Company Filing History:
Years Active: 2022
Title: Jinglan Wang: Innovator in Biomass-Burning Aerosol Detection
Introduction
Jinglan Wang is a prominent inventor based in Tianjin, China. He has made significant contributions to the field of environmental science, particularly in the study of biomass-burning aerosols. His innovative work focuses on the development of devices that enhance the understanding and detection of these aerosols.
Latest Patents
Jinglan Wang holds a patent for an "Integrated preparation and detection device for biomass-burning aerosol and method thereby." This patent discloses integrated preparation and detection devices designed for studying biomass-burning aerosols. The devices consist of a micro-fluidized bed reactor (MFBR), a transmission line, and an on-line detection unit that are connected in sequence. The MFBR includes a pyrolysis reactor and a pyrolysis furnace, which are essential for the rapid pyrolysis of biomass. The on-line detection unit features an on-line photoionization mass spectrometer, which is equipped with a laser desorption system, a laser ionizer, and a light energy ionizer. This innovative device is beneficial for retaining the original state of aerosol particles and studying the formation mechanism of these particles.
Career Highlights
Jinglan Wang is affiliated with Tianjin University, where he continues to advance research in environmental science and aerosol detection. His work has garnered attention for its practical applications in understanding the impact of biomass burning on air quality and climate change.
Collaborations
Jinglan Wang collaborates with notable colleagues, including Zhanjun Cheng and Congcong Cao. Their combined expertise contributes to the advancement of research in the field of aerosol detection and environmental science.
Conclusion
Jinglan Wang's innovative contributions to the detection of biomass-burning aerosols highlight his role as a leading inventor in environmental science. His patented technology offers valuable insights into aerosol formation and its implications for air quality.