Location History:
- Orbassano, IT (1997)
- Turin, IT (1997)
Company Filing History:
Years Active: 1997
Title: Gianpiero Borello: Innovator in Internal Combustion Engine Technology
Introduction
Gianpiero Borello is a notable inventor based in Orbassano, Italy. He has made significant contributions to the field of internal combustion engines, particularly focusing on innovative methane injection systems. With a total of 2 patents to his name, Borello's work reflects a commitment to advancing engine technology for improved efficiency and environmental sustainability.
Latest Patents
Borello's latest patents include an internal combustion engine with a methane injection system. This invention features a methane feed system that incorporates multiple injection devices associated with the engine's cylinders. These devices are strategically mounted within seats that connect to a distributing conduit for methane delivery. An electronic control unit manages the injection process based on engine operation parameters, ensuring optimal performance. Another significant patent describes an internal combustion engine capable of operating with either gasoline or liquid LPG injection. This versatility allows for enhanced functionality and adaptability in various driving conditions.
Career Highlights
Gianpiero Borello is currently employed at Centro Ricerche Fiat Società Consortile Per Azioni, where he continues to innovate in the automotive sector. His work has been instrumental in developing technologies that aim to reduce emissions and improve fuel efficiency in internal combustion engines.
Collaborations
Borello has collaborated with notable colleagues such as Filippo Audisio and Massimo Ferrera. These partnerships have fostered a creative environment that encourages the exchange of ideas and expertise in engine technology.
Conclusion
Gianpiero Borello's contributions to internal combustion engine technology highlight his innovative spirit and dedication to improving automotive performance. His patents reflect a forward-thinking approach that addresses both efficiency and environmental concerns.