Publications

2022

McIntyre, Hannah, Vidit Minda, Elisabeth Hawley, Rula Deeb, and Megan Hart. (2022) 2022. “Coupled Photocatalytic Alkaline Media As a Destructive Technology for Per- and Polyfluoroalkyl Substances in Aqueous Film-Forming Foam Impacted Stormwater.”. Chemosphere 291 (Pt 1): 132790. https://doi.org/10.1016/j.chemosphere.2021.132790.

The release of aqueous film forming foam (AFFF) from fuel fire events, fire training events, and other activities has resulted in the presence of persistent and recalcitrant per- and polyfluoroalkyl substances (PFAS) in soil and water nationwide. This study describes the degradation and defluorination of PFAS in stormwater collected from an AFFF-impacted site. Silica-based granular media (SGM) containing titanium dioxide was packed into a column reactor and placed between ultraviolet (UV) lamps to excite the photocatalyst within the SGM and generate free radicals to degrade PFAS present in water that was passed through the media. The system was amended with nucleophiles (hydroxyls) to facilitate the destruction of PFAS. Results showed rapid degradation of 17 identified PFAS, including perfluoroalkyl acid (PFAA) precursors, perfluorosulfonic acids (PFSAs), and perfluorocarboxylic acids (PFCAs). Significant defluorination was observed, indicating PFAS destruction as a result of the coupled photocatalytic and nucleophilic attack. Column reactor experiment findings indicate SGM in the presence of UV light passively degraded a mixture of PFAS in a concentrated waste stream at ambient conditions.

McIntyre, Hannah, Vidit Minda, Elisabeth Hawley, Rula Deeb, and Megan Hart. (2022) 2022. “Coupled Photocatalytic Alkaline Media As a Destructive Technology for Per- and Polyfluoroalkyl Substances in Aqueous Film-Forming Foam Impacted Stormwater.”. Chemosphere 291 (Pt 1): 132790. https://doi.org/10.1016/j.chemosphere.2021.132790.

The release of aqueous film forming foam (AFFF) from fuel fire events, fire training events, and other activities has resulted in the presence of persistent and recalcitrant per- and polyfluoroalkyl substances (PFAS) in soil and water nationwide. This study describes the degradation and defluorination of PFAS in stormwater collected from an AFFF-impacted site. Silica-based granular media (SGM) containing titanium dioxide was packed into a column reactor and placed between ultraviolet (UV) lamps to excite the photocatalyst within the SGM and generate free radicals to degrade PFAS present in water that was passed through the media. The system was amended with nucleophiles (hydroxyls) to facilitate the destruction of PFAS. Results showed rapid degradation of 17 identified PFAS, including perfluoroalkyl acid (PFAA) precursors, perfluorosulfonic acids (PFSAs), and perfluorocarboxylic acids (PFCAs). Significant defluorination was observed, indicating PFAS destruction as a result of the coupled photocatalytic and nucleophilic attack. Column reactor experiment findings indicate SGM in the presence of UV light passively degraded a mixture of PFAS in a concentrated waste stream at ambient conditions.

2020

Fames, Pulvinar, Hasellus Dignissim, Imperdiet Sociosqu, and Dictum Gravida. 2020. “Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas”. Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas.

Lacus, ultrices in ultrices tellus odio nunc urna. Massa aenean sed ipsum praesent enim. Porttitor iaculis augue pulvinar nam feugiat. Aliquam morbi ut ultricies elementum adipiscing purus proin semper. Viverra accumsan tempus, vitae auctor a. Dictumst cras dui sit feugiat. Enim nulla pulvinar urna sit eu placerat.

Nascetur nisi, tortor velit et ipsum commodo. Tempor massa, non suscipit at sagittis morbi eget euismod.

Fames, Pulvinar, Hasellus Dignissim, Imperdiet Sociosqu, and Dictum Gravida. 2020. “Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas”. Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas.

Lacus, ultrices in ultrices tellus odio nunc urna. Massa aenean sed ipsum praesent enim. Porttitor iaculis augue pulvinar nam feugiat. Aliquam morbi ut ultricies elementum adipiscing purus proin semper. Viverra accumsan tempus, vitae auctor a. Dictumst cras dui sit feugiat. Enim nulla pulvinar urna sit eu placerat.

Nascetur nisi, tortor velit et ipsum commodo. Tempor massa, non suscipit at sagittis morbi eget euismod.

Fames, Pulvinar, Hasellus Dignissim, Imperdiet Sociosqu, and Dictum Gravida. 2020. “Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas”. Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas.

Lacus, ultrices in ultrices tellus odio nunc urna. Massa aenean sed ipsum praesent enim. Porttitor iaculis augue pulvinar nam feugiat. Aliquam morbi ut ultricies elementum adipiscing purus proin semper. Viverra accumsan tempus, vitae auctor a. Dictumst cras dui sit feugiat. Enim nulla pulvinar urna sit eu placerat.

Nascetur nisi, tortor velit et ipsum commodo. Tempor massa, non suscipit at sagittis morbi eget euismod.

2019

Fames, Pulvinar, Hasellus Dignissim, Imperdiet Sociosqu, and Dictum Gravida. 2019. “Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas”. Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas.

Lacus, ultrices in ultrices tellus odio nunc urna. Massa aenean sed ipsum praesent enim. Porttitor iaculis augue pulvinar nam feugiat. Aliquam morbi ut ultricies elementum adipiscing purus proin semper. Viverra accumsan tempus, vitae auctor a. Dictumst cras dui sit feugiat. Enim nulla pulvinar urna sit eu placerat.

Nascetur nisi, tortor velit et ipsum commodo. Tempor massa, non suscipit at sagittis morbi eget euismod.

Fames, Pulvinar, Hasellus Dignissim, Imperdiet Sociosqu, and Dictum Gravida. 2019. “Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas”. Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas.

Lacus, ultrices in ultrices tellus odio nunc urna. Massa aenean sed ipsum praesent enim. Porttitor iaculis augue pulvinar nam feugiat. Aliquam morbi ut ultricies elementum adipiscing purus proin semper. Viverra accumsan tempus, vitae auctor a. Dictumst cras dui sit feugiat. Enim nulla pulvinar urna sit eu placerat.

Nascetur nisi, tortor velit et ipsum commodo. Tempor massa, non suscipit at sagittis morbi eget euismod.

Fames, Pulvinar, Hasellus Dignissim, Imperdiet Sociosqu, and Dictum Gravida. 2019. “Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas”. Mauris Felis ante Montes Rhoncus Semper, Iaculis Nisl Facilisis Malesuada Maecenas.

Lacus, ultrices in ultrices tellus odio nunc urna. Massa aenean sed ipsum praesent enim. Porttitor iaculis augue pulvinar nam feugiat. Aliquam morbi ut ultricies elementum adipiscing purus proin semper. Viverra accumsan tempus, vitae auctor a. Dictumst cras dui sit feugiat. Enim nulla pulvinar urna sit eu placerat.

Nascetur nisi, tortor velit et ipsum commodo. Tempor massa, non suscipit at sagittis morbi eget euismod.

2017

Londoño, Ana C, Patrick Ryan Williams, and Megan L Hart. (2017) 2017. “A Change in Landscape: Lessons Learned from Abandonment of Ancient Wari Agricultural Terraces in Southern Peru.”. Journal of Environmental Management 202 (Pt 3): 532-42. https://doi.org/10.1016/j.jenvman.2017.01.012.

Ancient agricultural terrace practices have survived for millennia, sustaining populations through extreme climatic shifts and political regime changes. In arid regions with abrupt relief such as Southern Peru, agricultural terracing is undergoing a resurgence, as has seen revitalization of once abandoned terrace and hydraulic systems. Wari terraces at Cerro Baul provide clues to past cultural practices. They also document sustainable farming practices by using resilient land management techniques which can help combat desertification and degradation of arable lands. Three abandoned Wari terrace systems were mapped using microtopographic methods, the erosion patterns examined, the states of preservation compared, and then the design contrasted with modern terracing practices in the Moquegua Valley. In order to negate the harmful effects of desertification, rehabilitation and reconstruction of these terraces using ancient knowledge and techniques may be necessary. Rehabilitation must be conducted with consideration for preservation of cultural patrimony that may be encountered within the terrace treads or riser structures. With future climatic shifts impacting vulnerable dryland areas more than others, the ability to resiliently respond to these changes may be found in the lessons learned from ancient farming techniques such as the Wari.

Holmes, Ryan R, Megan L Hart, and John T Kevern. (2017) 2017. “Heavy Metal Removal Capacity of Individual Components of Permeable Reactive Concrete.”. Journal of Contaminant Hydrology 196: 52-61. https://doi.org/10.1016/j.jconhyd.2016.12.005.

Permeable reactive barriers (PRBs) are a well-known technique for groundwater remediation using industrialized reactive media such as zero-valent iron and activated carbon. Permeable reactive concrete (PRC) is an alternative reactive medium composed of relatively inexpensive materials such as cement and aggregate. A variety of multimodal, simultaneous processes drive remediation of metals from contaminated groundwater within PRC systems due to the complex heterogeneous matrix formed during cement hydration. This research investigated the influence coarse aggregate, portland cement, fly ash, and various combinations had on the removal of lead, cadmium, and zinc in solution. Absorption, adsorption, precipitation, co-precipitation, and internal diffusion of the metals are common mechanisms of removal in the hydrated cement matrix and independent of the aggregate. Local aggregates can be used as the permeable structure also possessing high metal removal capabilities, however calcareous sources of aggregate are preferred due to improved removal with low leachability. Individual adsorption isotherms were linear or curvilinear up, indicating a preferred removal process. For PRC samples, metal saturation was not reached over the range of concentrations tested. Results were then used to compare removal against activated carbon and aggregate-based PRBs by estimating material costs for the remediation of an example heavy metal contaminated Superfund site located in the Midwestern United States, Joplin, Missouri.