Jet Injection of Zero Valent Iron into Glacial Clay Till Pilot Test Demonstration in Denmark

Approximately 40% of the near-surface geology in Denmark is composed of low-permeability deposits consisting of glacial moraine clay till. As a result, surface and subsurface releases of chlorinated solvents at most of the 1,400 chlorinated solvent sites in Denmark end up as a sorbed phase or non-aqueous phase liquid (NAPL) that resides in clayey till.

In situ remediation technologies that often succeed at treating chlorinated solvents in sand and gravel aquifers typically will fail in clayey till due to permeability limitations. Microscale zero valent iron (mZVI) and nanoscale ZVI (nZVI) often are effective amendments for the remediation of chlorinated solvents in aquifers, but success with mZVI and nZVI in aquitards such as clay till is rare when conventional injection techniques are used.

Jet injection, a technology developed by FRx that involves a combination of hydraulic fracturing and jetting, was previously demonstrated to effectively distribute sodium permanganate in a tight clay formation. Jet injection forces large volumes of water under very high-pressure into the subsurface, inducing fractures that can be filled and further propagated with a slurry of remediation treatment agents such as permanganate or mZVI.

Recognizing that Geosyntec is one of the only engineering firms that possesses expertise with this technology, the Capitol Region of Denmark retained the team of Geosyntec, FRx, and COWI A/S to design and execute a jet injection pilot test in clay till at a Danish site. The objective of this project was to test the feasibility and performance of jet injection in the delivery of mZVI and nZVI into glacial clay till deposits that are prevalent in the shallow subsurface of Denmark.

Geosyntec’s Scope of Services for the Jet Injection of Zero Valent Iron into Glacial Clay Till

Geosyntec designed and implemented a novel pilot test of jet injection of nZVI and mZVI into clay till. Geosyntec expedited and focused its services to meet the client’s compressed implementation schedule. As a result, the pilot test design and implementation were completed within two months of receiving client approval for the work.

The pilot test involved the jet injection of nZVI in one well and mZVI in an adjacent well at five depth intervals per well. Rhodamine-WT dye was added to the injectate in both wells to serve as a tracer to assist in determining radius of influence. After the completion of the ZVI injections, Geosyntec characterized the ZVI distribution within the clay visually and analytically by excavating a large area around each of the injection wells.

The 18 x 24-meter excavation centered on the two injection wells and was benched down to a depth of 7 meters. Excavation activities occurred over the course of two weeks, and the high-resolution characterization was completed every 60 centimeters of depth. Three characterization techniques were employed to examine the ZVI distribution: visual identification and GPS mapping of the ZVI and Rhodamine WT; sampling of soil for total iron analysis; and magnetic susceptibility measurements, which provided a proxy for emplaced ZVI concentration.

These data were incorporated into a 3-D visualization of the primary fracture network. Jet injection succeeded in distributing both mZVI and nZVI greater than 7 meters horizontally from each well – a dramatic improvement relative to previous injection techniques attempted in clay till.

Notable Accomplishments for the Jet Injection of Zero Valent Iron into Glacial Clay Till

This project represents the first-of-its-kind application of jet injection for the distribution of mZVI and nZVI in low permeability soils. High-resolution characterization techniques were used to collect ZVI distribution and geologic data, which enabled the mapping and 3-D visualization of the primary ZVI-filled fractures. The success of this project suggests that jet injection offers an effective solution for the delivery of remediation materials to chlorinated solvent source zones in low permeability soils.

About Geosyntec

Geosyntec Consultants is a consulting and engineering firm that works with private and public sector clients to address new ventures and complex problems involving our environment, natural resources, and civil infrastructure. Our engineers, geologists, environmental scientists, and other technical and project staff specialize in the areas of environmental studies and cleanup; infrastructure assessment, engineering, and design; environmental, health, and safety management; natural resources assessment and restoration; and structural extreme load analyses, fluid dynamics, and risk mitigation services. We deliver advanced solutions to clients from offices throughout the United States and at select locations in Australia, Canada, Ireland, Malaysia, and the United Kingdom.

Company Information

Geosyntec's engineers, scientists, and innovators create high-value solutions for clients based in the United States, the United Kingdom and across Europe.

Postal Address

1st Floor Gatehead Business Park 
Delph New Road 
Delph, OL3 5DE
© Geosyntec Consultants. All Rights Reserved.