Company Filing History:
Years Active: 2025
Title: Innovations of Qilin Wang in Particle Generation Technology
Introduction
Qilin Wang is a prominent inventor based in Dalian, China. He has made significant contributions to the field of particle generation technology, particularly in the context of geological structures. His innovative approach addresses the challenges associated with simulating real soil structures, which is crucial for various applications in environmental science and engineering.
Latest Patents
Qilin Wang holds a patent for a "Random particle generation method based on particle size distribution." This method provides a solution for generating particles that align with the particle size distribution characteristics of geological structures. By employing a random particle generation technique, the method avoids the common spherical structure, resulting in a particle structure that closely resembles real soil. The process involves batch generation of particles with varying sizes, initiated from random pore locations, thereby simulating a porous medium model essential for groundwater infiltration research and fossil energy exploitation.
Career Highlights
Qilin Wang is affiliated with Dalian University of Technology, where he continues to advance his research in particle generation and its applications. His work has garnered attention for its practical implications in environmental studies and resource management. With a focus on innovative methodologies, Wang's contributions are paving the way for enhanced understanding and modeling of geological phenomena.
Collaborations
Some of Qilin Wang's notable coworkers include Dayong Wang and Liang Zhao. Their collaborative efforts contribute to the ongoing research and development in the field of particle generation and its applications.
Conclusion
Qilin Wang's innovative work in random particle generation significantly impacts the study of geological structures and environmental science. His patent reflects a deep understanding of particle dynamics and their real-world applications. The advancements made by Wang and his colleagues are essential for future research in groundwater and energy resources.