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Investigation of oil adsorption capacity of granular organoclay media and the kinetics of oil removal from oil-in-water emulsionsIslam, Sonia 25 April 2007 (has links)
Produced water, a byproduct of oil and gas production, includes almost 98% of
all waste generated by oil and gas exploration and their production activities. This oil
contaminated waste water has a great impact on our environment and is considered to be
a high-cost liability. The Department of EnergyâÂÂs Oil and Gas Environmental Program is
concerned with the development of new and affordable technology to clean this
produced water. Organically modified clays are proposed as a good option for removal
of oil from produced water. Organoclay, incorporated into a treatment process shows
promise of being a cost effective method of treatment to remove crude oil from brine
either as a final treatment prior to brine disposal at sea or as a precursor to desalination.
Organoclay also pre-polishes the waste water before further treatment. This research
studies the efficacy of using organoclay to remove oil by measuring its adsorption
capacity to remove the oil from a SAE 30 (Golden West Superior) motor oil-water
emulsion. A kinetic model was developed to examine the time dependent behavior of the
oil adsorbing characteristics of the organoclay and to investigate how closely the
experimentally obtained data matches the kinetic model. It was found that organoclay is effective in removing various percentages of oil depending on the concentrations of a
SAE 30 (Golden West Superior) motor oil-water emulsion. Moreover, it was found that
the experimental data closely follow the kinetic behavior of the organoclay as shown by
the kinetic model. Since this research is specific to a particular type of oil, SAE 30,
further research is required for verifying the adsorption capacity of organoclay in other
types of oils. Moreover, it is also recommended that the adsorption capacity of the
organoclay, together with conventional adsorbent such as GAC (Granular Activated
Carbon), be investigated to determine if there is any further improvement in the
adsorption capacity. Lastly, a detailed investigation using the actual produced water
from the oil field should be conducted to determine the efficacy of the organoclay
system in removing oil from water produced in the field.
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The evaluation of sorbent containing geotextiles for the remediation of PAH and NAPL contaminated sedimentTrejo, Gabriel 2009 August 1900 (has links)
As more sites containing contaminated sediments are remedied with sediment caps, so grows the interest among site managers and engineers in the benefits afforded by active capping. While traditional sediment caps can effectively manage strongly solid-associated contaminants in many situations, under certain conditions active caps or amendments may be needed to effectively reduce risk to an acceptable level. This research assessed the predicted and observed breakthrough of dissolved organic contaminants in two newly developed geotextiles; one designed to sorb non-aqueous–phase liquids (NAPLs), the other dissolved-phase contaminants. The performance of the geotextiles was then compared to that of another remediation technology that has been deployed in the field for two years. All active materials were then evaluated based on their sorption capacity and their predicted life under field conditions.
The sorbent containing geotextiles designed for active capping applications were tested in columns to simulate field conditions, where upwelling groundwater would be contaminated by impacted sediments, thereby transporting contaminants to the water column. The contaminants of interest in these studies were three polycyclic aromatic hydrocarbons (PAHs) of varying hydrophobicity. Breakthrough curves for the materials
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of interest were constructed for the three PAHs and were fit to an advection-dispersion model to predict the mass of contaminants sorbed onto them. This mass was then compared and verified to be similar to values found in literature.
The performance of the geotextiles was compared to that of organoclay deployed in Portland, OR, at the McCormick & Baxter Creosoting Company Superfund Site. In 2004, over 22 acres of sediment at the site were remedied with both passive and active caps to mitigate the effects of decades worth of contamination. In certain portions of the site, a 12 inch thick layer of organoclay was employed, while at other portions of the site, conventional sand or a thin reactive core mat with the equivalent of approximately 1 cm of organoclay were employed. The continued effectiveness of these sediment caps was evaluated using a variety of laboratory techniques, including measuring samples’ hexane extractable material, which is a proxy for NAPL contamination, as well as their PAH bulk concentrations. These analyses performed on core samples allowed for the generation of vertical profiles critical to cap evaluation.
Despite possessing a significantly greater specific sorption capacity, the geotextiles could not offer the same protection for the extended period of time that the bulk organoclay could. The greater mass of organoclay deployed in bulk at the McCormick & Baxter site allowed a much greater sorption capacity to be placed. It would take over sixty stacked layers of the one of the geotextiles evaluated in these studies to achieve the same capacity for dissolved-phase contaminants as the 1 ft organoclay cap. However, no significant penetration of NAPL into the bulk organoclay has been noted, and thus even the thin layer within a geotextile might have been sufficient at the site, despite its significantly lower overall capacity. The data generated provides information as to the expected capacity of the various sorbent placement approaches and can help guide decisions at other sites. / text
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Towards controlled release of a natural mosquito repellent from polymer matricesAkhtar, Mohamed U. January 2014 (has links)
Malaria is still the most important parasitic disease in humans with most cases occurring in Sub-Saharan Africa (90% cases). It is transmitted via anopheles mosquitoes. Several vector control methods are available, e.g. long lasting insecticidal mosquito nets (LLINs), insecticide-treated nets (ITNs) and indoor residual spraying (IRS). However, they are effective only when a person is in-doors. Outdoor protection can be obtained for short periods (48-72 hours) using topical repellents. This preliminary study investigated the possibility to develop longer acting delivery forms based on polymer technology. The viability of two different approaches were considered for the controlled release of the natural repellent 3,7-dimethyloct-6-en-1-al (citronellal). The first idea was to dissolve the repellent in the polymer while controlling the rate of release by clay nanoplatelets dispersed in the matrix. Towards this, ethylene vinyl acetate (EVA) copolymer (18% VA) was modified with organically modified nanoclay. Release tests showed that this approach was not viable as only a small amount of repellent could be incorporated and it was lost within a day or two from thin polymer strands.
The second approach targeted the use of a polymer in which the repellent is not soluble at ordinary temperature but where solubility is achieved at high temperatures. In this case polyethylene was used as host polymer. It was shown that large quantities of repellent can be trapped inside the polymer matrix using the temperature induced phase separation method (TIPS). Scanning electron microscopy revealed that a microporous co-continuous phase structure was obtained by shock cooling homogeneous mixtures to temperatures well below the spinodal phase boundary curve.
The phase behaviour of the LLDPE-citronellal system was studied using cloud point determinations in a microscope fitted with a hot stage and by differential scanning calorimetry. The experimental data points on the bimodal phase envelope were used to fix parameter values of the Flory-Huggins equation. The latter was then used to predict the location of the spinodal lines. At 40 wt.% polymer the spinodal boundary is located at 96 C. However, experiments showed that quenching temperature of 5°C (i.e. the temperature of typical cooling baths used during filament extrusion) is sufficient to generate the desired microporous structure. / Dissertation (MSc)--University of Pretoria, 2014. / tm2015 / Chemical Engineering / MSc / Unrestricted
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Analysis of hydrocarbon removal methods for the management of oilfield brines and produced watersFurrow, Brendan Eugene 01 November 2005 (has links)
According to the Texas Railroad Commission (TRC), ????over 250 billion gallons
of produced water is taken out of Texas Soil every year, and more than 35% of this
water is not currently fit to use.?? Therefore, it can be assumed that domestically and
globally, the petroleum industries challenge has been to develop a high-tech and cost
effective method to purify the large volumes of oilfield brines and produced water.
Currently, most of the produced water requires several pre- and post- treatment methods
to aide in reducing fouling of membranes, separation of components, increasing influent
and effluent quality, and preventing unwanted work stoppage during the desalination
process. As a result, the pre- and post- treatment conditioning of the produced water
affects the economics and scale-up (i.e. residence times, absorption capacity, etc??) of
the varying processes parameters. Therefore, this research focuses on developing an
economic analysis and determining the adsorption capacity of an organoclay system to
remove oil.
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Synthesis and Characterization of Crosslinked Polyurethane-Clay NanocompositesPeng, Shirley 30 June 2015 (has links)
No description available.
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Chain extension of polyamide 6/organoclay nanocompositesTuna, Basak, Benkreira, Hadj 19 April 2019 (has links)
Yes / Thermal degradation of polyamide 6 (PA6)/organoclay nanocomposites is a serious impediment to wider applications of these nanocomposites. In this study, a solution is proposed based on the well‐established use of chain extenders. As in PA6, thermal degradation, in the absence of moisture, produces broken polymer chains with amide end groups, a chain extender with anhydride functionalities, known to be strongly reactive with amide groups, was used to reconnect the chains. Experiments conducted using a laboratory twin‐screw extruder were first checked, through transmission electron microscopy observations, to have produced good organoclay intercalation and exfoliation into PA6. Following from this, samples with the chain extender added were produced and characterized. The data obtained were conclusive in the effectiveness of the chain extender: for the chain extended nanocomposites, there is an enhancement in the value of the complex viscosity by 7 times and in the storage modulus by 88 times, while the tensile modulus increased by 57% compared with the neat PA6. The nonchain extended nanocomposite achieved in comparison an enhancement of 2 times the value of the complex viscosity and 19 times the storage modulus while the tensile modulus increased by 53% compared to the neat PA6. These data provide conclusive proof on the rationale that anhydride functionalities should be sought when developing chain extenders for PA6 nanocomposites. / Government of Turkey
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Obtenção e caracterização de nanocompósitos de PS / argila esmectítica. / Obtention and characterization of PS/ smectite clay nanocomposites.Lins, Pedro Garcia 27 July 2010 (has links)
Neste trabalho foram investigados a obtenção de argilas organofílicas e nanocompósitos de Poliestireno com estas argilas. A primeira parte deste trabalho teve como objetivo a modificação de argilas esmectíticas naturais brasileiras, tornando-as organofílicas e adequadas à aplicação em nanocompósitos de matriz poliméricas. Para modificação foram utilizados sais quaternários e foi avaliado quais parâmetros do processo de obtenção mais influenciam nas propriedades das argilas organofílicas. Para tanto foi utilizada a argila Brasgel (fornecida pela BUN, e naturalmente cálcica), e foram propostos diferentes métodos de preparo de argilas, onde quatro parâmetros foram avaliados: os sais quaternários amônio; a granulometria da argila (#400 e coloidal), a temperatura de processamento (ambiente e a 70oC) e os tempos utilizados durante o processo de incorporação dos sais quaternários na estrutura dos materiais argilosos. Os materiais obtidos foram caracterizados por difração de raios-X (DRX), ensaios de inchamento de Foster e analise térmica diferencial (DTA). Obteve-se incremento do espaçamento basal com todas as argilas utilizadas. Mostrou-se que os dois principais parâmetros determinantes na incorporação das argilas são o tempo de mistura e a temperatura (de 70oC) empregada. A segunda parte do trabalho teve como objetivo obter nanocompósitos de PS com argilas organofílicas (sendo uma argila obtida na primeira parte e uma comercial, Cloisite 20A) via intercalação no polímero fundido. Os nanocompósitos foram preparados em extrusora de rosca dupla e em misturador interno. As argilas foram adicionadas ao polímero fundido na forma de um pó e em suspensão de etanol. Os nanocompósitos obtidos foram moldados por compressão e injeção (com variações nas condições de injeção para avaliar a influencia na estrutura final), para realização da caracterização. A principal técnica de caracterização utilizada foi a caracterização reológica com ensaios de cisalhamento de pequenas amplitudes (COPA) e de varredura de tempo. Os materiais foram caracterizados também por técnicas auxiliares como DRX, microscopia eletrônica de transmissão (MET), analises térmicas diferenciais (DTA) e ensaios mecânicos. Obteve-se nanocompósitos de estrutura intercalada. Os materiais obtidos no misturadores mostraram as melhores dispersões de argila. . Verificou-se que o tempo de residência dos materiais é um dos fatores mais importantes na obtenção dos nanocompósitos. Os ensaios mecânicos não mostraram alteração significativa. / In this work, the obtention of organoclays and nanocomposites of polystyrene (PS) using these modified clays was studied. In a first part Brazilian smectites clays were modified to be used in clay containing polymer nanocomposites. Several quaternary ammonium salts and experimental methods to modify the clays were used. In particular four parameters were evaluated: the type of ammonium salt, the particle clay size, the temperature and time used during the process of modification. The samples obtained were characterized by X-ray diffraction (XRD), Foster swelling test and differential thermal analysis (DTG). The results indicated that the most two important parameters in the process of modification are the time and the temperature used. In a second part nanocomposites of PS with organoclays (one obtained in the first part, and commercial clay, named cloisite 20A) were obtained by melt intercalation method using a twin screw extruder and an internal mixer. The clays were incorporated to the polymer as a fine dried powder and as a suspension of ethanol. Nanocomposites were molded by compression and injection. The injection conditions were modified to evaluate their influence on the morphology of the samples. The nanocomposites samples were characterized by XRD, transmission electronic microscopy (TEM), DTG and mechanical tests. Small amplitude oscillatory shear (SAOS) and time sweep tests were carried out. Nanocomposites of intercalated structure were obtained. The ones obtained using the internal mixer were shown to present a finer microstructure. The experimental results revealed that the residence time was showed the most important parameter in obtention of nanocomposites.
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Estruturas grafitizadas e nanocompósitos a base de Poli(imida)/argila organomodificada: síntese, caracterizações e aplicações / Graphitized structures and nanocomposites based on poly(imide)/organoclay: synthesis, characterization and applicationsBattirola, Liliane Cristina 11 December 2012 (has links)
Neste trabalho, materiais nanocompósitos de poli(imida) (PI) derivada de BTDA-pFDA-Mel e argila do tipo montmorilonita, organicamente modificada (O-MMT), foram sintetizados usando a metodologia de two-steps. O componente inorgânico do nanocompósito foi adicionado nas concentrações de 3,3, 5,3 e 8,3% em massa. As membranas sintetizadas foram caracterizadas por Espectroscopia de Absorção na Região do Infravermelho com Transformada de Fourrier (FTIR), Difração de Raio X (DRX), Termogravimetria (TG), Espectroscopia de Fotoelétrons Excitados por Raio X (XPS) e Microscopias Ótica (MO), Eletrônica de Varredura (MEV) e de Transmissão (MET). Os resultados comprovam a formação de PI e uma estrutura de nanocompósito do tipo intercalado, onde a cadeia polimérica expulsa o surfactante do espaço interlamelar; além de apresentar estruturas de argila parcialmente esfoliadas. Os materiais sintetizados foram avaliados como polieletrólito em célula a combustível alcalina (Alkaline Fuel Cell - AFC), obtendo condutividades iônicas em torno de 0,032 S cm-1 e de 0,017 S cm-1 para as membranas de PI pura e de nanocompósito com 3,3% de argila em massa, respectivamente, ambas a 60 °C, as quais são na ordem ou até mesmo superior que os polieletrólitos comercias (Tokuyama®, 0,014 S cm-1) para eletrólito alcalino. Apesar de condutividades razoáveis, a performance obtida para as AFCs em operação não foram satisfatórias, desta forma, membranas de nanocompósitos com PI de cadeia principal de maior mobilidade foram sintetizadas, caracterizadas e avaliadas nas AFCs. Ademais, neste segundo nanocompósito, a adição de grupamentos amino na cadeia principal foram realizados para aumentar a condutividade iônica. Assim, este segundo material apresentou uma maior performance nas AFCs quando comparado com o nanocompósito de PI de cadeia mais rígida e com a membrana comercial Tokuyama® nas mesmas condições. Além disso, a carbonização superficial das amostras foi realizada por meio de tratamento térmico. A formação de estruturas grafitizadas nos materiais de PI pura e dos nanocompósitos foram investigadas por FTIR, DRX, TG, XPS e EPR. Foi encontrado que a formação de estruturas do tipo grafite nas amostras ocorrem principalmente nas primeiras camadas (grafitização superficial), preservando a estrutura interna da poli(imida). Com isso, estruturas poliméricas ou nanocompósitos com superfícies grafitizadas podem atuar tanto como polieletrólitos e ser um caminho promissor para o desenvolvimento de arranjos eletrodo-membrana (Membrane Electrode Assembly - MEA) mais eficientes para células a combustíveis alcalinas, como em processos de catálise heterogênea e processos de separação com membranas. / In this work, Poli(imide)/clay (PI/clay) nanocomposite membranes were synthesized by employing a two-steps method using organically modified montmorillonite clay (O-MMT) with different amounts of O-MMT loading (3.3, 5.3 and 8.3 wt.%). Fourier transform infrared spectroscopy (FTIR), X-ray power diffraction (XRD), thermogravimetric analysis (TG), X-ray photoelectron spectroscopy (XPS), optical microscopy (OM), scanning electron microscope (SEM) and transmission electron microscopy (TEM) measurements, confirmed the formation of pure PI and intercalated-nanocomposite structures. The results revealed parallel clay layers with interlamellar PI and some organoclay partially exfoliated. In addition, the polyelectrolyte membranes of PI and PI/O-MMT (3.3 wt.%) showed that the ionic conductivity were 2- and 1-fold, respectively, higher than that of commercial membrane (Tokuyama®, 0.014 S cm-1), in alkaline fuel cells (AFC) at 60 °C. Despite the fact that the membranes of pure PI and PI/O-MMT demonstrated a good degree of ionic conductivity, rapid fuel cell performance deactivation occurred for the temperature higher than 75 °C. Furthermore, the lack of prepared polyelectrolyte ionic groups, led us to consider alternative synthesis of PI/clay nanocomposite membranes. Thus, the performance for second polyelectrolyte was superior when compared to pure PI, PI/O-MMT and commercial Tokuyama® membranes at same conditions. Moreover, the samples were also surface carbonized by thermal treatment. Combining FTIR, XRD, TG, XPS and electron paramagnetic resonance (ESR) analysis, the results suggested that graphitized nanostructures formation occurred mainly on the surface, maintaining the PI bulk structure. Therefore, graphitized PI/clay membranes may act as one promising way for enhancing both membrane electrode assembly in alkaline fuel cells and gas separation or catalysis.
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Argila organofílica como agente microbiano para tintas. / Organoclay as microbial agent to paints.Silva, Wagner Claudio da 08 December 2011 (has links)
Sais quaternários de amônio são amplamente usados como agentes antissépticos, desinfetantes, detergentes e preservantes. Além disso, sais quaternários de amônio são frequentemente utilizados como algicidas, sendo o cloreto de dodecil dimetil benzil amônio (Cloreto de benzalcônio) o mais efetivo contra estes microorganismos. No entanto sua aplicação como algicida de superfícies é limitada, devido a sua alta hidrofilicidade, ocasionando uma alta lixiviação deste composto quando a superfície é exposta à alta umidade e intempéries de clima tropical. Atualmente compostos como Diuron e S-Triazina são empregados como algicidas, considerados de baixa lixiviação. No entanto, altos níveis de concentração destes biocidas foram detectados em regiões costeiras evidenciando a lixiviação destes biocidas, quando utilizados em tintas para casco de navio. Assim surge a necessidade do desenvolvimento de um algicida para suprir as deficiências de lixiviação dos compostos empregados atualmente. Materiais como as argilas organofílicas são uma excelente alternativa, pois são altamente hidrofóbicas. Portanto sintetizou-se neste trabalho uma argila organofílica utilizando-se cloreto de benzalcônio, a qual foi utilizada em uma formulação de tinta imobiliária. O material foi caracterizado pelas técnicas de difração de Raios X e análise termogravimétrica. Um filme de tinta foi submetido a uma câmara de lixiviação, simulando a ação da chuva. Após a lixiviação o filme de tinta seguiu para testes microbiológicos, para verificar se a superfície ainda possui proteção microbiana. As algas testadas foram das espécies Phormidium cebenense, Trentepohlia odorata, Chlorella sp e Scenedesmus quadricauda colocadas num pool de algas. Através das análises de Difração de Raios X e termogravimétrica é possível determinar a estrutura e quantificar o teor cloreto de benzalcônio no material, respectivamente. Os testes microbiológicos e de lixiviação avaliaram a capacidade biocida assim como a resistência à intempérie do material. O novo composto sintetizado neste trabalho apresentou um alto potencial para uso como agente microbiano em tintas. / Quaternary ammonium compounds are widely used as antiseptic agents, disinfectants, detergents and preservatives. In addition, quaternary ammonium compounds are often used as algaecides, and dodecyl dimethyl benzyl ammonium chloride (benzalkonium chloride) is the most effective against these microorganisms. However benzalkonium chloride is not used as surface algaecide compound due its high hydrophilic, bring on high leaching of this compound when the surface is exposed to high humidity and severe weather from tropical climate. Currently, compounds such as diuron and s-triazine are used as microbial agent, considered low leaching. However diuron and s-triazine were detected in coastal regions in high levels concentration showing the leaching of these biocides when used in antifouling paints in ships. Considering these, it can be observed the necessity to develop a new algaecide to overcome the failings of leaching of the compounds used nowadays. Material as organoclay is an excellent alternative because they are highly hydrophobic. Therefore in this work was synthesized a new nanomaterial using benzalkonium chloride, which was applied in a house paint formulation. The material was characterized by the techniques of X-ray diffraction and thermogravimetric analysis. A film coating was placed in a leaching chamber, simulating the action of rain. After leaching the coating film was applied to microbiological tests to check if the surface still had microbial protection against the following algae species: Phormidium cebenense, Trentepohlia odorata, Chlorella sp and Scenedesmus quadricauda; placed in a pool of algae. It was possible to determine the structure and quantify the amount of benzalkonium chloride in the material through X-ray Diffraction and Thermogravimetric analysis, respectively. The biocide capabilities as well as the resistance to weathering of coating with the material were analyzed by microbiological and leaching test, respectively. The new compound developed in this study has a high potential to be used as microbial agent in paints.
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Adsorption and desorption of atrazine on a melamine-based soil amendmentNeitsch, Susan Lynn 30 September 2004 (has links)
Adsorption kinetics and adsorption-desorption of atrazine on organoclay composites prepared with the surfactant 6-piperazin-1-yl-N,N'-bis-(1,1,3,3-tetramethyl-butyl)-(1,3,5)triazine-2,4-diamine and Houston Black clay were studied using the indirect batch equilibration procedure. The organoclay composites sorbed significantly more atrazine than the Houston Black clay. Adsorption equilibrium was reached after 72 h for the organoclay composites. Atrazine adsorption isotherms were described by linear partitioning. The Koc values ranged from 605 to 5271 L kg-1 for the organoclay composites compared to a value of 41 L kg-1 for the Houston Black clay. The organoclay composite containing 20% surfactant on a total weight basis provided the most efficient adsorption of atrazine, although organoclay composites containing much lower amounts of surfactant also adsorbed significant amounts of atrazine. An average of 11% of sorbed atrazine was released during desorption. Characterization of desorption products showed only atrazine molecules being released from the organoclay composites.
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