Emory founder Song Qingguo was invited to share new technologies for groundwater sampling and monitoring.-Groundwater Level Meter_Groundwater Sampling

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Emory founder Song Qingguo was invited to share new technologies for groundwater sampling and monitoring.

Dec 01,2025

The Environment College’s 10th-anniversary Distinguished Lecture Series was held with great ceremony on campus. Song Qingguo, founder of Emory (Hebei) Technology Co., Ltd., was invited as a keynote speaker to deliver an in-depth presentation titled “New Technologies for Groundwater Sampling and Monitoring.” We sincerely thank the Environment College for recognizing Emory’s longstanding achievements in the field of groundwater monitoring and for extending such a warm invitation. This event has provided our company with a valuable platform to engage in exchanges and learn from academics and industry experts.

This lecture focuses on the innovation of groundwater environmental monitoring technologies and industry development trends, offering students, research teams, and industry peers a technical feast that combines professionalism with practical value, helping young scholars gain insight into industry frontiers and seize development opportunities.

As a seasoned entrepreneur and technology leader in this field, General Manager Song Qingguo closely aligns with the industry’s core needs. Starting with an analysis of key technologies for groundwater environmental monitoring, he directly addresses the three major challenges that the industry has long faced: “high prices of imported equipment, lagging after-sales service, and low data collection efficiency.” Drawing on Emory’s many years of deep-rooted practical experience, he proposes that “independent R&D is the key path to overcoming these industry difficulties.”

During his speech, Song Qingguo highlighted Emory’s four cutting-edge core technologies—deep-water sensor technology, digital and intelligent groundwater sampling technology, groundwater hydrodynamic monitoring technology, and automated microplastic analysis technology for water bodies—and provided a detailed breakdown of the robust equipment portfolio built around these technologies.

General Manager Song Qingguo also shared several real-world application cases: from monitoring groundwater contamination in large-scale chemical industrial parks, to conducting environmental quality surveys of landfill sites, and to assessing the safety of groundwater at drinking water sources. Thanks to their stable performance, accurate data output, and cost-effectiveness, Emory’s independently developed equipment has earned widespread recognition from industry clients.

This exchange not only provides a concentrated showcase of Emory’s technological achievements but also serves as a vivid demonstration of collaborative innovation among industry, academia, and research institutions. General Manager Song Qingguo stated that Emory will continue to deepen its efforts in the R&D of groundwater monitoring technologies, offering more competitive products and solutions to support water environment management and ecological conservation efforts.

In the future, Emory looks forward to deepening and broadening industry-academia-research cooperation with the College of Environment. Together, we will integrate university and enterprise resources, pool innovative strengths, and jointly promote technological upgrades in the groundwater environmental monitoring industry as well as high-quality industrial development, thereby contributing even more collaborative efforts to the cause of ecological and environmental protection.

The AML135 groundwater automatic online monitoring system enables real-time data collection with all-weather, high-precision capabilities, breaking the limitations of manual sampling and laboratory testing, and providing robust data support for regulatory authorities.

The AML919 portable groundwater sampling system features a lightweight and efficient design, addressing the challenges of field sampling that are time-consuming, labor-intensive, and costly.

The AML920 groundwater flow velocity and direction meter, with its precise performance, provides... Groundwater Dynamics The study provides reliable data;

The AML518 automated microplastic analyzer for aquatic environments enables fully automatic 24-hour detection and offers significant cost-performance advantages.

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Emory Makes Appearance at Shenzhen’s Belt and Road Green Technology Expo; General Manager Song Qingguo Shares New Technologies for Groundwater Sampling and Monitoring.

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