Xiaolong Peng

Title: Innovations of Xiaolong Peng in Hydrogen Production and Capillary Force Measurement

Introduction

Xiaolong Peng is a notable inventor based in Chengdu, China. He has made significant contributions to the fields of hydrogen production and capillary force measurement. With a total of 3 patents to his name, his work is recognized for its practical applications and innovative methodologies.

Latest Patents

One of Xiaolong Peng's latest patents is an "Experimental simulation device for hydrogen production by in-situ conversion of gas reservoir and use method thereof." This device includes a gas source, multiple groups of reactors, and an analysis monitoring device. The gas source consists of a methane tank, a helium tank, an oxygen tank, and a water vapor generator, allowing for separate gas supply to the reactors. This invention simulates in-situ hydrogen production, achieving accurate results that closely resemble actual production processes.

Another significant patent is the "Multi-capillary force curve averaging method based on multi-sample overall virtual measurement." This method involves several steps, including obtaining capillary force-saturation curves from various rock samples and calculating averaged wet phase saturation. The approach is reliable, easy to operate, and applicable to different types of samples, providing accurate and convenient calculation results that align with actual working conditions.

Career Highlights

Xiaolong Peng is affiliated with Southwest Petroleum University, where he continues to advance research in his fields of expertise. His work not only contributes to academic knowledge but also has practical implications in the energy sector.

Collaborations

Xiaolong has collaborated with notable colleagues, including Chaowen Wang and Suyang Zhu. Their combined efforts enhance the research output and innovation potential within their projects.

Conclusion

Xiaolong Peng's innovative patents and research contributions significantly impact hydrogen production and capillary force measurement. His work exemplifies the importance of practical applications in scientific research, paving the way for advancements in energy production and measurement techniques.