Produção de sulfato ferroso a partir de rejeitos de carvão

Vigânico, Eunice Maria

January 2009

A mineração de carvão gera grandes volumes de rejeitos que podem ser responsáveis por graves danos ambientais. A oxidação da pirita (FeS2), na presença de ar e água, promove a formação da drenagem ácida de mina (DAM), uma solução aquosa fortemente ácida e rica em sulfato e ferro (nas formas Fe²+ e Fe³+), além de outros metais associados. Atualmente, poucos estudos têm considerado a possibilidade da produção de materiais de valor econômico agregado a partir da água de percolação em rejeitos de carvão. Neste trabalho, o objetivo foi o desenvolvimento de uma rota hidrometalúrgica para a produção de sulfato ferroso (FeSO4). O trabalho experimental consistiu inicialmente na coleta de amostra de rejeitos de carvão rico em pirita e a sua caracterização. Realizou-se, em laboratório, a lixiviação do material em colunas de percolação em ambiente oxidante, adequado para proporcionar a oxidação da pirita em meio aquoso. A recirculação da lixívia permitiu a obtenção de um extrato rico em ferro. A seguir, procedeu-se a conversão do Fe³+ em Fe²+ para obtenção do sulfato ferroso, utilizandose radiação ultravioleta. O lixiviado, rico em Fe+², foi evaporado para cristalização do sulfato ferroso e purificado com álcool etílico. Os cristais foram caracterizados por análise química elementar, difração de raios X e microscopia eletrônica de varredura. A recuperação de Fe na forma melanterita (FeSO4.7H2O) em relação ao Fe pirítico existente na coluna (0,30 kg de Fe pirítico por kg de rejeito de carvão) variou de 7,5 a 9,0 %. Os resultados demonstraram que é possível produzir sulfato ferroso n-hidratado tendo como matéria-prima o rejeito rico em pirita resultante da mineração de carvão mineral. / The coal mining generates large volumes of tailings that may be responsible for serious environmental damages. The oxidation of pyrite (FeS2), in the presence of air and water, promotes the formation of acid mine drainage (AMD), an aqueous and highly acid solution rich in sulfate and iron (in the form Fe³+ and Fe²+), along with other associated metals. Currently, few studies have considered the possibility of production of materials with agregated economic value from the percolation of water in coal mining tailings. In this study, the objective was the development of a hydrometallurgical route for its production. The experimental work consisted initially in the collection of samples of coal waste rich in pyrite and its characterization. In the laboratory was performed the leaching of the material in percolation collums in an oxidizing environment, appropriate to provide the pyrite oxidation in aqueous medium. The recirculation of liquor allowed to obtain an extract rich in the iron. Then, the conversion of Fe³+ to Fe²+ for obtaining ferrous sulfate was performed using ultraviolet irradiation. The leached liquor, rich in Fe+², was evaporated for ferrous sulphate crystallization and purified with ethanol. The ferrous sulphate crystals were characterized by x ray diffraction and scanning electron microscopy. The recovery of Fe in the form melanterite (FeSO4.7H2O ) on pyrite Fe existing in the column (0,30 kg of Fe per kg of pyrite tailings and coal) ranged from 7,5 to 9,0 %. The results demonstrated that it is possible to produce nhydrated iron sulfate having as a raw material the waste rich in pyrite produced from the coal mining.

Drenagem ácida de minas

Pirita

Carvão

Sulfato ferroso

Pyrite

Acid mine drainage

Ferrous sulphate

Úloha síranu železnatého jako regulátoru tuhnutí a redukčního činidla portlandského slínku / The Role of Ferrous Sulphate as a Setting Regulator and a Portland Clinker Reduction Agent

Mončeková, Miroslava

January 2016

In 2003, the European Community Obligation (directive 2003/5C/EC) regulates a maximal value of soluble hexavalent chromium to 0.0002 % (per weight of dry cement). This limitation leads to modifications of the regular Portland cement by using of suitable reduction agents. Therefore, the possibilities of chromium reduction become a very actual topic. The primary goal of this work is a basic research of the ferrous sulphate influence on hexavalent chromium reduction and also its influence on Portland clinker hydration process. The reduction ability was determined by UV/VIS method. The mechanism and ferrous sulphate influence on Portland clinker hydration process was observed by isothermal calorimetry and mechanical strength tests. XRD method, SEM-EDS analysis and Raman microscopy were used for identification of formed hydration products. Study of hydration mechanism occurring in this system was focused on the divergence observations from the regular Portland cement hydration. Pore solution analysis provided significant information about chromium behavior during the hydration process (substitution and releasing). Chromium incorporation into structure of hydration products during the reduction process was also studied in the pure tricalciumaluminate system with targeted Cr6+ content. This work suggests the possible substitution of the trivalent and hexavalent chromium into structure of monosulphate (AFm) phase.

Papel do ferro na infecção experimental por Toxoplasma gondii / Role of iron in experimental infection with Toxoplasma gondii

Oliveira, Mário Cézar

28 February 2018

CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico / FAPEMIG - Fundação de Amparo a Pesquisa do Estado de Minas Gerais / Muitos microorganismos desenvolveram a habilidade de adquirir ferro a partir do seu hospedeiro para seu próprio metabolismo. Toxoplasma gondii, um parasito intracelular obrigatório, produz proteinas de roptrias que são capazes de ligar ao transportador de ferro. Além disso, quelante de ferro foi capaz de controlar o parasitismo em células intestinais de rato. Logo, este trabalho teve como objetivo investigar a relação do efeito da adição ou privação de ferro na multiplicação de T. gondii e resultado da infecção quando o parasito é administrado por via oral e em cultura celular. Camundongos C57BL/6 foram infectados oralmente com T. gondii e tratados com um quelante de ferro, deferoxamina ou suplementados com ferro e o parasitismo, parâmetros imunológicos e histológicos foram analisados. Observou-se que a infecção aumentou a deposição de ferro no intestino delgado, pulmão e fígado e também sistematicamente. O tratamento com deferoxamina foi capaz de diminuir os níveis de ferro nas amostras de soro. O tratamento com deferoxamina diminuiu a carga parasitária no intestino delgado e alterações inflamatórias no órgão, preservando seu comprimento e também diminuiu o parasitismo pulmonar. Além disso, a suplementação com ferro aumentou a carga parasitária no intestino delgado, pulmão e fígado, associado com alterações inflamatórias nesses órgãos, bem como houve aumento da proliferação parasitária em cultivo celular com células Caco-2. A infecção oral modulou o perfil de expressão de marcadores de absorção de ferro, aumentando os níveis de IL-6 sistêmicos. Juntos, nossos resultados sugerem que a quelação de ferro comumente usada para tratar a sobrecarga de ferro pode ser um medicamento promissor para controlar a proliferação de T. gondii e consequentemente a inflamação causada por infecção e que o ferro é um nutriente essencial para o metabolismo de T. gondii. / Many microorganisms have developed the ability to acquire iron from their host to their own metabolism. Toxoplasma gondii, an obligate intracellular parasite, produces rhoptry proteins that are capable of binding to the iron transporter. In addition, iron chelator was able to control parasitism in rat intestinal cells. Therefore, the objective of this work was to investigate the relationship of the effect of iron addition or deprivation on the multiplication of T. gondii and the result of infection when the parasite is administered orally and in cell culture. C57BL/6 mice were orally infected with T. gondii and treated with an iron chelator, deferoxamine or iron supplemented and parasitism, immunological and histological parameters were analyzed. It was observed that the infection increased the deposition of iron in the small intestine, lung and liver and also systematically. Treatment with deferoxamine was able to decrease iron levels in the serum samples. Treatment with deferoxamine reduced parasite burden in the small intestine and inflammatory changes in the organ, preserving its length and also decreased pulmonary parasitism. In addition, iron supplementation increased parasite burden in the small intestine, lung and liver, associated with inflammatory changes in these organs, as well as increased parasite proliferation in cell culture with Caco-2 cells. Oral infection modulated the expression profile of iron absorption markers, increasing systemic IL-6 levels. Together, our results suggest that iron chelation commonly used to treat iron overload may be a promising drug to control T. gondii proliferation and consequently inflammation caused by infection and that iron is an essential nutrient for the metabolism of T. gondii. / Tese (Doutorado)

Toxoplasma gondii

Toxoplasma gondii

ferro

iron

deferoxamina

deferoxamine

sulfato ferroso

ferrous sulphate

intestino delgado

small intestine

Influence of acid hydrogen peroxide treatment on refining energy and TMP properties

Walter, Karin

January 2009

<p>The potential of using acid hydrogen peroxide under Fenton conditions to lower the electrical energy consumed during the production of Black spruce (Picea mariana) thermomechanical pulp (TMP) was investigated. The chemical system, which consisted of ferrous sulphate, hydrogen peroxide and optionally an enhancer (3,4-dimethoxybenzyl alcohol, ethylenediaminetetraacetic acid or oxalic acid/sodium oxalate), was evaluated as an inter-stage treatment where the primary refiner was used as a mixer. The produced TMPs were thoroughly characterised in order to explain the effect of the chemical system on fibre development and to be able to propose a mechanism for the impact on refining energy reduction. The possibility to improve the optical properties by washing, chelating and sodium dithionite or hydrogen peroxide bleaching the treated pulps was evaluated.</p><p> </p><p>The results obtained in a pilot plant trial show that it is possible to significantly reduce the comparative specific energy consumption by approximately 20% and 35% at a freeness value of 100 ml CSF or a tensile index of 45 Nm/g by using 1% and 2% hydrogen peroxide respectively. The energy reduction is obtained without any substantial change in the fractional composition of the pulp, though tear strength is slightly reduced, as are brightness and pulp yield. No major differences between the reference pulp and the chemically treated pulps were found with respect to fibre length, width or cross-sectional dimensions. However, the acid hydrogen peroxide-treated pulps tend to have more collapsed fibres, higher flexibility, a larger specific surface area and a lower coarseness value. The yield loss accompanying the treatment is mainly a consequence of degraded hemicelluloses. It was also found that the total charge of the chemically treated pulps is higher compared to the reference pulps, something that may have influenced the softening behaviour of the fibre wall.</p><p> </p><p>A washing or chelating procedure can reduce the metal ion content of the chemically treated TMPs considerably. The amount of iron can be further reduced to a level similar to that of untreated pulps by performing a reducing agent-assisted chelating stage (QY) with dithionite. The discoloration cannot, however, be completely eliminated. The brightness decrease of the treated pulps is thus not only caused by higher iron content in the pulp, but is also dependent on the type of iron compound and/or other coloured compounds connected with the acid hydrogen peroxide treatment. Oxidative bleaching with hydrogen peroxide (P) is more effective than reductive bleaching with sodium dithionite in regaining the brightness lost during the energy reductive treatment. Using a QY P sequence, a hydrogen peroxide charge of 3.8% was needed to reach an ISO brightness of 75% for the chemically treated pulps. The corresponding hydrogen peroxide charge for the untreated TMP reference was 2.5%.</p><p> </p><p>The radicals generated in the Fenton reaction will probably attack and weaken/soften the available outer fibre wall layers. This could facilitate fibre development and consequently lower the electrical energy demand for a certain degree of refinement.</p>

TMP

Black Spruce

Energy reduction

Hydrogen peroxide

Ferrous sulphate

Refining

Inter-stage treatment

Pulp and paper properties

Fenton´s reagent

Bleaching

Sodium dithionite

Brightness

Metals

Fibre dimensions

Cross-sectional dimensions

Chemical composition

Cellulose and paper engineering

Cellulosa- och pappersteknik

Influence of acid hydrogen peroxide treatment on refining energy and TMP properties

Walter, Karin

January 2009

The potential of using acid hydrogen peroxide under Fenton conditions to lower the electrical energy consumed during the production of Black spruce (Picea mariana) thermomechanical pulp (TMP) was investigated. The chemical system, which consisted of ferrous sulphate, hydrogen peroxide and optionally an enhancer (3,4-dimethoxybenzyl alcohol, ethylenediaminetetraacetic acid or oxalic acid/sodium oxalate), was evaluated as an inter-stage treatment where the primary refiner was used as a mixer. The produced TMPs were thoroughly characterised in order to explain the effect of the chemical system on fibre development and to be able to propose a mechanism for the impact on refining energy reduction. The possibility to improve the optical properties by washing, chelating and sodium dithionite or hydrogen peroxide bleaching the treated pulps was evaluated.   The results obtained in a pilot plant trial show that it is possible to significantly reduce the comparative specific energy consumption by approximately 20% and 35% at a freeness value of 100 ml CSF or a tensile index of 45 Nm/g by using 1% and 2% hydrogen peroxide respectively. The energy reduction is obtained without any substantial change in the fractional composition of the pulp, though tear strength is slightly reduced, as are brightness and pulp yield. No major differences between the reference pulp and the chemically treated pulps were found with respect to fibre length, width or cross-sectional dimensions. However, the acid hydrogen peroxide-treated pulps tend to have more collapsed fibres, higher flexibility, a larger specific surface area and a lower coarseness value. The yield loss accompanying the treatment is mainly a consequence of degraded hemicelluloses. It was also found that the total charge of the chemically treated pulps is higher compared to the reference pulps, something that may have influenced the softening behaviour of the fibre wall.   A washing or chelating procedure can reduce the metal ion content of the chemically treated TMPs considerably. The amount of iron can be further reduced to a level similar to that of untreated pulps by performing a reducing agent-assisted chelating stage (QY) with dithionite. The discoloration cannot, however, be completely eliminated. The brightness decrease of the treated pulps is thus not only caused by higher iron content in the pulp, but is also dependent on the type of iron compound and/or other coloured compounds connected with the acid hydrogen peroxide treatment. Oxidative bleaching with hydrogen peroxide (P) is more effective than reductive bleaching with sodium dithionite in regaining the brightness lost during the energy reductive treatment. Using a QY P sequence, a hydrogen peroxide charge of 3.8% was needed to reach an ISO brightness of 75% for the chemically treated pulps. The corresponding hydrogen peroxide charge for the untreated TMP reference was 2.5%.   The radicals generated in the Fenton reaction will probably attack and weaken/soften the available outer fibre wall layers. This could facilitate fibre development and consequently lower the electrical energy demand for a certain degree of refinement.

TMP

Black Spruce

Energy reduction

Hydrogen peroxide

Ferrous sulphate

Refining

Inter-stage treatment

Pulp and paper properties

Fenton´s reagent

Bleaching

Sodium dithionite

Brightness

Metals

Fibre dimensions

Cross-sectional dimensions

Chemical composition

Cellulose and paper engineering

Cellulosa- och pappersteknik