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Redoks regulacija ćelijskog ciklusa azot oksidom / Redox regulation of cell cycle through nitric-oxideBogdanović Višnja 26 October 2007 (has links)
<p>Balans redoks potencijala u živoj ćeliji predstavlja imperativ održavanja zdravog fenotipa, i u krajnjem, njenog preživljavanja. Nitrozativni stres može ozbiljno narušiti ćelijsku redoks homeostazu i, u kombinaciji sa oksidativnim stresom, uticati na ćelijsku proliferaciju i diferencijaciju, a u nekim slučajevima i na aktivaciju maligne transformacije U ovom radu ispitivani su efekti donora NO natrijum-nitroprusida na dve ćelijske linije u kulturi: transformisane ćelije mišijih fibroblasta (L929) i maligne ćelije humane eritroleukemije (K562). Natrijum- nitroprusid (SNP) je fotoreativan molekul sa veoma kratkim poluživotom koji izaziva koncentraciono - zavisnu proliferaciju ili inhibiciju<br />ćelijskog rasta in vitro.NO izaziva različite efekte u zavisnosti od eksperimentalnog modela, svoje relativne koncentracije kao i okruženja u kojem nastaje. Ispitivanja mogućnosti direktne transformacije azot oksida u redoks aktivne vrste kao što su nitrozonijum katjon (NO<sup>+</sup>) i nitroksil anjon (NO<sup>-</sup>/HNO) i direktni efekti tih redoks potomaka u ćeliji tek su u začetku. U našim eksperimentima, korišćenjem donora NO - natrijum nitroprusida (SNP) i dve vrste superoksid dismutaza, CuZn-SOD i Mn-SOD, stvorili smo uslove generisanja više vrsta signalnih molekula i ispitali odgovor transfomisanih (L929) i malignih (K562) ćelija na njih. Rezultati eksperimenata pokazuju da izabrani parametri (količina slobodnih tiolnih grupa i glutationa) mogu biti relevantni za praćenje efekata egzogenog azot oksida i njegovih redoks potomaka kod različitih, transformisanih i malignih ćelijskih linija.</p> / <p>The redox potential balance in the living cell isthe imperative of continuation of healthy phenotype, and subsequently of its survival. Nitrosative stress may seriously damage cell's redox homeostasis, and in combination with oxidative stress may influence cell proliferation and differentiation, in some cases even activation of malignant transformation. This paper investigates effects of sodium nitroprusside as NO donor on two cell lines in culture: transformed cells of mice fibroblasts (L929) and malignant cells of human eritroleukemia (K562). The sodium nitroprusside(SNP) is a photo reactive molecule with very short half-life, causing concentration- dependant proliferation or inhibition of cell growth in vitro.The NO causes different effects depending on experimental model, its relative concentration and environment where it is formed. Investigations of possibility of direct transformation from nitrogen oxide to redox-active species as nitrosonium cation (NO+) and nitroxyl anion (NO −/HNO), as well as direct effects ofthose redox descendants within the cell are only in beginning. In our experiments,by using sodium nitroprusside (SNP) as NO donor and two kind of superoxide dismutase, CuZn-SOD and Mn-SOD, we created conditions to generate several kinds of signal molecules and investigated reaction of transformed (L929) and malignant (K562) cells tothose. Results of experiments are showing the parameters chosen (amount of free thiol groups and glutathione) may be relevant in measuring the effect of exogenous nitrate oxideand its redox descendants in different, both transformed and malignant cell lines.</p>
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Automatic Control Strategies of Mean Arterial Pressure and Cardiac Output. MIMO controllers, PID, internal model control, adaptive model reference, and neural nets are developed to regulate mean arterial pressure and cardiac output using the drugs sodium Nitroprusside and dopamineEnbiya, Saleh A. January 2013 (has links)
High blood pressure, also called hypertension is one of the most common worldwide diseases afflicting humans and is a major risk factor for stroke, myocardial infarction, vascular disease, and chronic kidney disease. If blood pressure is controlled and oscillations in the hemodynamic variables are reduced, patients experience fewer complications after surgery. In clinical practice, this is usually achieved using manual drug delivery. Given that different patients have different sensitivity and reaction time to drugs, determining manually the right drug infusion rates may be difficult. This is a problem where automatic drug delivery can provide a solution, especially if it is designed to adapt to variations in the patient’s conditions.
This research work presents an investigation into the development of abnormal blood pressure (hypertension) controllers for postoperative patients. Control of the drugs infusion rates is used to simultaneously regulate the hemodynamic variables such as the Mean Arterial Pressure (MAP) and the Cardiac Output (CO) at the desired level. The implementation of optimal control system is very essential to improve the quality of patient care and also to reduce the workload of healthcare staff and costs. Many researchers have conducted studies earlier on modelling and/or control of abnormal blood pressure for postoperative patients. However, there are still many concerns about smooth transition of blood pressure without any side effect.
The blood pressure is classified in two categories: high blood pressure (Hypertension) and low blood pressure (Hypotension). The hypertension often occurred after cardiac surgery, and the hypotension occurred during cardiac surgery. To achieve the optimal control solution for these abnormal blood pressures, many methods are proposed, one of the common methods is infusing the drug related to blood pressure to maintain it at the desired level. There are several kinds of vasodilating drugs such as Sodium Nitroprusside (SNP), Dopamine (DPM), Nitro-glycerine (NTG), and so on, which can be used to treat postoperative patients, also used for hypertensive emergencies to keep the blood pressure at safety level.
A comparative performance of two types of algorithms has been presented in chapter four. These include the Internal Model Control (IMC), and Proportional-Integral-Derivative (PID) controller. The resulting controllers are implemented, tested and verified for three sensitivity patient response. SNP is used for all three patients’ situation in order to reduce the pressure smoothly and maintain it at the desire level. A Genetic Algorithms (GAs) optimization technique has been implemented to optimise the controllers’ parameters. A set of experiments are presented to demonstrate the merits and capabilities of the control algorithms. The simulation results in chapter four have demonstrated that the performance criteria are satisfied with the IMC, and PID controllers. On the other hand, the settling time for the PID control of all three patients’ response is shorter than the settling time with IMC controller.
Using multiple interacting drugs to control both the MAP and CO of patients with different sensitivity to drugs is a challenging task. A Multivariable Model Reference Adaptive Control (MMRAC) algorithm is developed using a two-input, two-output patient model. Because of the difference in patient’s sensitivity to the drug, and in order to cover the wide ranges of patients, Model Reference Adaptive Control (MRAC) has been implemented to obtain the optimal infusion rates of DPM and SNP. This is developed in chapters five and six.
Computer simulations were carried out to investigate the performance of this controller. The results show that the proposed adaptive scheme is robust with respect to disturbances and variations in model parameters, the simulation results have demonstrated that this algorithm cannot cover the wide range of patient’s sensitivity to drugs, due to that shortcoming, a PID controller using a Neural Network that tunes the controller parameters was designed and implemented. The parameters of the PID controller were optimised offline using Matlab genetic algorithm. The proposed Neuro-PID controller has been tested and validated to demonstrate its merits and capabilities compared to the existing approaches to cover wide range of patients. / Libyan Ministry of Higher Education scholarship
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The Effects of Phenylephrine, Sodium Nitroprusside, andHypoxia on the Heart and Blood Vessels in <i>Danio rerio</i>Turner, Dakota January 2016 (has links)
No description available.
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Properties of metastable linkage NO isomers in Na2[Fe(CN)5NO]·2H2O incorporated in mesopores of silica xerogelsTahri, Zakaria, Lepski, Robert, Hsieh, Kuan-Ying, Bendeif, El-Eulmi, Pillet, Sebastien, Durand, Pierrick, Woike, Theo, Schaniel, Dominik 07 April 2014 (has links) (PDF)
We study the properties of photoinduced metal–nitrosyl linkage isomers in sodium nitroprusside (SNP) as a function of particle size. By embedding the molecular complex at various concentrations into mesopores of silica xerogels the size of the particles can be adjusted. The ground state is characterized by X-ray diffraction, absorption and infrared spectroscopy. The physical properties of the photoswitched molecules were analysed by steady-state low-temperature absorption, infrared spectroscopy and by nanosecond transient absorption spectroscopy. The electronic structure as well as the activation energies of the metastable linkage isomers are independent of the particle size down to single isolated molecules, indicating that the SNP complexes are quasi-free inside the pores of the gel. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Avaliação da reatividade microvascular e da rigidez arterial em pacientes com diabetes tipo 1 / Microvascular reactivity and atrial stiffness assessment in tipe 1 diabetesAlessandra Saldanha Matheus Fernandes da Costa 03 March 2010 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A disfunção endotelial tem sido sugerida como evento precoce na patogênese das complicações vasculares do DM1. O presente estudo objetivou avaliar a função endotelial na microcirculação e rigidez arterial no diabetes tipo 1 comparando com controles não diabéticos e correlacionando com variáveis clínicas, demográficas e laboratoriais. Foram avaliados 57 pacientes com diabetes tipo 1 com idade de 32,5 (13-61) anos e duração de doença de 15 (1-48) anos e 53 controles através de fluxometria cutânea por laser-Doppler após iontoforese de Acetilcolina(ACh) (resposta endotélio dependente), hiperemia reativa pós oclusiva(HRPO) e a capacidade máxima de vasodilatação após hiperemia térmica. Já a resposta endotélio independente foi avaliada após iontoforese de Nitroprussiato de sódio (NPS). A rigidez arterial foi mensurada através da análise da onda de pulso digital com os índices de rigidez arterial e de reflexão. Os pacientes diabéticos foram submetidos à avaliação clínica e laboratorial (histórico de tabagismo, dose diária de insulina, duração do diabetes, uso de drogas que alteram a função endotelial como anti-hipertensivos e estatinas, níveis pressóricos, índice de massa corporal, excreção urinária de albumina, perfil lipídico, controle glicêmico e níveis de proteína C-reativa). O fluxo microvascular médio em repouso não foi diferente entre pacientes e controles , assim como a complacência arterial mensurada através do índice de rigidez arterial e do índice de reflexão. A resposta vascular a vasodilatação mediada pela ACh encontrou-se significantemente reduzida nos pacientes (p=0,002). No entanto, apesar da diferença verificada na área abaixo da curva de NPS em relação ao controle, a análise por medidas repetidas não apontou diferença entre os grupos em relação às doses entre os grupos (p=0,15). A vasodilatação cutânea máxima induzida pela hiperemia térmica foi maior entre os controles em comparação com os diabéticos 93,6(24,5-379-,9) e 56,6(31,5-204,5), respectivamente p=0,04. Por outro lado, durante a HRPO, o aumento máximo no fluxo e a área abaixo da resposta hiperêmica não divergiram entre pacientes e controles, embora o tempo para alcançar o fluxo máximo tenha sido maior nos diabéticos do que nos controles(p=0,02). As principais variáveis correlacionadas com a microcirculação foram o ácido úrico, a hemoglobina glicada, a idade e a proteína C reativa, e com a rigidez arterial, foram a duração do Diabetes, a Pressão arterial diastólica e o HDL. Apesar da correlação entre o uso de drogas com propriedades hemorreológicas e a rigidez arterial, a exclusão dos pacientes usuários daqueles medicamentos não alterou os resultados obtidos. Concluímos que, na população de diabéticos tipo 1 estudada, a resposta vascular endotélio dependente, e a capacidade máxima de vasodilatação estão significativamente reduzidas. Não houve diferença entre diabéticos e controles quanto à rigidez arterial. Ademais, a vasodilatação microcirculatória mediada pela Acetilcolina pode ser correlacionada com a rigidez arterial em diabéticos. Estudos posteriores devem ser realizados no intuito de avaliar a influência exercida pelas drogas que alteram a função endotelial sobre a reatividade micro e macrovascular. / Endothelial dysfunction in patients with type 1 diabetes appears to be an early event in the genesis of vascular complications. The purpose of the present study is to assess endothelial function in the microcirculation and arterial stiffness, by comparing with non-diabetic controls, and correlating with clinical, demographic and laboratorial parameters. We evaluated 57 patients with type 1 diabetes aged 32.5 (13-61) years and with a disease duration of 15 (1-48)years, and 53 controls using laser Doppler flowmetry during low-current iontophoresis of acetylcholine (ACh) (endothelium dependent response), post occlusive reactive hyperemia(PORH) and maximum vasodilator function during thermal hyperemia. Endothelium-independent response was measured after iontophoresis of sodium nitroprusside (SNP).The peripheral pressure waveform was analyzed to assess the arterial stiffness. Diabetic patients underwent clinical and laboratory evaluation (smoking, disease duration, daily insulin dose, use of medications that could improve endothelial function such as antihypertensive drugs and statins, blood pressure, body mass index, urinary albumin excretion, lipid profile, glycemic control and C-reactive protein levels-CRP). Mean resting microvascular flux did not differ between control subjects and patients with type 1 diabetes, as well as arterial stiffness assessed through stiffness index and reflection index. Microvascular response to ACh was significantly reduced in patients (p=0,002). However, despite the reduction ofAUC NPS, the analysis with repeated measures disclosed no difference between the groups in relation to the doses (p=0,15). Maximal skin microvascular vasodilation induced by thermal hyperemia was found to be higher in the control group than among patients (93,6(24,5-379-,9) e 56,6(31,5-204,5), respectively p=0,04). On the other hand, during PORH, maximal increase in flux and area under the curve of the hyperemic response did not differ between patients and controls, although the time frame to reach maximum flux and the time to half recovery after hyperemia was longer in patients than in controls (P=0.02) . Uric acid, hba1c, age and CRP were the most important contributing factors to the variation of microvascular reactivity, while disease duration, the diastolic arterial pressure and HDL cholesterol were independently associated to arterial stiffness. Despite the correlation between drugs with hemorheologycal properties and arterial stiffness, the exclusion of patients who were taking such substances did not affect the results. We conclude that in the studied population of type 1 diabetic patients, the endothelium-dependent vascular responses and maximal vasodilator capacity are significantly reduced. In what concerns arterial stiffness, our study disclosed no difference between diabetics and controls. Moreover, Acetylcholine response can be correlated to arterial stiffness in diabetics, and further studies aiming at the evaluation of the micro and macrovascular reactivity should be performed with consumers of drugs which may be likely to affect the endothelial function.
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Avaliação da reatividade microvascular e da rigidez arterial em pacientes com diabetes tipo 1 / Microvascular reactivity and atrial stiffness assessment in tipe 1 diabetesAlessandra Saldanha Matheus Fernandes da Costa 03 March 2010 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A disfunção endotelial tem sido sugerida como evento precoce na patogênese das complicações vasculares do DM1. O presente estudo objetivou avaliar a função endotelial na microcirculação e rigidez arterial no diabetes tipo 1 comparando com controles não diabéticos e correlacionando com variáveis clínicas, demográficas e laboratoriais. Foram avaliados 57 pacientes com diabetes tipo 1 com idade de 32,5 (13-61) anos e duração de doença de 15 (1-48) anos e 53 controles através de fluxometria cutânea por laser-Doppler após iontoforese de Acetilcolina(ACh) (resposta endotélio dependente), hiperemia reativa pós oclusiva(HRPO) e a capacidade máxima de vasodilatação após hiperemia térmica. Já a resposta endotélio independente foi avaliada após iontoforese de Nitroprussiato de sódio (NPS). A rigidez arterial foi mensurada através da análise da onda de pulso digital com os índices de rigidez arterial e de reflexão. Os pacientes diabéticos foram submetidos à avaliação clínica e laboratorial (histórico de tabagismo, dose diária de insulina, duração do diabetes, uso de drogas que alteram a função endotelial como anti-hipertensivos e estatinas, níveis pressóricos, índice de massa corporal, excreção urinária de albumina, perfil lipídico, controle glicêmico e níveis de proteína C-reativa). O fluxo microvascular médio em repouso não foi diferente entre pacientes e controles , assim como a complacência arterial mensurada através do índice de rigidez arterial e do índice de reflexão. A resposta vascular a vasodilatação mediada pela ACh encontrou-se significantemente reduzida nos pacientes (p=0,002). No entanto, apesar da diferença verificada na área abaixo da curva de NPS em relação ao controle, a análise por medidas repetidas não apontou diferença entre os grupos em relação às doses entre os grupos (p=0,15). A vasodilatação cutânea máxima induzida pela hiperemia térmica foi maior entre os controles em comparação com os diabéticos 93,6(24,5-379-,9) e 56,6(31,5-204,5), respectivamente p=0,04. Por outro lado, durante a HRPO, o aumento máximo no fluxo e a área abaixo da resposta hiperêmica não divergiram entre pacientes e controles, embora o tempo para alcançar o fluxo máximo tenha sido maior nos diabéticos do que nos controles(p=0,02). As principais variáveis correlacionadas com a microcirculação foram o ácido úrico, a hemoglobina glicada, a idade e a proteína C reativa, e com a rigidez arterial, foram a duração do Diabetes, a Pressão arterial diastólica e o HDL. Apesar da correlação entre o uso de drogas com propriedades hemorreológicas e a rigidez arterial, a exclusão dos pacientes usuários daqueles medicamentos não alterou os resultados obtidos. Concluímos que, na população de diabéticos tipo 1 estudada, a resposta vascular endotélio dependente, e a capacidade máxima de vasodilatação estão significativamente reduzidas. Não houve diferença entre diabéticos e controles quanto à rigidez arterial. Ademais, a vasodilatação microcirculatória mediada pela Acetilcolina pode ser correlacionada com a rigidez arterial em diabéticos. Estudos posteriores devem ser realizados no intuito de avaliar a influência exercida pelas drogas que alteram a função endotelial sobre a reatividade micro e macrovascular. / Endothelial dysfunction in patients with type 1 diabetes appears to be an early event in the genesis of vascular complications. The purpose of the present study is to assess endothelial function in the microcirculation and arterial stiffness, by comparing with non-diabetic controls, and correlating with clinical, demographic and laboratorial parameters. We evaluated 57 patients with type 1 diabetes aged 32.5 (13-61) years and with a disease duration of 15 (1-48)years, and 53 controls using laser Doppler flowmetry during low-current iontophoresis of acetylcholine (ACh) (endothelium dependent response), post occlusive reactive hyperemia(PORH) and maximum vasodilator function during thermal hyperemia. Endothelium-independent response was measured after iontophoresis of sodium nitroprusside (SNP).The peripheral pressure waveform was analyzed to assess the arterial stiffness. Diabetic patients underwent clinical and laboratory evaluation (smoking, disease duration, daily insulin dose, use of medications that could improve endothelial function such as antihypertensive drugs and statins, blood pressure, body mass index, urinary albumin excretion, lipid profile, glycemic control and C-reactive protein levels-CRP). Mean resting microvascular flux did not differ between control subjects and patients with type 1 diabetes, as well as arterial stiffness assessed through stiffness index and reflection index. Microvascular response to ACh was significantly reduced in patients (p=0,002). However, despite the reduction ofAUC NPS, the analysis with repeated measures disclosed no difference between the groups in relation to the doses (p=0,15). Maximal skin microvascular vasodilation induced by thermal hyperemia was found to be higher in the control group than among patients (93,6(24,5-379-,9) e 56,6(31,5-204,5), respectively p=0,04). On the other hand, during PORH, maximal increase in flux and area under the curve of the hyperemic response did not differ between patients and controls, although the time frame to reach maximum flux and the time to half recovery after hyperemia was longer in patients than in controls (P=0.02) . Uric acid, hba1c, age and CRP were the most important contributing factors to the variation of microvascular reactivity, while disease duration, the diastolic arterial pressure and HDL cholesterol were independently associated to arterial stiffness. Despite the correlation between drugs with hemorheologycal properties and arterial stiffness, the exclusion of patients who were taking such substances did not affect the results. We conclude that in the studied population of type 1 diabetic patients, the endothelium-dependent vascular responses and maximal vasodilator capacity are significantly reduced. In what concerns arterial stiffness, our study disclosed no difference between diabetics and controls. Moreover, Acetylcholine response can be correlated to arterial stiffness in diabetics, and further studies aiming at the evaluation of the micro and macrovascular reactivity should be performed with consumers of drugs which may be likely to affect the endothelial function.
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Properties of metastable linkage NO isomers in Na2[Fe(CN)5NO]·2H2O incorporated in mesopores of silica xerogelsTahri, Zakaria, Lepski, Robert, Hsieh, Kuan-Ying, Bendeif, El-Eulmi, Pillet, Sebastien, Durand, Pierrick, Woike, Theo, Schaniel, Dominik January 2012 (has links)
We study the properties of photoinduced metal–nitrosyl linkage isomers in sodium nitroprusside (SNP) as a function of particle size. By embedding the molecular complex at various concentrations into mesopores of silica xerogels the size of the particles can be adjusted. The ground state is characterized by X-ray diffraction, absorption and infrared spectroscopy. The physical properties of the photoswitched molecules were analysed by steady-state low-temperature absorption, infrared spectroscopy and by nanosecond transient absorption spectroscopy. The electronic structure as well as the activation energies of the metastable linkage isomers are independent of the particle size down to single isolated molecules, indicating that the SNP complexes are quasi-free inside the pores of the gel. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Revalorización de lodos resultantes del pasivado de aluminio por oxidación anódica mediante su utilización en la síntesis de zeolitas NaP1 y LTAPeñafiel Villarreal, Fausto 10 June 2022 (has links)
[ES] La normativa ambiental potencia la revalorización de los residuos industriales y motiva su utilización como materias primas para la obtención de nuevos materiales útiles, en lugar de que dichos residuos sean depositados en rellenos, que a la postre pueden generar pasivos ambientales. Dentro de este contexto se planificó la síntesis de la zeolita NaP1 código GIS, de amplia utilización en el campo ambiental para la descontaminación de aguas residuales, particularmente polutas con metales pesados y, la síntesis de la zeolita A código LTA, con aplicaciones en la industria de detergentes en reemplazo de los fosfatos, causantes de acelerar la eutrofización del agua de lagos; esto utilizando como materia prima los residuos industriales provenientes de los procesos y operaciones unitarias del pasivado del aluminio por oxidación electrolítica anódica.
La presente investigación se enfoca en la recuperación indirecta del aluminio presente en los residuos industriales de anodizado de aluminio, transfiriéndolo a la estructura cristalina de las zeolitas. El residuo contiene elevadas concentraciones de aluminio, tal como lo prueban los resultados obtenidos mediante microscopía electrónica de barrido SEM (38.9% - 40.42%) y por espectroscopia de absorción atómica con llama AAS (37.16 g/100g); pero es pobre en contenido de silicio (0.93% - 0.74%) determinado por SEM y 1.83 g/100g determinado por AAS. Además, el residuo de anodizado de aluminio contiene concentraciones menores de cationes alcalinos y alcalinotérreos. El contenido de humedad del lodo es de 69.84% (n=28) y su pH cae en el rango 7.7 a 8.3 (1:5 w/v), que lo hace ligeramente alcalino. Se observó que la relación molar Si/Al es significativamente menor que la unidad, de lo cual se infiere que los residuos industriales tal como salen de la planta de tratamiento, no se pueden utilizar para la síntesis de zeolitas.
La caracterización de los residuos industriales deshidratados a 100°C por 4 y 24 horas mediante microscopia electrónica de barrido (SEM) y difracción de rayos-X muestran un material básicamente amorfo, sin morfología externa apreciable.
La composición fisicoquímica en términos del contenido de aluminio en los lodos de anodizado, permite plantear la recuperación del aluminio y cationes a través de la síntesis de zeolitas, utilizando como materia prima el residuo industrial, enriquecido con silicio proveniente de fuentes externas. Así para sintetizar la zeolita NaP1, código GIS, se enriqueció el lodo de anodizado con silicio proveniente de una solución de silicato de sodio grado analítico. Con la finalidad de identificar la concentración a la que se tiene los mejores resultados, se utilizó como agente de mineralización soluciones de NaOH en concentraciones 0.5M; 1.0M; 1.5M; 2.0M; 2.5M y 3.0M. Se instrumentó el método hidrotermal de síntesis a una temperatura constante de 100°C y 48 horas de tiempo de reacción, utilizando los residuos industriales húmedos.
Los materiales obtenidos a las diferentes condiciones de síntesis se han caracterizado mediante difracción de rayos-X y SEM. Así, las concentraciones 1.5M, 2.0M, 2.5M y 3.0M del agente de mineralización NaOH conducen a la síntesis de la zeolita NaP1 código GIS. Sin embargo, el producto obtenido utilizando como agente de mineralización NaOH 1.5M presenta cristales con morfología externa muy bien definida, en forma de esferas de tamaño homogéneo. Este material presenta una relación molar Si/Al de 2.44 y una fórmula teórica 0.98Na2O•Al2O3•4.88SiO2•yH2O. Los materiales obtenidos con concentraciones más altas del agente de mineralización, aun presentando un difractograma de rayos-X correspondiente a la zeolita NaP1, en el microscopio electrónico muestran cristales poco formados y de tamaños muy diferentes. De esto se infiere que el agente de mineralización NaOH 1.5M presenta los mejores resultados en términos de morfología.
Utilizando como fuente de enriquecimiento de silicio el silicato de sodio comercial, se sintetizó la zeoli / [CA]
La normativa ambiental potència la revaloració dels residus industrials i motiva la seua utilització com a matèries primeres per a l'obtenció de nous materials útils, en lloc que aquests residus siguen depositats en farciments, que fet i fet poden generar passius ambientals. Dins d'aquest context es va planificar la síntesi de la zeolita NaP1 codi GIS, d'àmplia utilització en el camp ambiental per a la descontaminació d'aigües residuals, particularment contaminades amb metalls pesants i, la síntesi de la zeolita A codi LTA, amb aplicacions en la indústria de detergents en reemplaçament dels fosfats, causants d'accelerar l'eutrofització de l'aigua de llacs; això utilitzant com a matèria primera els residus industrials provinents dels processos i operacions unitàries del passivat de l'alumini per oxidació electrolítica anòdica.
La present investigació s'enfoca en la recuperació indirecta de l'alumini present en els residus industrials d'anoditzat d'alumini, transferint-ho a l'estructura cristal·lina de les zeolites. El residu conté elevades concentracions d'alumini, tal com ho proven els resultats obtinguts mitjançant microscòpia electrònica d'escombratge SEM (38.9% - 40.42%) i per espectroscòpia d'absorció atòmica amb flama AAS (37.16 g/100g); però és pobre en contingut de silici (0.93% - 0.74%) determinat per SEM i 1.83 g/*100g determinat per AAS. A més, el residu d'anoditzat d'alumini conté concentracions menors de cations alcalins i alcalinoterris. El contingut d'humitat del llot és de 69.84% (n=28) i el seu pH cau en el rang 7.7 a 8.3 (1:5 w/v), que ho fa lleugerament alcalí. Es va observar que la relació molar Si/A l'és significativament menor que la unitat, de la qual cosa s'infereix que els residus industrials tal com ixen de la planta de tractament, no es poden utilitzar per a la síntesi de zeolites.
La caracterització dels residus industrials deshidratats a 100 °C per 4 i 24 hores mitjançant microscòpia electrònica d'escombratge (SEM) i difracció de raigs-X mostren un materials bàsicament amorfs, sense morfologia externa apreciable.
La composició fisicoquímica en termes del contingut d'alumini en els llots d'anoditzat, permet plantejar la recuperació de l'alumini i cations a través de la síntesi de zeolites, utilitzant com a matèria primera el residu industrial, enriquit amb silici provinent de fonts externes. Així per a sintetitzar la zeolita NaP1, codi GIS, es va enriquir el llot d'anoditzat amb silici provinent d'una solució de silicat de sodi grau analític. Amb la finalitat d'identificar la concentració a la qual es té els millors resultats, es va utilitzar com a agent de mineralització soluciones de NaOH en concentracions 0.5M; 1.0M; 1.5M; 2.0M; 2.5M i 3.0M. Es va instrumentar el mètode hidrotermal de síntesi a una temperatura constant de 100 °C i 48 hores de temps de reacció, utilitzant els residus industrials humits.
Els materials obtinguts a les diferents condicions de síntesis s'han caracteritzat mitjançant difracció de raigs-X i SEM. Així, les concentracions 1.5M, 2.0M, 2.5M i 3.0M de l'agent de mineralització NaOH condueixen a la síntesi de la zeolita NaP1 codi GIS. No obstant això, el producte obtingut utilitzant com a agent de mineralització NaOH 1.5M presenta cristalls amb morfologia externa molt ben definida, en forma d'esferes de grandària homogènia. Aquest material presenta una relació molar Si/Al de 2.44 i una fórmula teòrica 0.98Na2O•Al2O3•4.88SiO2•yH2O. Els materials obtinguts amb concentracions més altes de l'agent de mineralització, encara presentant un difractograma de raigs-X corresponent a la zeolita NaP1, en el microscopi electrònic mostren cristalls poc formats i de grandàries molt diferents. D'això s'infereix que l'agent de mineralització NaOH 1.5M presenta els millors resultats en termes de morfologia.
Utilitzant com a font d'enriquiment de silici el silicat de sodi comercial, es va sintetitzar la zeolita Linde Tipus A, Codi estructural HISSA (Associació International de zeolite / [EN] Environmental regulations promote the revaluation of industrial waste and encourage its use as raw materials to obtain new valuable materials, instead of such waste being deposited in landfills, which can ultimately generate environmental liabilities. Within this context, the synthesis of the GIS code NaP1 zeolite, widely used in the environmental field for the decontamination of wastewater, particularly polluted with heavy metals, and the synthesis of the LTA code zeolite A, with applications in industry. detergents to replace phosphates, which cause the eutrophication of lake water to accelerate, were planned using as raw material the industrial residues from the processes and unitary operations of aluminum passivation by anodic electrolytic oxidation.
This research focuses on the indirect recovery of aluminum present in industrial waste from aluminum anodizing, transferring it to the crystalline structure of zeolites. The residue contains high concentrations of aluminum, as proven by the results obtained by scanning electron microscopy SEM (38.9% - 40.42%) and by atomic absorption spectroscopy with AAS flame (37.16 g/100g); but it is poor in silicon content (0.93% - 0.74%) determined by SEM and 1.83 g/100g determined by AAS. In addition, the aluminum anodizing residue contains lower concentrations of alkali and alkaline earth cations. The moisture content of the mud is 69.84% (n=28) and its pH falls in the range of 7.7 to 8.3 (1:5 w/v), which makes it slightly alkaline. It was observed that the Si/Al molar ratio is significantly less than unity, from which it is inferred that industrial waste as it leaves the treatment plant has to be modified to be used for the synthesis of zeolites.
SEM and X-ray diffraction characterization of the aluminum-containing industrial waste dehydrated at 100°C for 4 and 24 hours show basically amorphous materials without appreciable external morphology.
The physicochemical composition in terms of the aluminum content in the anodizing sludge allows us to propose the recovery of aluminum through the synthesis of zeolites, using industrial waste as raw material, and enriching it with silicon from external sources. Thus, to synthesize the zeolite NaP1, code GIS, the anodizing sludge was enriched with silicon from an analytical grade sodium silicate solution. To identify the concentration at which the best results are obtained, NaOH solutions at 0.5M concentrations were used as mineralization agents; 1.0M; 1.5M; 2.0M; 2.5M and 3.0M. The hydrothermal synthesis method was implemented at a constant temperature of 100°C and 48 hours of reaction time, using wet industrial waste.
The materials obtained at the different synthesis conditions were characterized by X-ray diffraction and SEM. Thus, concentrations of 1.5M, 2.0M, 2.5M, and 3.0M of the mineralizing agent NaOH lead to the synthesis of the zeolite NaP1 code GIS. However, the product obtained using 1.5M NaOH as the mineralization agent presents crystals with a very well-defined external morphology in the form of spheres of homogeneous size. This material has a Si/Al molar ratio of 2.44 and a theoretical formula of 0.98Na2O•Al2O3•4.88SiO2•yH2O. The materials obtained with higher concentrations of the mineralization agent, even presenting an X-ray diffractogram corresponding to zeolite NaP1, show poorly formed crystals of very different sizes. From this, it is inferred that the 1.5M NaOH mineralization agent presents the best results in terms of morphology.
Using commercial sodium silicate as the source of silicon enrichment, the Linde Type A zeolite, structural code IZA (International Zeolite Association) LTA, was synthesized. This product is obtained with a weight ratio of wet industrial residue to commercial sodium silicate of 2.6 to 1, using 1.5M NaOH as a mineralization agent at 85°C and a reaction time of 4 hours, resulting in a zeolite A code LTA with Si/Al molar ratio, 1.04 (sample 1A) and Si/Al 1.05 (sample 2A). Taking into account the r / Peñafiel Villarreal, F. (2022). Revalorización de lodos resultantes del pasivado de aluminio por oxidación anódica mediante su utilización en la síntesis de zeolitas NaP1 y LTA [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/183230
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