

Introduction

Nicole Justis is a prominent inventor based in San Diego, California. She has made significant contributions to the field of gas turbine technology, holding a total of four patents. Her work focuses on enhancing the efficiency and performance of high-temperature components used in gas turbines.

Latest Patents

Nicole Justis's latest patents include an optical reflector designed to reduce radiation heat transfer to hot engine parts. This invention features a high-temperature gas turbine component that incorporates a specular optical reflector coating system. The coating system is applied to the polished thermal barrier coating of the component, allowing it to reflect radiation back into the gas flow path or into the atmosphere. This innovative design prevents the absorption of radiation into the component, which would otherwise increase its temperature.

Another notable patent by Justis is a high-temperature centerbody that utilizes optical reflection for temperature reduction. Similar to her previous invention, this component also includes a thin layer of a high-temperature reflector applied over a polished thermal barrier coating. The design ensures that the reflected radiation is directed back into the gas flow path or sent to the atmosphere, thereby enhancing the overall efficiency of the gas turbine.

Career Highlights

Nicole Justis is currently employed at General Electric Company, where she continues to develop cutting-edge technologies in the field of gas turbines. Her expertise and innovative mindset have positioned her as a key player in her industry.

Collaborations

Nicole has collaborated with notable colleagues such as Paul Vincent Arszman and Bangalore Aswatha Nagaraj. Their combined efforts contribute to the advancement of technology in gas turbine applications.

Conclusion

Nicole Justis exemplifies the spirit of innovation in the field of gas turbine technology. Her patents reflect her commitment to improving efficiency and performance in high-temperature applications. Through her work at General Electric Company, she continues to make a lasting impact on the industry.