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Anhui artificial weather affected operation Raman laser radar procurement project has passed the acceptance
On December 22nd, the Office of Artificial Weather Modification in Anhui Province held an acceptance meeting for the "Management of Raman Laser Radar for Artificial Weather-Affected Operations in Anhui Province." This project was funded by Hefei Guangbo Quantum Technology Co., Ltd. (referred to as "Hefei Guangbo Quantum") and was responsible for its implementation. Experts from the China Meteorological Administration's Meteorological Observation Center, China Environmental Monitoring Station, Anhui Meteorological Bureau, and Huainan Meteorological Bureau attended the meeting.
During the event, the team from Hefei Guangbo Quantum presented a detailed report on the project’s execution. The expert panel reviewed all relevant documentation and conducted a thorough on-site inspection at the Huainan Meteorological Bureau. After careful evaluation and discussion, the experts confirmed that the project met all contractual requirements, passed equipment testing, and fully satisfied the acceptance criteria. As a result, the group unanimously approved the project’s completion.
Artificial weather modification is a crucial scientific technique used in disaster prevention and mitigation. It plays a vital role in reducing agricultural drought, managing floods, ensuring water security, and protecting the ecological environment. The new Raman-M atmospheric water vapor-aerosol laser radar allows real-time measurement of water vapor and aerosol profiles, enhancing cloud identification and catalytic operation conditions. It enables real-time tracking of phase changes in cloud layers, helping to gather more accurate data on cloud composition and evolution.
The Raman-M system represents a significant innovation and breakthrough in meteorological observation within Anhui's artificial weather modification efforts. It provides real-time monitoring of aerosols, water vapor mixing ratios, cloud characteristics, atmospheric boundary layer structures, visibility, optical thickness, and pollutant distribution. By adding nitrogen and water vapor Raman detection channels to traditional systems, it improves the accuracy of aerosol extinction coefficient inversion and enables better vertical profiling of water vapor.
Currently, the GBQ L-03 Raman-M laser radar developed by Hefei Guangbo Quantum has been involved in large-scale atmospheric pollution observation projects organized by the China Meteorological Administration. The system provides valuable laser radar reports for Beijing, including data on the height of the planetary boundary layer and horizontal visibility at various altitudes. It also contributes to early warning and forecasting efforts by the Central Meteorological Observatory.
This successful project marks a major step forward in improving the technological capabilities of weather modification operations in Anhui and highlights the growing importance of advanced remote sensing tools in modern meteorology.