Company Filing History:
Years Active: 1980
Title: Innovations by Jorge O Becerra Novoa
Introduction
Jorge O Becerra Novoa is a notable inventor based in San Pedro Garza Garcia, Mexico. He has made significant contributions to the field of metallurgy through his innovative patents. With a total of 2 patents, his work focuses on improving processes in metal reduction and weight determination of molten metals.
Latest Patents
One of his latest patents is titled "Method and apparatus for the secondary gaseous reduction of metal ores." This invention describes a method and apparatus designed to enhance reduction efficiency and thermal economy in the reduction of particulate metal ores, such as iron ore, using a vertical shaft, moving bed reactor. The reactor features a primary reduction zone, a cooling zone, and a secondary reduction zone that allows for improved processing of metal ores. The system enables a lower residence time of the metal ore through the reactor, resulting in increased thermal economy.
Another significant patent by Jorge is the "Method for determining weight of molten metal in situ." This method provides a rapid and accurate way to determine the weight of molten metal in a slag-containing bath without the need for direct gross weighings. By adding a known weight of a trace element to the molten bath and analyzing the sample, the weight of the molten metal can be accurately determined. This innovative approach is particularly useful in hostile steel works environments.
Career Highlights
Jorge O Becerra Novoa is associated with Hylsa, S.A., where he applies his expertise in metallurgy and innovation. His work has contributed to advancements in the industry, particularly in the efficiency of metal processing.
Collaborations
He has collaborated with notable coworkers, including Enrique R Martinez Vera and Federico A Rodriguez, who have also contributed to the field of metallurgy.
Conclusion
Jorge O Becerra Novoa's innovative patents reflect his commitment to advancing metal processing technologies. His contributions have the potential to significantly impact the efficiency and accuracy of metallurgical processes.