Company Filing History:
Years Active: 2023-2025
Title: Innovations of Senlin He in Combustion and Gas Preparation Technologies.
Introduction
Senlin He is a notable inventor based in Zhejiang, China. He has made significant contributions to the fields of combustion methods and gas preparation technologies. With a total of 2 patents, his work focuses on enhancing energy efficiency and environmental sustainability in industrial processes.
Latest Patents
One of Senlin He's latest patents is the "Carbon-based oxygen-enriched combustion method for recirculation of flue gas from cement kiln." This innovative method involves recirculating flue gas generated by cement kilns to concentrate carbon dioxide. The process mixes carbon dioxide-rich flue gas with pressurized oxygen to create carbon-based oxygen-enriched products, which are then combined with atmospheric-pressure oxygen to produce carbon-based air for combustion support in cement kilns.
Another significant patent is the "Energy-efficient process for preparing nitrogen and oxygen for glass melting furnace." This process utilizes a complex device that includes various components such as filters, air compressors, and rectifying towers. The method efficiently produces nitrogen and oxygen, with the oxygen being used for oxygen-enriched combustion in glass melting furnaces, while the nitrogen serves as shielding gas in tin baths.
Career Highlights
Senlin He is currently associated with Hangzhou Turning Energy Technology Development Co., Ltd. His work at this company emphasizes the development of innovative technologies aimed at improving energy efficiency in industrial applications.
Collaborations
Senlin He collaborates with notable colleagues, including Ting Wei and Zhengjun Yang. Their combined expertise contributes to the advancement of technologies in their respective fields.
Conclusion
Senlin He is a prominent inventor whose work in combustion and gas preparation technologies showcases his commitment to innovation and sustainability. His patents reflect a deep understanding of industrial processes and a drive to enhance energy efficiency.