Synthesis of biomass-based graphene nanomaterials for aqueous heavy metal removal and cement-based composite property enhancement

Karunaratne, Tharindu N.

12 May 2023

Utilizing biomass such as lignin, bamboo, soybean, corn stalk, rice husk, etc., as a carbon source to produce graphene-based nanomaterials has been reported recently. However, the potential of using such nanomaterials for engineering and environmental applications has not been realized. This dissertation investigates the use of graphene-based nanomaterials synthesized from using biomass as a carbon source for water remediation and cement-based composites’ (CBCs) property enhancement. The first chapter introduces graphene and graphene-based nanomaterials, as well as the synthesis and application of graphene-based nanomaterials for removing heavy metals in an aqueous solution and for property enhancement in CBCs. The experimental investigation on the pyrolytic synthesis of graphene-encapsulated iron nanoparticles from biochar (BC) as the carbon source (BC-G@Fe0) was covered in the second chapter. Two synthetic routes for producing BC-G@Fe0, i.e., impregnation-carbonization (route-I) and pyrolysis-impregnation-carbonization (route-II) processes, were investigated experimentally using different characterization techniques and heavy metal removal methods. The third chapter reports the experimental performances of the heavy metal removal of Pb2+, Cu2+, and Ag+ from an aqueous solution using BC-G@Fe0. The effectivenesses of various adsorption benchmarks, such as pH, kinetics, and isotherms were assessed. Additionally, the removal efficiency of BC-G@Fe0 was evaluated. BC-G@Fe0 sample made from route II, in particular, FeCl2-impregnated-BC with 15% wt% iron loading carbonized at 1000 ℃ for 1h showed promising Pb2+, Cu2+, and Ag+ removal capacities of 0.30, 1.58, and 1.91 mmol/g, respectively. The fourth chapter experimentally investigated the reinforcement effect of commercially sourced, industrial graphene nanoplates (IG) on the mechanical properties of CBCs. This investigation was based on a hypothesis that the uniform dispersion of IG would significantly enhance the compressive strength of CBC. The main outcome of this research was that, while the wet dispersion mixing process of IG into CBC did not consistently yield significant increases in the composite compressive strength, but the newly proposed dry dispersion process demonstrated significant increases (22%) in the composite compressive strength. Chapter Five investigated the synthesis of lignin-based graphene nanoplatelets (LG) and their application in CBC reinforcement. The main findings were that LG did not show impressive increases compared to IG, even when dry dispersion was introduced. This was attributed to LG's lack of effective surface area compared to IG. Finally, a general conclusion and outlook for the future of research into biomass-based graphene nanomaterials were discussed in chapter six.

Graphene

Biochar

Water remediation

Heavy metal removal

Nano Zero-valent Iron

Composites

Property enhancement

Civil and Environmental Engineering

Environmental Studies

Laboratory and Basic Science Research

Other Forestry and Forest Sciences

REDUCTION OF PERCHLORATE BY ZERO VALENT IRON

HUANG, HE

January 2005

No description available.

Engineering, Environmental

Aquatic systems

Cochran test

Detection limit

Endocrine disruptor chemicals

Environmental analysis

Linearity

Perchlorate

System drift

Reduction

Remediation

Zero valent iron

Synthesis of Catalytic Membrane Surface Composites for Remediating Azo Dyes in Solution

Sutherland, Alexander

January 2019

In the past 30 years zero-valent iron (ZVI) has become an increasingly popular reducing agent technology for remediating environmental contaminants prone to chemical degradation. Azo dyes and chlorinated organic compounds (COCs) are two classes of such contaminants, both of which include toxic compounds with known carcinogenic potential. ZVI has been successfully applied to the surfaces of permeable reactive barriers, as well as grown into nanoscale particles (nZVI) and applied in-situ to chemically reduce these contaminants into more environmentally benign compounds. However, the reactivity of ZVI and nZVI in these technologies is limited by their finite supply of electrons for facilitating chemical reduction, and the tendency of nZVI particles to homo-aggregate in solution and form colloids with reduced surface area to volume ratio, and thus reduced reactivity. The goal of this project was to combine reactive nanoparticle and membrane technologies to create an electro-catalytic permeable reactive barrier that overcomes the weaknesses of nZVI for the enhanced electrochemical filtration of azo dyes in solution. Specifically, nZVI was successfully grown and stabilized in a network of functionalized carbon nanotubes (CNTs) and deposited into an electrically conductive thin film on the surface of a polymeric microfiltration support membrane. Under a cathodic applied voltage, this thin film facilitated the direct reduction of the methyl orange (MO) azo dye in solution, and regenerated nZVI reactivity for enhanced electro-catalytic operation. The electro-catalytic performance of these nZVI-CNT membrane surface composites to remove MO was validated, modelled, and optimized in a batch system, as well as tested in a dead-end continuous flow cell system. In the batch experiments, systems with nZVI and a -2 V applied potential demonstrated synergistic enhancement of MO removal, which indicated the regeneration of nZVI reactivity and allowed for the complete removal of 0.25 mM MO batches within 2-3 hours. Partial least squares regression (PLSR) modelling was used to determine the impact of each experimental parameter in the batch system and provided the means for an optimization leading to maximized MO removal. Finally, tests in a continuous system yielded rates of MO removal 1.6 times greater than those of the batch system in a single pass, and demonstrated ~87% molar removal of MO at fluxes of approximately 422 lmh. The work herein lays the foundation for a promising technology that, if further developed, could be applied to remediate azo dyes and COCs in textile industry effluents and groundwater sites respectively. / Thesis / Master of Applied Science (MASc)

Catalytic Membranes

Nano Zero-Valent Iron

Carbon Nanotubes

Azo Dyes

Chlorinated Organic Compounds

Methyl Orange

Conductive Membranes

Partial Least Squares Regression

Estudo da degradação do p-nitrofenol por ferro de valência zero: avaliação de processos redutivos e oxidativos / Study of p-nitrophenol degradation by zero-valent iron: evaluation of reductive and oxidative processes

Soeira, Luciana Serra

26 October 2007

Neste trabalho estudou-se o uso do ferro de valência zero em meio redutivo e oxidativo, a fim de desenvolver um processo que promova tanto a degradação quanto a mineralização de substâncias orgânicas com centros deficientes de elétrons, como, por exemplo, espécies que contêm o grupo nitro ligado ao anel aromático. O processo de degradação empregando-se ferro metálico, em ambos os meios estudados, apresentou grande eficiência no tratamento do p-nitrofenol, utilizado como poluente modelo. Para soluções contendo concentração inicial de p-nitrofenol igual a 100 mg L-1, tanto para o meio redutivo quanto para o oxidativo, em condições ótimas, as taxas de degradação obtidas foram superiores a 98% ao final de 15 minutos de tratamento. Para o meio com atmosfera oxidante, foi possível observar a geração de H2O2 in situ (cerca de 0,030 mmol L-1, em 45 minutos), proporcionando uma reação do tipo Fenton. Dessa forma, foi possível obter uma redução do teor de carbono orgânico dissolvido de cerca de 20%, em 60 minutos de reação. A fim de elevar a taxa de mineralização do p-nitrofenol, realizou-se a integração dos processos redutivo e oxidativo. O emprego deste sistema de tratamento proporcionou um aumento de 100% na redução do teor de carbono orgânico dissolvido, para o mesmo tempo de tratamento. Assim, pode-se inferir que a associação dos processos estudados levou à formação de substâncias mais susceptíveis ao ataque de agentes oxidantes. Por fim, avaliou-se o emprego de ferro de valência zero sintetizado via redução de íons Fe2+ por boridreto de sódio. Utilizando-se o sistema de tratamento integrado, este material proporcionou uma taxa de mineralização de cerca de 50%, demonstrando-se como uma boa alternativa para a obtenção do ferro de valência zero. Dessa forma, pode-se concluir que o sistema integrado apresenta-se como uma alternativa viável e eficiente, com grande potencial de aplicabilidade para o tratamento de substâncias recalcitrantes aos processos de tratamento convencionais, uma vez que apresentou bons resultados na degradação/mineralização da substância modelo. / In this work, we studied the use of zero-valent iron under reductive and oxidative medium, in order to develop a process that promotes the degradation and the mineralization of organic substances with deficient electron centers, such as nitroaromatic compounds. In both mediums, the degradation process promoted by the metallic iron showed good efficiency to degrade p-itrophenol, used as pollutant model. For solutions of p-nitrophenol with initial concentration of 100 mg L-1, degradation percentages were above 98% after 15 minutes of the treatment in reductive and oxidative mediums (optimal conditions). Under oxidant atmosphere, the in situ generation of H2O2 (about 0,030 mmol L-1, in 45 minutes) leaded to a Fenton-like reaction. So, it provided a reduction of total organic carbon levels up to 20% in 60 minutes. In order to raise the mineralization of p-nitrophenol, the reductive and oxidative processes were integrated. The used of this treatment system provided an increase of 100% in the reduction of the dissolved organic carbon, for the same treatment time. Thus, we can in infer that the association of the two processes led to the formation of more susceptible substances to the attack of oxidant agents. Finally, it was evaluated the use zero-valent iron synthesized through reduction of Fe2+ ions by NaBH4. The obtained material provided about 50% of p-nitrophenol mineralization, showing to be a good source of zero-valent iron. So, it can be concluded that the use of the integrated system is a viable and efficient alternative, with a great potential of applicability for the treatment of recalcitrants substances to the conventional treatment processes, because it presented good results in the degradation/mineralization of studied pollutant model.

Advanced oxidation Ppcesses

Degradação redutiva

Fenton's reaction

Ferro de valência zero

P-nitrofenol

P-nitrophenol

Poluição de água

Processos oxidativos avançados

Reação de fenton

Reductive degradation

Zero-Valent Iron

S?ntese e caracteriza??o do comp?sito ferro zero-valente nanoparticulado/carv?o ativado granulado (nFZV-CAG) e sua aplica??o para remo??o do f?rmaco nimesulida pelos processos adsor??o/redu??o e ozoniza??o catal?tica heterog?nea

Oliveira, Fernanda Gandra de

13 September 2016

"Resumo/Abstract", "palavras-chave/keywords" nos cap?tulos trabalho. / Submitted by Jos? Henrique Henrique (jose.neves@ufvjm.edu.br) on 2017-03-27T20:52:05Z No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) fernanda_gandra_oliveira.pdf: 3187185 bytes, checksum: 690bd6e7967bbab89412d221de93c88a (MD5) / Approved for entry into archive by Rodrigo Martins Cruz (rodrigo.cruz@ufvjm.edu.br) on 2017-04-24T14:26:09Z (GMT) No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) fernanda_gandra_oliveira.pdf: 3187185 bytes, checksum: 690bd6e7967bbab89412d221de93c88a (MD5) / Made available in DSpace on 2017-04-24T14:26:09Z (GMT). No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) fernanda_gandra_oliveira.pdf: 3187185 bytes, checksum: 690bd6e7967bbab89412d221de93c88a (MD5) Previous issue date: 2016 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior (CAPES) / Funda??o de Amparo ? Pesquisa do Estado de Minas Gerais (FAPEMIG) / O comp?sito nFZV-CAG foi empregado para a ozoniza??o catal?tica heterog?nea da NMS em meio aquoso. O oz?nio foi gerado por uma central geradora de oz?nio IPABRAS, alimentada com ar. Foram avaliados diferentes processos catal?ticos como O3, CAG, O3-CAG, O3-nFZV- CAG, e a varia??o da concentra??o das nFZV para remo??o da NMS. Os resultados mostraram que a combina??o do O3-nFZV-CAG foi muito eficiente levando ? mineraliza??o de aproximadamente 70% da NMS em 120 min de rea??o. Tal efici?ncia pode estar atribu?da ao processo de eletr?lise, em que o Fe0 origina Fe2+ levando ? produ??o do radical hidroxila que ? altamente oxidante, levando a destrui??o do contaminante. As rea??es seguiram a cin?tica pseudo-primeira ordem para remo??o do f?rmaco. Ap?s realizada a coleta as amostras foram submetidas a an?lise qu?mica, empregando-se as t?cnicas de espectrofotometria de UV-Vis, cromatografia l?quida de alta efici?ncia (CLAE) e a determina??o da demanda qu?mica de oxig?nio (DQO) tamb?m foi realizada. / As nanopart?culas de FZV imobilizadas sobre a superf?cie do carv?o ativado (nFZV-CAG) foram sintetizadas e caracterizadas para remo??o do f?rmaco Nimesulida (NMS) em sistemas aquosos. Os estudos foram realizados em bateladas com agita??o de 250 rpm durante 120 minutos, onde foram avaliadas a efici?ncia, concentra??o (20, 25 e 30% do comp?sito) e diferentes dosagens (0,1 a 10g) de nFZV-CAG. Os resultados mostraram que a dosagem de 10 g de 20%nFZV-CAG removeu cerca de 80% da NMS 50 mg L-1 em apenas 30 minutos de rea??o, e atingindo 100% em 120 minutos. Foi observada ainda uma remo??o de 80% da DQO ao final da rea??o. As velocidades de rea??o aumentaram na medida em que foram aumentadas as dosagens do comp?sito, o que seria esperado. Por?m, com o aumento da concentra??o (%) de nFZV n?o houve aumento na velocidade das rea??es. As rea??es seguiram uma cin?tica de pseudo-primeira ordem em rela??o ? remo??o da NMS. Ap?s realizada a coleta, as amostras foram submetidas a an?lise qu?mica, empregando-se as t?cnicas de espectrofotometria de UV- VIS, cromatografia l?quida de alta efici?ncia (CLAE) e a determina??o da demanda qu?mica de oxig?nio (DQO) tamb?m foi realizada. Para caracteriza??o do comp?sito foram empregadas as t?cnicas Microscopia Eletr?nica de Varredura acoplada ? Espectrometria de Energia Dispersiva de Raios-X (MEV-EDS), que mostraram claramente a presen?a da nanopart?culas sobre a superf?cie do carv?o, e analise de superf?cie do nFZV-CAG e do CAG tamb?m foram realizadas. / Disserta??o (Mestrado) ? Programa de P?s-Gradua??o em Qu?mica, Universidade Federal dos Vales do Jequitinhonha e Mucuri, 2016. / The FZV nanoparticles immobilized onto the surface of the activated charcoal (nFZV-CAG) were synthesized and characterized for the removal of the pharmaceutical Nimesulide (NMS) in aqueous systems. The studies were performed in batch mode with stirring speeds of 250 rpm during 120 minutes, so that it was possible to evaluate efficiency, concentration (20, 25 and 30% of the composite) and different dosages (0,1 to 10g) of nFZV-CAG. The results showed that the dosage of 10g of 20%nFZV-CAG removed approximately 80% of NMS 50 mg L-1 in just 30 minutes of reaction, and reaching 100% in 120 minutes. It was still observed a removal of 80% of the COD (Chemical Oxygen Demand) at the end of the reaction. The reaction rates increased with the dosage of the composite, which was expected. Though, increasing the concentration (%) of nFZV did not result in higher reaction rates. The reactions followed a pseudo-first order kinetics for the removal of NMS. After the samples were collected, they were submitted to chemical analysis, employing the techniques of UV-VIS spectroscopy, high performance liquid chromatography (HPLC) and chemical oxygen demand (COD). In order to characterize the composite, the following techniques were used: Scanning Electron Microscopy (SEM) coupled with Energy Dispersive x-Ray spectroscopy (EDS), which showed clearly the presence of nanoparticles onto the charcoal surface. Analysis of the surface of nFZV-CAG were also performed. / The composite nFZV-CAG was used for the catalytic ozonation of NMS in aqueous media. The ozone was generated by an ozone generator IPABRAS, fuelled with air. Different catalytic processes were evaluated such as O3, CAG, O3-CAG, O3-nFZV-CAG, and the variation of the nFZV concentration for the removal of NMS. The results showed that the combination of O3- nFZV-CAG was very efficient, leading to the mineralization of approximately 70% of NMS in 120 minutes of reaction. Such efficiency can be attributed to the electrolysis process, in which the Fe0 generates Fe2+ which generates hydroxyl radicals that are highly oxidant, leading to the destruction of the contaminant. The reactions followed the pseudo-first order kinetics for the removal of the pharmaceutical. After the samples were collected, they were submitted to chemical analysis such as, UV-VIS spectroscopy, high performance liquid chromatography (HPLC) and chemical oxygen demand (COD).

Ferro zero valente

Carv?o ativado granulado

Oz?nio

Nimesulida

Remo??o

Nanopart?culasde Ferro Zero Valente

Remo??o

Nimesulida

Carv?o Ativado Granular

Zero-valent Iron Nanoparticles

Removal

Nimesulide

Granular Activated Charcoal

Estudo da degradação do p-nitrofenol por ferro de valência zero: avaliação de processos redutivos e oxidativos / Study of p-nitrophenol degradation by zero-valent iron: evaluation of reductive and oxidative processes

Luciana Serra Soeira

26 October 2007

Neste trabalho estudou-se o uso do ferro de valência zero em meio redutivo e oxidativo, a fim de desenvolver um processo que promova tanto a degradação quanto a mineralização de substâncias orgânicas com centros deficientes de elétrons, como, por exemplo, espécies que contêm o grupo nitro ligado ao anel aromático. O processo de degradação empregando-se ferro metálico, em ambos os meios estudados, apresentou grande eficiência no tratamento do p-nitrofenol, utilizado como poluente modelo. Para soluções contendo concentração inicial de p-nitrofenol igual a 100 mg L-1, tanto para o meio redutivo quanto para o oxidativo, em condições ótimas, as taxas de degradação obtidas foram superiores a 98% ao final de 15 minutos de tratamento. Para o meio com atmosfera oxidante, foi possível observar a geração de H2O2 in situ (cerca de 0,030 mmol L-1, em 45 minutos), proporcionando uma reação do tipo Fenton. Dessa forma, foi possível obter uma redução do teor de carbono orgânico dissolvido de cerca de 20%, em 60 minutos de reação. A fim de elevar a taxa de mineralização do p-nitrofenol, realizou-se a integração dos processos redutivo e oxidativo. O emprego deste sistema de tratamento proporcionou um aumento de 100% na redução do teor de carbono orgânico dissolvido, para o mesmo tempo de tratamento. Assim, pode-se inferir que a associação dos processos estudados levou à formação de substâncias mais susceptíveis ao ataque de agentes oxidantes. Por fim, avaliou-se o emprego de ferro de valência zero sintetizado via redução de íons Fe2+ por boridreto de sódio. Utilizando-se o sistema de tratamento integrado, este material proporcionou uma taxa de mineralização de cerca de 50%, demonstrando-se como uma boa alternativa para a obtenção do ferro de valência zero. Dessa forma, pode-se concluir que o sistema integrado apresenta-se como uma alternativa viável e eficiente, com grande potencial de aplicabilidade para o tratamento de substâncias recalcitrantes aos processos de tratamento convencionais, uma vez que apresentou bons resultados na degradação/mineralização da substância modelo. / In this work, we studied the use of zero-valent iron under reductive and oxidative medium, in order to develop a process that promotes the degradation and the mineralization of organic substances with deficient electron centers, such as nitroaromatic compounds. In both mediums, the degradation process promoted by the metallic iron showed good efficiency to degrade p-itrophenol, used as pollutant model. For solutions of p-nitrophenol with initial concentration of 100 mg L-1, degradation percentages were above 98% after 15 minutes of the treatment in reductive and oxidative mediums (optimal conditions). Under oxidant atmosphere, the in situ generation of H2O2 (about 0,030 mmol L-1, in 45 minutes) leaded to a Fenton-like reaction. So, it provided a reduction of total organic carbon levels up to 20% in 60 minutes. In order to raise the mineralization of p-nitrophenol, the reductive and oxidative processes were integrated. The used of this treatment system provided an increase of 100% in the reduction of the dissolved organic carbon, for the same treatment time. Thus, we can in infer that the association of the two processes led to the formation of more susceptible substances to the attack of oxidant agents. Finally, it was evaluated the use zero-valent iron synthesized through reduction of Fe2+ ions by NaBH4. The obtained material provided about 50% of p-nitrophenol mineralization, showing to be a good source of zero-valent iron. So, it can be concluded that the use of the integrated system is a viable and efficient alternative, with a great potential of applicability for the treatment of recalcitrants substances to the conventional treatment processes, because it presented good results in the degradation/mineralization of studied pollutant model.

Degradação redutiva

Ferro de valência zero

P-nitrofenol

Poluição de água

Processos oxidativos avançados

Reação de fenton

Advanced oxidation Ppcesses

Fenton's reaction

P-nitrophenol

Reductive degradation

Zero-Valent Iron

Fastläggning av arsenik i en anoxisk akvifär med nollvärt järn i nanostorlek : Uppföljning av ett pilotskaleförsök / Remediation of arsenic in an anoxic aquifer using zero valent iron nanoparticles : follow-up of a pilot study

Niclas, Holmgren

January 2023

Förorenad mark är ett problem som kan hota ekologiska värden samt skada människors hälsa. Det finns flera åtgärder för föroreningar både ex-situ och in-situ. På senare tid har användningen av nollvärt järn som in-situ åtgärd studerats, men har inte använts tidigare i Sverige. Denna studie innefattar ett pilotförök i fält där en in-situ injektering av nollvärt järn i nanostorlek (nZVI) i Hjältevad, Eksjö kommun. Där bedrev dåvarande Televerket en impregneringsanläggning för telefonstolpar där de använde koppar, krom och arsenik (CCA) som efter ett läckage i en lagringstank förorenade grundvattnet på platsen.  Innan denna studie visade skak och kolonnförsök att tillsats av nZVI till jordprover från Hjältevad minskade koncentrationen av både total arsenik och arsenit med över 90 %. Syftet med pilotförsöket var att undersöka hur långt nZVI skulle spridas i akvifären och om arsenikhalten och grundvattenkemin påverkades på samma sätt av nZVI injekteringen som i labbförsöken.  Dynamiska grundvattenprovtagningar utfördes innan behandlingen för att kunna karakterisera grundvattnet i försöksytan. I ett inledande försök uppskattades spridningen av en 5 g/L nZVI slurry med tillsatt 0,75 g/L polyakrylsyra som injekterades med direct push teknologi. Spridningen av en nZVI injektering undersöktes genom mätning av elektrisk konduktivitet samt genom att observera färgen på grundvattnet. En spridning av nZVI mellan 0,6 och 1,5 m observerades och influensradien ökade med djupet i försöksytan samt visar på större vertikal utbredning vid grundare djup. Preferentiellt flöde kunde ses och överlappande injekteringspunkter behövs för en heltäckande utbredning. Pilotförsöket omfattade fem injekteringspunkter som borrades med 2 m avstånd vid källtermen. Sex nya grundvattenrör installerades uppströms och nedströms injektionspunkterna. Vattenprover togs under 4 månader där grundvattenkemiska parametrar som pH, EH, total As, trevärd As, och Fe koncentrationer mättes. Arsenikhalten låg runt 1700 µg/L innan behandlingen och har inte minskat 4 månader efter injektering av nZVI. I grundvattenrören närmast injekteringspunkterna fanns en tendens till ökad totalhalt och andel arsenit. Möjliga orsaker diskuteras och en hypotes är att lägre temperatur i akvifären jämfört med labbförsök förklarar lägre reaktivitet för nZVI. / Soil contamination poses ecological risks and enhances risks for human exposure to chemical in many areas of the world. Various ex-situ and in-situ soil remediation strategies have therefore been developed. The in-situ use of zero-valent iron sorbents is a relatively new strategy that has not yet been used in the field in Sweden. The current study involves a pilot study of an in-situ inejction of nano-scale zerovalent iron (nZVI) in a contaminated site in Hjältevad, Eksjö municipality. The former Swedish State-owned telephone compmnay operated a plant where telegraph poles were impregnated with chromated copper arsenate (CCA) that leaked into the groundwater following a tank rupture.   Batch and column tests done prior to the current study in the lab showed that addition of nZVI to sediment sampled from the aquifer reduced the dissolved concentrations of total arsenic as well as arsenite with more than 90 %. The aim of this pilot test was therefore firstly to investigate to investigate whether the same reduction could be obtained in the field.  Dynamic groundwater sampling was carried out before the pilot test to characterize hydrology and chemistry of the aquifer. A 5 g/L nZVI slurry was injected using direct push technology initially in one injection well to investigate spread of nZVI by measuring electrical conductivity and observing the color of the groundwater. The measured electrical conductivity and color observation showed a spread of nZVI between 0.6 and 1.5 m. The radius of influence increased with depth in the test zone and shows greater vertical spread at shallower depths. Preferential flow could be seen and overlapping injection points are thus needed for a complete coverage of the source zone. Five injection well were then drilled into the source zone at a distance of 2 m. New groundwater wells were installed downstream from the source zone where samples were taken over a period of 4 months in which chemical parameters such as pH, EH, total As, trivalent As, and Fe concentrations were measured. Arsenic concentrations were 1700 µg/L before the treatment and this concentration as well as other measured groundwater paramters did not decrease significantly during the 4 months monitoring period. In the groundwater wells closest to the injection points, the concentration of total and trivalent arsenic increased significantly. Possibly reasons are discussed and it is hypothesized that the lower aquifer temperature in the field comapred to the lab experiments may explain the lower nZVI reactivity.

contaminated soil

arsenic

arsenate

arsenite

zero valent iron

nano particles

nZVI

pilot study

field study

förorenad mark

arsenik

arsenat

arsenit

nollvärt järn

nanopartiklar

pilotförsök

fältförsök

Engineering and Technology

Teknik och teknologier

Geochemistry

Geokemi

POST-EMPLACEMENT LEACHING BEHAVIORS OF NANO ZERO VALENT IRON MODIFIED WITH CARBOXYMETHYLCELLULOSE UNDER SIMULATED AQUIFER CONDITIONS

Williams, Leslie Lavinia

January 2013

No description available.

Environmental Science

Geochemistry

Hydrologic Sciences

Hydrology

Nanoscience

Nanotechnology

Environmental Geology

nano

nZVI

carboxymethylcellulose

CMC

transport

remediation

groundwater

leaching

reactivity

nano zero valent iron

CXTFIT

Method of Moments

modeling

emplacement

CMC-nZVI

column experiments

hydrogen gas

flow-through reactor

Destruction of chlorinated hydrocarbons by zero-valent zinc and bimetallic zinc reductants in bench-scale investigations

Cushman, Christopher Scott

09 May 2014

No description available.

Chemistry

Environmental Engineering

Environmental Geology

Environmental Management

Environmental Science

Environmental Studies

Organic Chemistry

Sustainability

Water Resource Management

chlorinated hydrocarbons

zero-valent zinc

ZVZ

zero-valent iron

ZVI

bimetallic

reductants

copper

Cu-Zn

palladium

Pd-Zn

nickel

Ni-Zn

chlorinated methanes

chlorinated ethanes

chlorinated ethenes

chlorinated propanes

1,2,3-TCP