Company Filing History:
7 out of 320 
1 out of 34 Years Active: 2019-2025
Title: Zhifeng Luo: Innovator in Biochemical Conversion and Proppant Technology
Introduction
Zhifeng Luo is a prominent inventor based in Chengdu, China. He has made significant contributions to the fields of biochemical conversion and proppant technology. With a total of 7 patents to his name, his work focuses on innovative methods that enhance energy efficiency and resource utilization.
Latest Patents
One of his latest patents is titled "Method for cyclic biochemical conversion of carbon dioxide and hot gas cogeneration in depleted oil and gas reservoir." This method involves selecting a target depleted oil and gas reservoir, adjusting its temperature, and injecting a mixture of carbon dioxide and hydrogen to facilitate the conversion of these gases into methane. This innovative approach not only aims to exploit methane but also harnesses heat energy from the reservoir.
Another notable patent is "Bionics-based efficiently transported and packed proppant and preparation method thereof." This invention relates to a new type of proppant that utilizes biomimetic designs to enhance the efficiency of fracturing fluids. The method includes a specific mass ratio of enhanced fracturing fluid and biomimetic dandelion proppant, which improves the overall effectiveness of the fracturing process.
Career Highlights
Zhifeng Luo has worked at several esteemed institutions, including Southwest Petroleum University and Zhengzhou University. His academic and research endeavors have significantly contributed to advancements in energy technologies and resource management.
Collaborations
Throughout his career, he has collaborated with notable colleagues such as Pingli Liu and Juan Du. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.
Conclusion
Zhifeng Luo's contributions to the fields of biochemical conversion and proppant technology highlight his role as a leading inventor. His innovative patents and collaborative efforts continue to influence advancements in energy efficiency and resource utilization.