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Passive Flux Meter that Quantifies Contaminants in Surface Water and Groundwater Flow

IP Title

Device And Method For Passively Measuring Fluid And Target Chemical Mass Fluxes In Natural And Constructed Non-Porous Fluid Flow

Detailed Technology Description

None

Supplementary Information

Inventor: Klammler, Harald Rene | Hatfield, Kirk | Jawitz, James William | Annable, Michael David | McDougal, William George
Priority Number: US7284448B2
IPC Current: G01F000174
US Class: 7386104
Assignee Applicant: University of Florida Research Foundation Inc.inesville
Title: Device and method for passively measuring fluid and target chemical mass fluxes in natural and constructed non-porous fluid flow system
Usefulness: Device and method for passively measuring fluid and target chemical mass fluxes in natural and constructed non-porous fluid flow system
Summary: Used for estimating simultaneously the magnitude of fluid fluxes and target chemical mass fluxes within a fluid flow system in sewers, wetlands, rivers, streams, canals, estuaries, oceans, vents, stacks and chimneys.
Novelty: Estimation of magnitude of cumulative and time average fluid fluxes and target chemical masses fluxes, involves analyzing sorbent matrix to quantify target chemical mass flux by determining mass of target chemical in matrix

Industry

Measurement/Testing

Sub Category

Measurement Platform

Application Date

Nov 16, 2004

Application No.

7,284,448

Others

*Abstract

Inexpensively Detects and Quantifies Dissolved Pollutants

This passive flux meter (PFM) quantifies contaminant fluxes and loads in fluid flow systems, including groundwater, surface water and difficult-to-monitor Karst or fractured-rock aquifers. In the groundwater configuration, passive flux meters are inserted into screened groundwater monitoring wells for contaminant site assessment. The PFMs, which can quantify dissolved contaminants even in challenging Karst terrain, are typically left in place for one to four weeks to trap dissolved contaminants in groundwater and release tracers. About 40 percent of the groundwater used for drinking in the United States originates from Karst aquifers. These complex aquifers, characterized by springs, caves, sinkholes and other unique hydrogeology, are highly productive, but extremely vulnerable to contamination and difficult to monitor. Many Karst aquifers are located near landfills, septic tanks and sites of low-level radioactive waste. Ingesting contaminated water can cause gastrointestinal symptoms, liver disease, kidney damage and a host of other health problems. This technology, developed by University of Florida researchers, can be implemented in fluid flow systems as small as pipes or as large as rivers and lakes to measure contaminant transport. The PFMs also estimate fracture locations, orientations of inclination and apertures in fracture rock settings.

Application

Monitoring device that quantifies water and contaminant flux in groundwater, surface water and difficult-to-access Karst and fractured-rock aquifers as well as other general flow systems

Advantages

• Allows analysis of fluid flow systems at multiple locations, providing maps that help identify locations of concern
• Monitors target chemicals in fluid flow systems, avoiding the need to regularly extract samples for analysis
• Enables cumulative feedback on the flow system, eliminating the need for costly equipment and complex operating procedures
• Works even in challenging Karst terrain, simplifying contamination assessments

Technology

University of Florida researchers have developed a passive flux meter that quantifies contaminants in fluid flow systems, including groundwater, surface water and challenging fractured and Karst formations. In the surface water and Karst applications the device is comprised of a hydrofoil body or shell with a bundle or continuum of one or more permeable sorptive columns inside or outside the PFM's body. Time integrated measurement of fluid and contaminant flux is made possible using tracers equilibrated on the device that are sensitive to water flow. The invention is placed in contact with the flow field, such as a stream or karst opening, allowing target chemicals in the fluid to be transported through the device and trapped on the sorbent matrix. The permeable sorptive column units can then be removed for analysis to quantify fluid and contaminant flux.

Related to technology 11348

*IP Issue Date

Oct 23, 2007

*Principal Investigator

Name: Kirk Hatfield

Department:

Name: Harald Klammler

Department:

Name: James Jawitz

Department:

Name: Michael Annable

Department:

Name: William McDougal

Department:

Country/Region

USA