Peng Deng

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

Introduction

Peng Deng is an accomplished inventor based in Chengdu, China, with a focus on innovative technologies in hydrogen production and capillary force measurement. He holds three patents that showcase his expertise and contributions to the field.

Latest Patents

One of his 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 reactors, and an analysis monitoring device. It simulates in-situ hydrogen production by supplying gas from various tanks, allowing for accurate simulation of multi-stage hydrogen production processes. The results from this invention can closely resemble actual production scenarios.

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 different rock samples and calculating averaged wet phase saturation. The method is reliable, easy to operate, and applicable to various sample types, providing accurate results that align with actual working conditions.

Career Highlights

Peng Deng is affiliated with Southwest Petroleum University, where he contributes to research and development in his areas of expertise. His work has significant implications for the energy sector, particularly in enhancing hydrogen production techniques.

Collaborations

He collaborates with notable colleagues, including Chaowen Wang and Xiaolong Peng, who share his commitment to advancing research in petroleum engineering and related fields.

Conclusion

Peng Deng's innovative patents and contributions to hydrogen production and capillary force measurement highlight his role as a leading inventor in his field. His work not only advances scientific understanding but also has practical applications in energy production.