Marcus Vinicius Andrade Bianchi

Title: Innovations by Marcus Vinicius Andrade Bianchi

Introduction

Marcus Vinicius Andrade Bianchi is an accomplished inventor based in Littleton, CO (US). He has made significant contributions to the field of building performance through his innovative patent. His work focuses on the transient hygrothermal behavior of building components, which is crucial for understanding how these components perform in varying environmental conditions.

Latest Patents

Marcus holds a patent titled "Method of predicting and communicating the performance of an installed building component based on the transient hygrothermal behavior of the component." This patent outlines a method for predicting and communicating the transient hygrothermal behavior of an installed building component. The method includes defining performance characteristics affected by transient hygrothermal behavior, as well as identifying climatic and non-climatic factors that influence these characteristics. By utilizing transient hygrothermal simulation software, the method allows for the creation of a software model that predicts changes in performance over time, providing valuable guidance to users.

Career Highlights

Throughout his career, Marcus has demonstrated a commitment to advancing building technology. His innovative approach to understanding the interaction between interior and exterior environments has positioned him as a thought leader in the field. With a focus on practical applications, his work aims to enhance the efficiency and effectiveness of building components.

Collaborations

Marcus has collaborated with notable professionals in his field, including Francis John Babineau, Jr. and Reed Harvey Larson. These collaborations have contributed to the development of his innovative ideas and have helped to further the impact of his work.

Conclusion

Marcus Vinicius Andrade Bianchi is a pioneering inventor whose work in predicting the performance of building components is shaping the future of building technology. His contributions are essential for improving the understanding of how buildings interact with their environments.