David T Adamson

Title: David T Adamson: Innovator in Groundwater Sampling Technology

Introduction

David T Adamson is a notable inventor based in Houston, TX (US). He has made significant contributions to the field of environmental science, particularly in the area of groundwater sampling technology. His innovative approach has led to the development of a unique system that enhances the measurement of target constituents in ambient fluids.

Latest Patents

David T Adamson holds a patent for a "Long-exposure, time-integrated sampler for groundwater or the like." This invention provides a system, device, and method to quantitatively measure average concentrations of target constituents, such as volatile organic compounds (VOCs), in various ambient fluids over an extended period. The system utilizes a passive device that features an outer equilibration chamber and an inner kinetic sampler. By placing the device in an ambient fluid for a specified duration, target constituents rapidly diffuse through a high-permeability membrane into the fluid-filled equilibration chamber. Subsequently, the target constituents are absorbed by the kinetic sampler, which is designed to operate at a rate less than that of the equilibration chamber.

Career Highlights

David is associated with GSI Environmental, Inc., where he applies his expertise in environmental technology. His work focuses on developing innovative solutions that address environmental challenges, particularly in groundwater monitoring and analysis.

Collaborations

Throughout his career, David has collaborated with several professionals in the field, including Thomas E McHugh and Lisa J Molofsky. These collaborations have contributed to the advancement of technologies aimed at improving environmental safety and monitoring.

Conclusion

David T Adamson's contributions to groundwater sampling technology exemplify the impact of innovation in environmental science. His patented system represents a significant advancement in the ability to monitor and analyze ambient fluids effectively.