Company Filing History:
Years Active: 2024
Title: Zuming Wang: Innovator in Atmospheric Boundary Layer Research
Introduction
Zuming Wang is a prominent inventor based in Guangzhou, China. He has made significant contributions to the field of environmental science, particularly in the assessment of human exposure to atmospheric pollutants. His innovative work has led to the development of a unique wind tunnel designed for studying near-ground atmospheric conditions.
Latest Patents
Zuming Wang holds a patent for a "Convenient and small near-ground atmospheric-boundary-layer wind tunnel and its application in human exposure risk assessment." This invention features a compact wind tunnel that includes a wind tunnel body and a reflux stabilizer. The design incorporates a natural wind injection device and a simulation test device, which are connected in sequence. The wind tunnel allows for the measurement of atmospheric-pollutant environmental migration and transformation behavior, thereby reducing the floor area required and saving investment costs. This innovative tool enables researchers to assess the impact of near-ground atmospheric pollutants on public health.
Career Highlights
Zuming Wang is affiliated with the Guangdong University of Technology, where he continues to advance research in environmental science. His work focuses on understanding the dynamics of atmospheric pollutants and their effects on human health. With a patent portfolio that includes one significant invention, Wang is recognized for his contributions to the field.
Collaborations
Zuming Wang has collaborated with notable colleagues, including Taicheng An and Ting Zhang. Their joint efforts have furthered research initiatives and enhanced the understanding of atmospheric boundary layer dynamics.
Conclusion
Zuming Wang's innovative work in developing a near-ground atmospheric-boundary-layer wind tunnel represents a significant advancement in environmental research. His contributions are vital for assessing human exposure to pollutants and improving public health outcomes.