Remoção de corantes sintéticos de efluentes aquosos usando adsorventes carbonados

Prola, Liziê Daniela Tentler

January 2016

A casca de pinhão manso é um resíduo abundante da indústria de biocombustível e foi usada em sua forma natural (PN) e tratada por plasma não térmico (PP) como biossorvente para a remoção do corante Vermelho reativo 120 (VR-120) de soluções aquosas. Os nanotubos de carbono de parede múltipla (NTCPM) e carvão ativo (CA) foram investigados como adsorventes na remoção do corante Azul direto 53 (AD-53) a partir de águas residuais. Os materiais adsorventes foram caracterizados por espectroscopia Raman, espectroscopia de infravermelho, isotermas de adsorção/dessorção de N2, microscopia eletrônica de varredura e transmissão. As melhores condições para adsorção dos corantes foram alcançadas em pH 2,0. O tempo de contato para obter o equilíbrio de isotermas, em 298-323 K, foi fixado em 10 horas para os biossorventes PN e PP. Para estes, o modelo cinético de ordem geral forneu o melhor ajuste aos dados experimentais em comparação com as cinéticas pseudo-primeira ordem e pseudo-segunda ordem. Para o corante VR-120, os dados de equilíbrio (298-323 K) foram ajustados para o modelo de isoterma de Liu. A capacidade máxima de adsorção do corante ocorreu a 323 K, atingindo valores de 40,94 e 65,63 mg g-1 para o PN e PP, respectivamente. Os resultados dos estudos de adsorção/dessorção mostraram que a maior porcentagem de remoção de PN e PP foram alcançadas quando a mistura de solventes (acetona a 50% + 50% de 0,050 mol L-1 de NaCl (v/v)) foi utilizada. Os efluentes simulados foram utilizados para verificar a aplicabilidade dos biossorventes propostos. A remoção ocorreu de 68,2 e 94,6%, para PN e PP, respectivamente, em meio com elevada concentração salina. Já para NTCPM e CA os tempos de contato foram fixados em 3 horas e 4 horas, respectivamente. O modelo da cinética de ordem geral forneceu o melhor ajuste aos dados experimentais, se comparado aos modelos de adsorção cinéticos de pseudoprimeira ordem e pseudo-segunda ordem. Para o corante AD-53, os dados no equilíbrio (298-323 K) foram ajustados pelo modelo de isoterma de Sips. A capacidade máxima de adsorção do corante ocorreu a 323 K, com os valores de 409,4 e 135,2 mg g-1 para NTCPM e CA, respectivamente. Os resultados dos estudos de adsorção/dessorção mostraram que os NTCPM carregados com AD-53 podem ser regenerados (97,85%) utilizando uma solução de acetona aquosa (50% de acetona + 50% NaOH 3 mol L-1 (v/v)). Em experimentos de simulação de efluentes têxteis para aplicação dos adsorventes no tratamento de efluentes industriais, foram obtidas as remoções de 99,87% e 97,00% para NTCPM e CA, respectivamente, num meio com alta salinidade e diversos corantes. / Jatropha curcas shell an abundant residue of the biocombustible industry, was used in its natural form (JN) and treated by non-thermal plasma (JP) as biosorbents for the removal of Reactive Red 120 (RR-120) dye from aqueous solutions. Multi-walled carbon nanotubes (MWCNT) and powder activated carbon (PAC) were used as adsorbents for adsorption of Direct Blue 53 dye (DB-53) from aqueous solutions. The adsorbents were characterised using Raman spectroscopy, infrared spectroscopy, N2 adsorption/desorption isotherms, and scanning and transmission electron microscopy. The best conditions to adsorption of the dye by adsorbent were achieved at pH 2.0. The contact time to obtain equilibrium isotherms at 298–323 K was fixed at 10 h for both biosorbents. The general order kinetic model provided the best fit to the experimental data compared with pseudo-first order and pseudo-second order kinetic adsorption models. For RR-120 dye, the equilibrium data (298–323 K) were best fitted to the Liu isotherm model. The maximum sorption capacity for adsorption of the dye occurred at 323 K, attaining values of 40.94 and 65.63 mg g−1 for JN and JP, respectively. The results of adsorption/desorption studies showed that the highest percentage of removal of JN and JP were obtained when the mixture of solvents (acetone 50% + 50% 0.050 mol L-1 NaCl (v/v)) was used. Simulated dyehouse effluents were used to check the applicability of the proposed biosorbents for effluent treatment. The removal was 68.2 and 94.6% for JP and JN, respectively, in media with high salinity. As for NTCPM and CA the contact times were set at 3 h and 4 h, respectively. The general order kinetic model provided the best fit of the experimental data compared to pseudo-first order and pseudo-second order kinetic adsorption models. For DB- 53 dye, the equilibrium data (298 to 323 K) were best fitted to the Sips isotherm model. The maximum sorption capacity for adsorption of the dye occurred at 323 K, with the values of 409.4 and 135.2 mg g-1 for MWCNT and PAC, respectively. The results of adsorption/desorption studies showed that MWCNT loaded DB-53 could be regenerated (97.85%) using mixture 50% acetone + 50% of 3 mol L-1 NaOH (v/v). Simulated dye house effluents were used to evaluate the application of the adsorbents for effluent treatment, with removal of 99.87% and 97.00% for MWCNT and PAC, respectively.

Biossorvente

Tratamento de efluentes

Adsorção

Nanotubos de carbono

Pinhão

Corantes Têxteis : remoção

Jatropha curcas

Textile dyes

Nonlinear isotherm fitting

Activated carbon

Adsorption

Carbon nanotubes

Utilização de quitosana no controle sobre a formação de hot spots e protetor superficial de nanoesferas de ouro para estudos de adsorção por espalhamento Raman intensificado por superfície

Oliveira, Débora Guimarães de

31 August 2018

Submitted by Geandra Rodrigues (geandrar@gmail.com) on 2018-11-05T13:41:09Z No. of bitstreams: 1 deboraguimaraesdeoliveira.pdf: 3971933 bytes, checksum: 7b5a0ee6a3a033ca0149c8adc512aea2 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2018-11-23T11:16:07Z (GMT) No. of bitstreams: 1 deboraguimaraesdeoliveira.pdf: 3971933 bytes, checksum: 7b5a0ee6a3a033ca0149c8adc512aea2 (MD5) / Made available in DSpace on 2018-11-23T11:16:07Z (GMT). No. of bitstreams: 1 deboraguimaraesdeoliveira.pdf: 3971933 bytes, checksum: 7b5a0ee6a3a033ca0149c8adc512aea2 (MD5) Previous issue date: 2018-08-31 / A proteção superficial de nanoesferas de ouro (AuNEs) pode fornecer uma maior estabilidade coloidal, importante quando se trabalha com sistemas biológicos, por apresentarem situações diversas que podem levar à agregação das AuNEs. O biopolímero quitosana (Quit) é um material atóxico, apresenta baixo custo, e vem sendo muito utilizado em sistemas biológicos para diagnóstico de doenças. Sistemas sensíveis, como os biossensores utilizados na detecção de moléculas adsorvidas em AuNEs, podem ser monitorados por mudança na banda de ressonância de plasmon de superfície localizado (LSPR) e pela utilização da técnica de espalhamento Raman intensificado por superfície (SERS). Quando as moléculas são adsorvidas nas superfícies das AuNEs é possível observar a indução de agregação da suspensão coloidal pela mudança na banda LSPR. Devido à sensibilidade analítica, as superfícies das AuNEs são protegidas para evitar agregação e precipitação coloidal, e a obtenção de resultados falso-positivos. Esta tese teve como objetivo realizar vários estudos utilizando as AuNEs protegidas superficialmente por Quit para oferecer uma maior estabilidade e controlar a formação de hot spots na presença do analito. Para tal, sempre foram realizados experimentos comparando as AuNEs com e sem proteção superficial por Quit. Os estudos iniciais observaram a resistência à agregação das AuNEs com relação ao tempo de exposição em temperatura ambiente. Seguindo o raciocínio as AuNEs também foram expostas à diferentes concentrações dos agentes agregantes etanol (EtOH) e KCl. Os analitos utilizados como molécula prova para o SERS e também para observar possíveis mudanças na banda LSPR, foram os corantes: cristal violeta (CV), rodamina 6G (R6G) e IR-820, que apresentam cargas superficiais positiva ou negativa; a fim de identificar alguma preferência na adsorção por carga superficial do analito. Para os estudos em espectroscopia SERS, foram realizadas medidas variando concentração de Quit na presença dos corantes juntos ou separados, além de observar a interferência na ordem de adição do corante no sinal SERS. A Quit se mostrou promissora para aumentar a estabilidade das AuNEs e, portanto, experimentos para tentar modular e controlar a formação de hot spots foram realizados. O efeito SERS foi utilizado como uma ferramenta analítica em que foi estudada a relação direta do sinal SERS obtido dos corantes, com a sua concentração em solução. A partir destes resultados, foi possível construir isotermas de adsorção dos corantes estudados, que foram ajustadas ao modelo de Langmuir. / The surface protection of gold nanospheres (AuNEs) can provide greater colloidal stability, important when work with biological system, because the present diverse situations that can lead to the aggregation of AuNEs. The chitosan biopolymer (Quit) is a non-toxic material, presents low cost, and has been widely in biological systems for the diagnosis of diseases. Sensitive systems, such as biosensors used in detection of adsorbed molecules in AuNEs, can be monitored by changing in Localized Surface Plasmon Resonance´s band (LSPR) and by use of Surface-Enhanced Raman Spectroscopy technique (SERS). When the molecules are adsorbed on the AuNEs surfaces is possible to observe the induction of aggregation of the colloidal suspension by the change in the LSPR band. Due to the analytical sensitivity, the surfaces of the AuNES are protected to avoid aggregation and colloidal precipitation, and to obtain false positive results. This thesis aimed to perform several studies using the AuNEs surface protected by Quit to offer greater stability and to control the formation of hot spots in the presence of the analyte. For this, experiments were always done to compare the AuNEs with and without surface protection by Quit. The initial studies observed the resistance to AuNEs aggregation in relation to exposure time at room temperature. Following the reasoning, the AuNEs were also exposed to different concentrations of the aggregating agents ethanol (EtOH) and KCl. The analytes that were used as a test molecule for the SERS and also to observe possible changes in the LSPR band were the dyes: crystal violet (CV), rhodamine 6G (R6G) and IR-820, which have positive or negative surface charges; in order to identify some preference in surface adsorption of the analyte. For the SERS spectroscopy studies, measurements were performed varying the concentration of Quit in the presence of the dyes together or separated, besides observing the interference in the order of dye addition in the SERS signal. The Quit proved promising to increase the stability of AuNEs and, therefore, modification experiments, aiming at modulate and control the formation of hot spots, were performed. The SERS effect was used as an analytical tool in which the direct relationship of the SERS signal obtained from the dyes with their concentration in solution was studied. From these results, it was possible to construct adsorption isotherms of the studied dyes, which were adjusted to the Langmuir model.

Quitosana

Proteção superficial

Estabilidade

Nanoesferas de Au

Isoterma de adsorção

Corantes

SERS

Chitosan

Surface protection

Stability

Gold nanospheres

Adsorption isotherm

Dyes

SERS

Preparation of activated kaolin for bleaching rice bran oil and synthetic kaolinites to assess sorption properties of these particles in relation to their morphology / Préparation de kaolins activés pour le blanchiment de l'huile de riz et estimation des propriétés d'adsorption de kaolinites de synthèses en relation avec leur morphologie

Aung, Lei Lei

02 May 2014

Cette étude a fait l'objet de deux parties. L'une porte sur l'effet de différents types d'activation (chimique, thermique, mécanique) de kaolins (géo-matériaux riches en kaolinite) sur leurs propriétés de décoloration vis-à-vis de l'huile de riz. L'autre traite de l'effet de la taille et de la morphologie de kaolinites de synthèse sur leurs propriétés d'adsorption.Cette étude a montré que lorsque le kaolin était chauffé à plus de 100°C avant de subir une activation acide en milieu sulfurique, citrique ou oxalique, la capacité de décoloration vis-à-vis de l'huile de riz était fortement réduite. Cet effet a été directement mis en relation avec la destruction partielle ou totale de la structure de la kaolinite, associée à une forte lixiviation de l'aluminium de l'échantillon et à la précipitation de silice amorphe. Il s'est donc avéré que la préservation des sites aluminols présents sur les surfaces externes des particules de kaolinites semblait être un critère primordial à conserver en vue d'obtenir de bonne capacité de décoloration. Dans ce contexte, les meilleures capacités de décoloration (82% environ) ont été obtenues en utilisant conjointement un traitement thermique modéré (<100°C), un broyage mécanique de l'échantillon avant l'étape d'activation acide, une concentration en acide de l'ordre de 0.3 à 0.5 mol/L et un rapport (argile)/(solution acide) de l'ordre de 1/50. Notons que les plus fortes valeurs de surfaces spécifiques n'ont pas forcément été associées aux échantillons présentant les meilleures capacités de décoloration en raison de la présence de silice amorphe et de la non-préservation des sites aluminols de la kaolinite ; sites responsables de l'adsorption des pigments de molécules de chlorophylle-a.Par ailleurs, aucune étude à notre connaissance ne reliait directement les morphologies de particules de phyllosilicates à leurs propriétés d'adsorption vis-à-vis de deux cations inorganiques. Dans le cas des kaolinites naturelles, une charge permanente souvent significative et attribuable à des impuretés minéralogiques empêche toute tentative de relier directement la forme des particules à un coefficient de sélectivité entre deux cations pour des sites latéraux donnés. Des kaolinites ont donc été synthétisées par voie hydrothermale en considérant différentes conditions physico-chimiques, afin d'obtenir des morphologies variées (hexagones plus ou moins anisotropes). Pour ces échantillons synthétiques pour lesquels aucune impureté minéralogique et charge permanente n'a été détectée, des isothermes expérimentales d'adsorption entre Na+ et H+ ont été mesurées. Ces cations ont été choisis étant donné leur présence ubiquiste dans les eaux naturelles et leur fort pouvoir compétiteur par rapport aux cations traces métalliques. Grâce aux surfaces spécifiques des sites latéraux et des densités de site issues de la cristallographie des différentes faces présentes dans nos échantillons ((010), (110), (1-10)), un coefficient de sélectivité entre Na+ et H+ sur l'ensemble des sites latéraux d'une morphologie donnée a pu être estimé à l'aide d'un modèle de complexation de surface. Les résultats ont montré que le coefficient de sélectivité Na+/H+ dépendait très fortement de la morphologie de la particule, et que par conséquent les propriétés d'adsorption des kaolinites ne pouvaient pas être obtenues avec précision sans une connaissance fine de la morphologie des particules. / The dissertation consists of two main parts; the first part is devoted to the effect of physical/thermal and chemical activation of kaolin on bleaching of rice bran oil. In this study, samples were prepared from natural Ranong kaolin. This study focused on the effects of both thermal treatment (from 100 to 900°C) and chemical activation (sulfuric acid, hydrochloric acid, citric acid and oxalic acid using different acid concentrations or different clay/acid ratio) on the capacity of kaolins to bleach rice bran oil. When kaolin was treated with high temperature (>100°C) prior to reflux and with a high acid concentration during reflux, the kaolinite structure was partially or completely destroyed associated to a dramatic leaching of alumina, and amorphous silica dominated the samples. The measured maximum bleaching capacity obtained was not consistent with the highest specific surface area and pore volume; rather, it depended on the alumina contents in the samples. Thus, the partial preservation of the kaolinite structure is crucial to obtain an appropriate bleaching capacity of kaolin. This is directly related to the preservation of the aluminol sites present at the kaolinite surface. XRF analysis showed that the alumina contents of 28-34% were values to reach in order to obtain optimum bleaching capacities of kaolin, independently of the different acid used. Finally, optimum bleaching of ~83%, ~82% and ~81% were achieved by grinding the kaolin prior to reflux with low acid concentration of hydrochloric acid (0.5 M), sulfuric acid (0.3 M) and citric acid (0.5 M), respectively with clay/acid ratio of 1:50.The second part of the thesis aims to elucidate the influence of morphology of kaolinites on their sorption properties. For that, Na+/H+ sorption isotherms in water saturated conditions of synthetic kaolinites and natural well crystallized kaolinite, called KGa--1b commercialized by the Clay Mineral Society, were performed and interpreted. Kaolinites used in this study were hydrothermally synthesized from partially crystallized kaolinite as a function of different final pH (pHF) ranging from 0.8 to 8.3. Results obtained for KGa--1b were compared with data obtained in literature for this mineral, in order to fully validate this approach. This study found that cation exchange capacity, due to both isomorphic substitutions in the crystals (permanent charge), and silanol and aluminol edge sites were highly variable. Typically, CEC at pH=9 varied from ~0.8 cmolc/kg for well crystallized kaolinite (pHF 0.8) to ~33 cmolc/kg for disordered lath-shaped kaolinite (pHF 8.3). Na+/H+ sorption isotherms were obtained for all synthetic kaolinites as a function of pH ranging from pH 3 to 11. Results showed that sorption of Na+ increases dramatically with pH. Typically for all kaolinite samples except for the one synthesized at pHF=8.3, Na+ sorption is rigorously equal to zero when pH<7, indicating no permanent charge in the samples (in contrast to natural KGa--1b kaolinite), and increases when pH>7 due to sorption on edge sites. The amount of dissolved silica measured during Na+/H+ isotherm is higher for experiments performed with kaolinites synthesized in basic conditions (for pHF 7.4 and pHF 8.3) than for kaolinites synthesized in acid conditions (for pHF 0.8 and pHF 3.3). These latter results lead to conclude that sorption site density can be considered constant when pH is between 4 and 10, independently of the morphologies of particles. In this context, a thermodynamic modeling procedure using a complexation model was applied to interpret the data obtained with hexagonal- and lath-shaped particles. During this procedure, selectivity coefficient between Na+ and H+ cations were obtained considering the total edge site densities calculated from lateral specific surfaces estimated for synthetic kaolinites and crystallography data.

Kaolin

Huile de riz

Décoloration

Kaolinite

Synthèse hydrothermale

Morphologie

Isotherme d'adsorption

Coefficient de sélectivité

Kaolinite

Alumina

Rice bran oil

Bleaching

Morphology

Sorption isotherm

Ph

Selectivity coefficient

553.6

CO2 adsorption from synthesis gas mixtures : understanding selectivity and capacity of new adsorbents / Adsorption de CO2 à partir de gaz de synthèse : compréhension de la sélectivité et capacité des nouveaux adsorbants

Garcia, Edder

22 October 2012

Le développement de nouveaux adsorbants écologiques et efficaces pour la séparation du CO2 nécessite un lien quantitatif entre les propriétés des adsorbants et ses propriétés d'adsorption. Dans ce travail, nous développons une méthodologie qui prend en compte explicitement les propriétés des adsorbants, tels que le diamètre de pore, la densité, la forme de pore et la composition chimique. L'objectif est d'établir des corrélations quantitatives entre les paramètres mentionnés ci-dessus et les forces qui gouvernent la physisorption dans les milieux poreux, c'est à dire les interactions van der Waals et les interactions électrostatiques. Ainsi, les propriétés optimales des adsorbants pour la séparation du CO2 sont identifiées. En parallèle à ces études théoriques, une série d'adsorbants potentiellement intéressants pour la séparation du CO2 par PSA ont été testées expérimentalement. Une étude systématique de l'influence du centre métallique sur les séparations de mélanges CO2/CH4 et CO2/CH4/CO a été réalisée sur MOFs présentant sites coordinativement insaturés. Dans le cas des zéolithes, l'effet de la composition chimie (rapport Si / Al) sur les propriétés de séparation a été étudiés. Les capacités cycliques et des sélectivités ont été déterminées par des expériences de perçage. Les matériaux présentant un bon compromis entre la sélectivité et la capacité de travailler dans les conditions typiques de PSA ont été identifiés. Finalement, une comparaison entre la prédiction du modèle d'adsorption et les expériences a été faite / The design of new environmentally friendly and efficient adsorbents for CO2 separation requires a quantitative link between the adsorbent properties and adsorption capabilities. In this work we develop a methodology, which explicitly takes into account the adsorbent properties, such as the pore diameter, density, pore shape and chemical composition. The objective is to establish quantitative correlations between the above-mentioned parameters and the forces that govern physisorption in porous media, i.e. van der Waals forces and electrostatic interactions. Thus, the optimal properties of the adsorbent for CO2 separation are identified. In parallel to these theoretical studies, a series of potentially interesting adsorbents for CO2 separation by PSA were tested experimentally. A systematic study of the influence of the metal center on the separations of CO2/CH4 and CO2/CH4/CO mixtures was carried out on MOFs presenting coordinatively unsaturated sites. In the case of zeolites, the effect of the framework composition (Si/Al ratio) on the separation properties was studied. The cyclic capacities and selectivities were determined by breakthrough experiments. Materials presenting a good compromise between selectivity and working capacity under typical PSA conditions were identified. Finally, a comparison between the prediction of the adsorption model and the breakthrough experiments is carried out

PSA

Modèle d’adsorption

Adsorbants

CO2

Séparation

Gaz de synthèse

Isothermes

Captage

PSA

Adsorption model

Adsorbents

CO2

Separation

Synthesis gas

Isotherm

Capture

662.93

Caractérisation des matériaux commerciaux et synthétisés destinés à adsorber le méthane et l’oxyde nitreux présents dans des émissions gazeuses et modélisation de l’adsorption / Characterization of commercial and synthesized materials intended to adsorb methane and nitrous oxide present in gaseous emissions and modeling of adsorption

Delgado Cano, Beatriz

05 May 2017

Les activités humaines ont généré une augmentation importante de la concentration de gaz à effet de serre (GES) au cours des 150 dernières années, ce qui est relié à plusieurs problèmes environnementaux, tels que le réchauffement planétaire et les changements climatiques. Le secteur agricole contribue de 8 à 10% aux émissions totales de GES dans l'atmosphère, et les principaux GES émis sont le dioxyde de carbone (CO2), le méthane (CH4) et l'oxyde nitreux (N2O). Le contrôle et la quantification de ces émissions requièrent des technologies qui permettent de les capturer et ou les dégrader, par exemple par adsorption. L'objectif du présent projet est de caractériser des matériaux qui puissent être utilisés comme adsorbants des GES et de décrire leurs cinétiques d'adsorption afin d'avoir l'information qui permet de sélectionner des adsorbants pour capturer le CH4 et le N2O à des basses concentrations et à température et pression ambiantes. Pour adsorber le CH4, des adsorbants commerciaux et synthétiques ont été utilisés. Les adsorbants choisis ont été des zéolithes, un biocharbon conditionné au laboratoire et un ZIF (« Zeolitic imidazolate framework », ZIF-8) synthétisé au laboratoire. Ce dernier a été employé aussi pour adsorber du N2O. La capacité d'adsorption de CH4 et de N2O a été évaluée pour chaque adsorbant par de tests dynamiques d'adsorption du gaz sous conditions ambiantes. Ces matériaux ont été caractérisés physiquement et chimiquement afin de corréler leurs propriétés avec la capacité d'adsorption de CH4 et/ou de N2O. Des isothermes d'équilibre ont été utilises pour modéliser les donnés expérimentales. Parmi les différents matériaux utilisés lors de l'adsorption du CH4 à 30 ºC et à pressions partielles de CH4 inférieures à 0,40 kPa, les biocharbons présentent la capacité d'adsorption la plus élevée, suivis par le ZIF-8 et les zéolithes commerciales / Human activities contributed with a significant increase in GHG concentrations over the past 150 years and they are related to environmental issues, such as global warming and climate change. The agricultural sector contributes 8 to 10% of total GHG emissions to the atmosphere, being carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O) the main GHGs emitted. The control and quantification of these emissions requires technologies which can capture and or degrade these GHG, for example by adsorption. The objective of this project is to characterize adsorbents and to describe their adsorption kinetics in order to select the most suitable for the adsorption of CH4 and N2O at low concentration and at ambient temperature. For CH4 adsorption, commercial and synthesized adsorbents were tested. The selected adsorbents were commercial zeolites, laboratory conditioned biochar and synthesized ZIF ("Zeolitic imidazolate framework"). ZIF was also used for N2O adsorption. The adsorption capacity of CH4 and N2O for each adsorbent was evaluated by dynamic adsorption tests of the gas under atmospheric conditions. These materials were physically and chemically characterized in order to correlate its properties with its CH4 and/or N2O adsorption capacity. The experimental data of gas adsorption were fitted by equilibrium isotherms. Among the different materials used for CH4 adsorption at 30 ºC and partial pressures lower than 0.40 kPa, biocharbons presented the highest adsorption capacity, followed by ZIF- 8 and commercial zeolites

Adsorption

Méthane

Oxyde nitreux

Isothermes d’adsorption

Model

Conditions atmosphériques

Adsorbants

Adsorption

Methane

Nitrous oxide

Adsorption isotherm

Modeling

Atmospheric conditions

Adsorbents

660

Zinc(II) Adsorption by Low-Carbon Shungite: The Effect of pH

Fischer, Axel R., Sgolik, Luisa, Kreller, André, Dornack, Christina

11 June 2018

Shungite is a carbonaceous rock which is abundant in Karelia (Russian Federation). Large deposits of shungite with low levels of carbon (approx. 10% C) are also found in Kazakhstan, where it is mined under the trade name Taurit (Koksu Mining Company). Although Taurit has been reported to be used as an adsorbent for hazardous compounds in water treatment, there is very little precise data about its adsorption capacity or the compounds adsorbed. In this study, the ability of Taurit to adsorb Zn(II) was investigated and Freundlich isotherms were determined for both distilled water and tap water. Taurit was found to have a high buffer capacity leading to pH values > 7.0 in aqueous solution. Because dissolved zinc precipitates as Zn(OH)2 under alkaline conditions, the pH must be carefully controlled and kept ≤7.0. Despite the small inner surface area (BET) of Taurit (13.4 m2 g−1), Freundlich coefficients for distilled water (Kf = 2.4, n = 4.0) and tap water (Kf = 1.5, n = 2.5) were similar to other adsorbents. Our results indicate that Taurit could provide a cheap alternative to activated carbon since both substances have a similar adsorption capacity (at least for Zn(II)).

info:eu-repo/classification/ddc/690

ddc:690

Návrh betonové konstrukce s ohledem na požární odolnost / Design of reinforced concrete structure with respect to fire resistance requirements

Lehoťák, Roman

January 2021

The diploma thesis deals with the analysis of internal forces and the design of the reinforcement of a reinforced concrete monolithic slab, a reinforcing wall and a column in the 1st floor of a dairy hall building. The fire resistance of selected structures was taken into account during dimensioning. The calculation of the internal forces was performed by the finite element method in Dlubal RFEM 5.24.

Sorpční schopnosti huminových kyselin / Sorption ability of humic acids

Pokorná, Markéta

January 2011

The Diploma thesis deals with humic acids and their ability to adsorb metal ions on their surface. Humic acids are aromatic polycyclic compounds which contain carboxylic and fenolic functional groups on their sidechains. Thanks to these functional groups humic acids can form complexes with metal ions of different stability and assist the partial immobilization of pollutants in the nature. In this thesis, the sorption of Pb2+ and Zn2+ ions on humic acids was studied by relatively new electroanalytic method called galvanostatic stripping chronopotentiometry. Experimental data were described by Freundlich and Langmuir isotherms. The results show that the amount of examined metal ions increases with their increasing concentration. Furthermore it was determined that Pb2+ ions are adsorbed better on humic acids than Zn2+ ions. Both metals are adsorbed better from solution containing only one metal ion than in presence of four metals at the same time (Cd, Cu, Zn and Pb) where the sorption of these metals is not influenced by the presence of other metals.

Adsorption of Pharmaceuticals and Endocrine Disrupting Compounds using Unmodified and Surfactant Modified Palygorskite-Montmorillonite Clay Particles in Batch and Fixed Bed Column Modes

Tetteh, Emmanuel

04 December 2018

No description available.

Environmental Science

Environmental Studies

Water Resource Management

Arsenite removal from contaminated water by different sorbent materials / Arsenitavskiljning från förorenade vatten med olika sorbentmaterial

Ding, Kaijie

January 2020

Arsenic (As) contamination is a worldwide problem, and millions of people are suffering from it. There are two major inorganic forms of As in waters: arsenate(V) and arsenite(III), and adsorption to a sorbent material may be an efficient method to handle them. In this study, we focused on As(III), the more toxic form, which predominates under reducing conditions. The As(III) removal properties of four sorbent materials: hydrotalcite, Mg−Al layered double hydroxide, amorphous aluminium hydroxide and amorphous titanium oxide, are examined from the following viewpoints: As(III) adsorption, the effects of pH, the effects of adsorbent concentration, adsorption as a function of dissolved As(III), and the effect of co-existing anions (HCO3− and PO43−). The maximum adsorption of As(III) to HT (0.1 mmol As(III)/g adsorbent), Mg-Al LDH (0.1 mmol As(III)/g adsorbent), am-Al(OH)3 (0.22 mmol As(III)/g adsorbent), and am-TiO2 (0.21 mmol As(III)/g adsorbent) occurred at pH 7.5, 7, 7, 8, respectively. At this pH, approximately 20%, 62%, 35%, and 98.3%, respectively, of the added As(III) was adsorbed. When the As(III) to sorbent ratio was increased, the adsorption was instead around 7% to am-Al(OH)3 (2.2 mmol As(III)/g adsorbent), and 46.3% to am-TiO2 (2.1 mmol As(III)/g adsorbent). These figures show that am-TiO2is the most efficient sorbent for As(III) adsorption of the four materials tested, Mg-Al LDH is second best, while HT and am-Al(OH)3 are not suitable for As(III) removal. The adsorption of As(III) to Mg-Al LDH as a function of dissolved As(III) could be adequately described by a linear equation, suggesting that As(III) adsorption to Mg-Al LDH was governed by anion exchange. As a result, the co-existing anions (HCO3- and PO43-) showed a significant influence on As(III) adsorption to Mg-Al LDH. Considering the interfering effects of co-existing anions on am-TiO2, HCO3− did not influence As(III) adsorption, while PO43- caused a slight but clear competition effect. Overall, am-TiO2 would be the best choice of these four materials in contact with As-contaminated groundwater due to its superior As(III) removal properties and the limited competition from co-existing anions on As(III) adsorption. / Alltför höga halter av arsenik (As) i vatten är ett världsomspännande problem som orsakar hälsoproblem för miljontals människor. Det finns två huvudsakliga oorganiska former av As i vatten: arsenat(V) och arsenit(III), och adsorption till ett material (s.k. ”sorbent”) kan vara eneffektiv metod för att avlägsna dem från vatten. I denna studie fokuserade vi på arsenit(III), den mer giftiga formen, vilken dominerar under reducerande förhållanden. Vi undersökte adsorptionsegenskaperna för arsenit(III) för fyra sorbentmaterial som kan vara tänkbara när det gäller arsenikrening av förorenade vatten: hydrotalkit, s.k. Mg-Al LDH (Mg-Al-skiktad dubbelhydroxid), am-Al(OH)3 (amorf aluminiumhydroxid), och am-TiO2 (amorf titandioxid). Dessa material undersöktes när det gäller följande: adsorption av arsenit(III) som funktion av pH,betydelsen av sorbentkoncentration, adsorption som funktion av löst arsenit(III) (”isoterm”), och konkurrens från samexisterande anjoner (HCO3− och PO43−). Den maximala adsorptionen av As (III) till HT (0,1 mmol As(III)/g sorbent), Mg-Al LDH (0,1 mmol As(III)/g sorbent), am-Al(OH)3 (0,22 mmol As(III)/g sorbent) och am-TiO2(0,21 mmol As(III)/g sorbent) inträffade vid pH 7,5, 7, 7, respektive 8. Vid dessa pH-värden adsorberades ungefär 20%, 62%, 35% respektive 98,3% tillsatt As(III). När kvoten mellan As(III) till sorbent ökades blev adsorptionen istället cirka 7% till am-Al(OH)3 (2,2 mmol As(III)/g sorbent) och 46,3% till am-Ti02(2,1mmol As(III)/g sorbent). Dock var adsorptionsmängden per viktsenhetsorbenthögre över hela pH-området. Dessa siffror visar att am-TiO2 är det mest effektiva av de fyra testade materialen för As(III)-adsorption, Mg-Al LDH det näst bästa, medan HT och am-Al(OH)3 är olämpliga för detta ändamål. Adsorptionen av As(III) till Mg-Al LDH som funktion av löst As(III) kunde beskrivas väl med en linjär ekvation, vilket antyder att adsorptionen av As(III) till Mg-Al LDH styrdes av anjonbyte. I konsekvens med detta hade de samexisterande anjonerna (HCO3- och PO43-) ett betydande inflytande på As(III)-adsorptionen till Mg-Al LDH. För am-TiO2 påverkade HCO3− inte As(III)-adsorptionen, medan PO43- orsakade en liten men tydlig konkurrenseffekt. Sammantaget är am-TiO2 det bästa valet av dessa fyra material i kontakt med As- kontaminerat grundvatten på grund av dess betydligt bättre förmåga att avskilja arsenit(III) och den förhållandevis blygsamma konkurrensen från andra anjoner.

Engineering and Technology

Teknik och teknologier