Your search keyword '"Sabine Neusatz Guilhen"' showing total 14 results

1. Metodologia de Sistemas Flexíveis como uma abordagem para a gestão de segurança de instalações nucleares: um estudo de caso

Author

Sabine Neusatz Guilhen, Iara Maria Carneiro De Camargo Bignardi, Ademar José Potiens Jr., Júlio Takehiro Marumo, Teresinha de Moraes da Silva, Gerson Antonio Rubin, and Antonio Souza Vieira Neto

Subjects

Problemas Sociotécnicos de Segurança, Pensamento Sistêmico, Problemas Complexos, Gestão de Segurança Nuclear, Science

Abstract

Este manuscrito apresenta um relato da aplicação da Metodologia de Sistemas Suaves (MSF) pelo Grupo de Análise de Segurança de Sistemas Sociotécnicos (GASSST) em um problema complexo de segurança no Instituto de Pesquisas Energéticas e Nucleares de São Paulo, Brasil (IPEN-CNEN/SP). Baseando-se tanto em fundamentos teóricos, com base na documentação produzida por Peter Checkland e outros pesquisadores, quanto em experiências práticas, o estudo explora a abordagem da MSF para enfrentar desafios que envolvem fatores técnicos e humanos. Os principais resultados incluem a identificação das perspectivas dos principais interessados, o desenvolvimento de uma Figura Rica para capturar a complexidade do problema e a discussão de soluções potenciais. No entanto, a aplicação completa da SSM foi prejudicada devido às intervenções proativas da equipe da instalação, que resolveu o problema inicial antes que todas as etapas da SSM pudessem ser concluídas. O processo foi posteriormente interrompido por uma pausa induzida pela pandemia do SARS-CoV-2, durante a qual a equipe da instalação esteve ausente por 1 ano e 10 meses. O estudo conclui que a aplicação oportuna da SSM e a expertise dos facilitadores são críticas para a navegação eficaz de questões complexas de segurança. Destaca ainda a necessidade de profissionais experientes e uma aplicação mais rápida da SSM para aproveitar plenamente seu potencial na resolução de desafios organizacionais. As reflexões e experiências documentadas pelo GASSST contribuem com insights valiosos para aplicação prática da MSF em contextos semelhantes.

Published

2024

2. Biosorption of methylene blue by bone meal: experimental and modeling with machine learning and full factorial design

Author

Leandro Goulart de Araujo, Gabriel Fuitem Martins, Alexssandra Andrea Antunes Campera, Júlio Takehiro Marumo, and Sabine Neusatz Guilhen

Subjects

adsorption, dyes, experimental design, low-cost biosorbents, machine learning, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Sorption technologies have been proposed for the treatment of water containing methylene blue (MB), a toxic and persistent pollutant. Despite its environmental risks, the role of process variables in MB removal has not been fully explored through experimental design. The objective of this study is to assess the potential of bone meal powder (BMP), an underexplored agricultural byproduct, as an affordable adsorbent for the removal of MB from water. BMP was subjected to a series of analytical characterization techniques, and its adsorption capacity was evaluated through a comprehensive factorial design, which investigated the effects of biosorbent dosage, solution pH, and initial MB concentration. The study revealed that the highest adsorption level was 14.49 mg g−1, attained under the following conditions: 1 g L−1 BMP, pH 11, and 100 mg L−1 MB. The adsorption equilibrium was reached within 60 min, with a measured capacity (qexp) of 18 mg g−1. Theoretical adsorption isotherms indicated a capacity of 63 mg g−1, which aligned well with the Langmuir model. To predict adsorption outcomes, machine learning models were applied, with multiple linear regression performing best. Optimization of decision trees and neural networks improved accuracy but risked overfitting. FT-IR, XRD, and ICP analyses indicated ion exchange as a significant mechanism of adsorption. In desorption studies, H2SO4 was the most effective agent, achieving 68.72% desorption efficiency. BMP exhibited optimal recyclability for up to four cycles before efficiency declined.

Published

2024

3. Direct determination of aluminum in low-enriched UAlx targets (UAlx-Al) by Inductively Coupled Plasma Optical Emission Spectrometry

Author

Sabine Neusatz Guilhen, Alexandre Luiz de Souza, Marycel Elena Barboza Cotrim, and Maria Aparecida Faustino Pires

Subjects

UAlx, molybdenum, ICP OES, spectral interference, Science

Abstract

The production of molybdenum-99 (99Mo) using low-enriched uranium targets (< 20% 235U) dispersed in aluminum (UAlx) is a very promising strategy towards the independence in 99Mo local production. A thorough control must be performed to ensure that these targets meet the regulatory requirements to achieve the expected efficiency in the reactor. The determination of the targets’ composition is of high interest, because the distribution of Al in different phases may have an impact on the U concentration. Among the techniques used for this purpose, inductively coupled plasma optical emission spectrometry (ICP OES) stands out because of its high sensitivity and precision, allowing for simultaneous determination of several elements in a variety of samples and matrices. However, because U exhibits a complex emission spectrum, spectral interferences are prone to affect the analysis of Al, calling for time consuming preparation steps to remove the U from the matrix. This study proposes a method of direct determination of Al in UAlx targets through the selection of specific emission lines enabled by the evaluation of the associated interferences on the recovery values.

Published

2021

4. Influence of pyrolytic temperature on uranium adsorption capability by biochar derived from macauba coconut residue

Author

Sabine Neusatz Guilhen

Subjects

biochar, macauba, uranium, adsorption, pyrolysis, Science

Abstract

Biochar (BC) is a carbon-rich product obtained when biomass is thermally decomposed at relatively low temperatures (under 700ºC) and limited supply of oxygen in a process called pyrolysis. Because of its porous structure, charged surface and surface functional groups, BC exhibits a great potential as an adsorbent. Its characteristics strongly depend on the feedstock and the pyrolysis conditions, in which the temperature is the key parameter. The aim of this study was to evaluate the adsorption potential for the removal of uranium, U(VI), from aqueous solutions using BC obtained through the pyrolysis of the macauba coconut endocarp as a function of the final pyrolytic temperature. The influence of parameters such as pH, sorbent dose and initial concentration on the adsorption of U(VI) was investigated. The maximum adsorption capacity (q) was achieved for the BC obtained at 250°C (BC250), which presented a removal percentage of approx. 86%, demonstrating the potential of the BC from macauba endocarp for treatment of wastewaters.

Published

2019

5. Validação de metodologia analítica para determinação de mercúrio total em amostras de urina por espectrometria de absorção atômica com geração de vapor frio (CV-AAS): estudo de caso Validation of an analytical method for the determination of total mercury in urine samples using cold vapor atomic absorption spectrometry (CV-AAS): case study

Author

Sabine Neusatz Guilhen, Maria Aparecida Faustino Pires, Elizabeth Sonoda Keiko Dantas, and Fernanda Villibor Xavier

Subjects

validation, mercury amalgam, CV-AAS, Chemistry, QD1-999

Abstract

Mercury is a toxic metal used in a variety of substances over the course history. One of its more dubious uses is in dental amalgam restorations. It is possible to measure very small concentrations of this metal in the urine of exposed subjects by the cold vapor atomic absorption technique. The present work features the validation as an essential tool to confirm the suitability of the analytical method chosen to accomplish such determination. An initial analysis will be carried out in order to evaluate the environmental and occupational levels of exposure to mercury in 39 members of the auxiliary dental staff at public consulting rooms in the city of Araguaína (TO).

Published

2010

6. Application of the fundamental parameter method to the assessment of major and trace elements in soil and sediments from Osamu Utsumi uranium mine by WDXRF

Author

Sabine Neusatz Guilhen, Marycel Elena Barboza Cotrim, Solange Kazumi Sakata, and Marcos Antônio Scapin

Subjects

WDXRF spectrometry, fundamental parameter method, validation, uranium mine, soil and sediment, Mining engineering. Metallurgy, TN1-997, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Abstract Wavelength dispersive X-ray fluorescence spectrometry (WDXRF) is a suitable technique for the characterization of contaminated mining sites, providing a quick and reliable screening for areas of significant contamination. This study established and validated a non-destructive methodology for quantitative simultaneous determination of major and minor constituents in soil and sediments by WDXRF, which was further applied to quantify soil and sediment samples from Osamu Utsumi uranium mine (Caldas, Minas Gerais, Brazil). Elements such as Ce, La, Nd, Mn and U were found in more concentrated levels in the calcium diuranate deposit (DUCA), whereas Fe and Al were found at higher levels in the soil samples corresponding to sites where accentuated leaching processes have occurred. Comparatively, the levels of U and rare-earth elements were found in significantly higher levels in the sediments retrieved from the mine’s pit as a result of acid mine drainage. These findings are believed to be useful as an initial environmental assessment for the decommissioning process of the mine.

7. Exposição a mercúrio entre profissionais da área odontológica na Amazônia legal

Author

Elizabeth Sonoda Keiko Dantas, Sabine Neusatz Guilhen, Fernanda Fresneda Villibor, and Maria Aparecida Faustino Pires

Subjects

Dental Staff, Amazon rainforest, business.industry, Environmental health, Medicine, General Medicine, MERCURY EXPOSURE, business

Published

2019

8. Direct determination of aluminum in low-enriched UAlx targets (UAlx-Al) by Inductively Coupled Plasma Optical Emission Spectrometry

Author

Maria Aparecida Faustino Pires, Marycel Barboza Cotrim, Sabine Neusatz Guilhen, and Alexandre Souza

Subjects

Materials science, chemistry, Aluminium, Inductively coupled plasma atomic emission spectroscopy, Isotopes of molybdenum, Analytical chemistry, chemistry.chemical_element, Emission spectrum, Plasma, Inductively coupled plasma, Uranium, General Agricultural and Biological Sciences, Optical emission spectrometry

Abstract

The production of molybdenum-99 (99Mo) using low-enriched uranium targets (< 20% 235U) dispersed in aluminum (UAlx) is a very promising strategy towards the independence in 99Mo local production. A thorough control must be performed to ensure that these targets meet the regulatory requirements to achieve the expected efficiency in the reactor. The determination of the targets’ composition is of high interest, because the distribution of Al in different phases may have an impact on the U concentration. Among the techniques used for this purpose, inductively coupled plasma optical emission spectrometry (ICP OES) stands out because of its high sensitivity and precision, allowing for simultaneous determination of several elements in a variety of samples and matrices. However, because U exhibits a complex emission spectrum, spectral interferences are prone to affect the analysis of Al, calling for time consuming preparation steps to remove the U from the matrix. This study proposes a method of direct determination of Al in UAlx targets through the selection of specific emission lines enabled by the evaluation of the associated interferences on the recovery values.

Published

2021

9. Role of Point of Zero Charge in the Adsorption of Cationic Textile Dye on Standard Biochars from Aqueous Solutions: Selection Criteria and Performance Assessment

Author

Leandro Araujo and Sabine Neusatz Guilhen

Subjects

General Medicine

Abstract

The point of zero charge (PZC) is an inherent electrokinetic property of biochars (BC). It influences the adsorption process under certain pH conditions. Herein, we report the method of determination of the PZC values of ten standard BCs. We used the salt addition method to select the BCs with suitable properties for methylene blue (MB) removal from aqueous solutions. The standard BCs were obtained by pyrolyzing five different biomasses at two distinct temperatures (550°C and 700°C). The BCs derived from rice husk (pHPZC at 7.22 and 7.64 for RH550 and RH700, respectively) and softwood pellets (pHPZC at 6.57 and 6.78 for SWP500 and SWP700, respectively) were selected for their compatibility with cationic dyes such as MB. Results from adsorption experiments indicated the potential use of the RH biochar as an adsorbent for the removal of MB from aqueous solutions. The removal efficiencies were 68.83% and 71.97% for RH550 and RH700, respectively. Considerably low values were obtained for SWP550 and SWP700 (21.61% and 22.84%, respectively). Equilibrium was achieved at 2 h for RH550 and 1 h for RH700, and the adsorption kinetics for the RH BCs could be described by a pseudo-second order equation. The results revealed that even when produced under comparable conditions, BCs obtained from different feedstocks exhibited different cationic dye removing abilities. BCs optimized for the removal of cationic or anionic dyes can be easily engineered by appropriately matching the feedstock with the processing conditions.

Published

2022

10. Essential Elements as Biomarkers of Metastatic Renal Cell Carcinoma

Author

João E. Oliveira, Fabio Silva, Sabine Neusatz Guilhen, Julio T. Marumo, Alexandre Souza, Rafael Vicente de Pádua Ferreira, and Maria Helena Bellini

Subjects

03 medical and health sciences, 0302 clinical medicine, Renal cell carcinoma, business.industry, 030220 oncology & carcinogenesis, Cancer research, medicine, Tumor cells, Metabolism, urologic and male genital diseases, 030224 pathology, medicine.disease, business

Abstract

Renal cell carcinoma (RCC) represents 3% of human malignant tumors and approximately 90% of malignant renal neoplasms. Despite great therapeutic advances in the last decade, metastatic RCC (mRCC) is still considered an incurable disease. In this study, we examined the potential of essential elements as biomarkers of mRCC using an orthotropic metastatic mouse model. Frozen lung and plasma samples from healthy and mRCC-induced mice were lyophilized, digested, and analyzed using inductively coupled plasma mass spectrometry. In metastatic lungs, a significant increase in Ca concentration (268%) was observed, whereas a significant decrease in Cu (23.2%), Fe (17.4%), Mn (38.8%), and Na (11.7%) was observed. The plasma of mRCC-induced mice showed decreased concentrations of Mn (53%), Na (19.7%) and Zn (49,50%) and increased levels of Ca (53%), Cu (39.5%), Our findings revealed marked differences in the concentrations of essential elements in the lung and plasma of the metastatic mouse model. The circulating levels of Ca, Cu, Mn, Na, and Zn could be utilized as diagnostic and therapeutic response biomarkers.

Published

2020

11. MERCURY EXPOSURE AMONG DENTAL STAFF IN THE LEGAL AMAZON

Author

Fernanda Fresneda Villibor, Sabine Neusatz Guilhen, Elizabeth Sonoda Keiko Dantas, and Maria Aparecida Faustino Pires

Published

2019

12. Synthesis and characterization of macauba-derived biochar for aqueous uranium removal

Author

Sabine Neusatz Guilhen, Denise Alves Fungaro, Juliana de Carvalho Izidoro, Nilce Ortiz, and Melissa Gurgel Adeodato Vieira

Subjects

coal, waste water, synthesis, biomass, pyrolysis products, business.industry, removal, Biomass, Radioactive waste, chemistry.chemical_element, Uranium, Pulp and paper industry, uranium, Adsorption, radioactive wastes, Wastewater, chemistry, water pollution control, adsorption, Coal, waste processing, business, Waste processing

Abstract

A geração de rejeitos radioativos é consequência da diversificada atuação do Brasil na área nuclear. A necessidade de um gerenciamento eficaz vem impulsionando pesquisas em novas tecnologias para o tratamento desses rejeitos de forma a garantir a segurança e a saúde dos seres humanos, além da preservação do meio ambiente. No Instituto de Pesquisas Energéticas e Nucleares, rejeitos aquosos contendo urânio são gerados em diversas etapas do ciclo do combustível nuclear, requerendo um tratamento específico de modo a atingir níveis de inocuidade que permitam a sua liberação como rejeitos isentos. No presente estudo, a adsorção foi considerada para o tratamento desses rejeitos por ser uma técnica simples, de fácil operação e de baixo custo. Nos últimos anos, o interesse por fontes renováveis foi alavancado por questões ambientais e os resíduos agroindustriais tornaram-se uma fonte importante para a produção de novos materiais. No Brasil, o agronegócio tem uma expressiva participação na economia do país e a diversidade e a disponibilidade dos resíduos gerados em larga escala vêm se revelando como uma alternativa em potencial para a produção de adsorventes de baixo custo, como é o caso do biocarvão, que pode ser obtido através da decomposição térmica dos resíduos de biomassa. Dessa forma, esses resíduos de biomassa podem ser aproveitados para a obtenção de um material de valor agregado. Devido à sua estrutura porosa e superfície carregada, rica em grupos funcionais, os biocarvões são considerados excelentes adsorventes para metais tóxicos e, por isso, vêm conquistando o interesse de muitos cientistas nos últimos anos. A macaúba (Acrocomia aculeata) é uma palmeira nativa do cerrado e uma das mais promissoras fontes naturais e renováveis de óleo para as indústrias cosméticas, de alimentos e para a produção de biocombustíveis. O processamento do óleo da amêndoa do coco de macaúba gera um resíduo, que corresponde à casca da noz, denominado de \"endocarpo\". O presente estudo teve por objetivo demonstrar o potencial do endocarpo de macaúba como matéria-prima para a produção de biocarvão e a empregabilidade deste como material adsorvente na remoção de urânio (VI) de soluções aquosas. O biocarvão foi preparado por pirólise lenta a partir do endocarpo de macaúba em seis temperaturas diferentes (250 a 750 °C). O desempenho do processo de adsorção foi maximizado através da seleção das condições mais adequadas, ajustando-se os parâmetros que podem influenciar na adsorção: pH, dose, concentração inicial e tempo de contato. As maiores capacidades de adsorção foram obtidas para o biocarvão não-ativado produzido a 250 °C (BC250), seguido pelo biocarvão obtido a 350 °C (BC350), com eficiências de remoção de 86 % e 80 %, respectivamente. Esses resultados demonstraram o importante papel desempenhado pelos grupos funcionais de superfície na adsorção do U, hipótese que foi reforçada por meio da caracterização dos biocarvões obtidos em diferentes temperaturas. A análise elementar confirmou a redução das frações molares H/C e O/C conforme temperaturas mais elevadas foram empregadas na pirólise do endocarpo e a análise por espectroscopia no infravermelho demonstrou a crescente degradação dos grupos funcionais de superfície com o aumento da temperatura de pirólise, reduzindo a disponibilidade de sítios ligantes. Por isso, os biocarvões obtidos em temperaturas mais baixas (250 e 350 °C) apresentaram maior capacidade de troca catiônica. Além disso, a presença de grupos funcionais oxigenados tais como hidroxilas, carbonilas e carboxilas contribui para o fenômeno de quimissorção. Entretanto, o BC350 foi selecionado preferencialmente ao BC250 por apresentar um maior teor de carbono fixo, sendo, com isso, um material mais estável e, portanto, mais adequado para imobilizar U radioativo a longo-prazo. A ativação física do BC350 empregando CO2 possibilitou o aperfeiçoamento do adsorvente, obtendo-se um biocarvão com uma maior capacidade de adsorção para o U, alcançando 99,17 % de remoção. A análise por adsorção de nitrogênio mostrou que a ativação proporcionou um desenvolvimento significativo da estrutura porosa do biocarvão ativado (BC350- A), aumentando substancialmente a sua área superficial específica de 0,83 m2 g-1 para 643,12 m2 g-1. A adsorção do U(VI) pelo biocarvão de macaúba foi melhor descrita pelo modelo isotérmico de Redlich-Peterson. O melhor ajuste dos dados experimentais foi atribuído ao modelo cinético de pseudo primeira-ordem. A técnica de microfluorescência de raios X possibilitou comprovar a presença de urânio no biocarvão após a adsorção. Por fim, a aplicabilidade do BC350-A foi avaliada, em um estudo de caso, para o efluente de UF4 gerado em uma das etapas do ciclo do combustível nuclear, cuja concentração era de aproximadamente 5,1 mg L-1 de U. Após a adsorção, a concentração de U(VI) remanescente em solução foi de 107 μg L-1, ficando abaixo do limite máximo estabelecido pela Norma CNEN-NN-8.01 (217 μg L-1) evidenciando, assim, a empregabilidade do BC350-A no tratamento de rejeitos aquosos contendo U. Radioactive wastes are generated as a consequence of Brazil\'s diverse activities in the nuclear area. The need for effective management has been driving recent researches into new technologies for the treatment of these wastes in order to ensure the safety and health of humans, as well as the preservation of the environment. At the Nuclear and Energy Research Institute, uranium-containing aqueous wastes are generated at various stages of the nuclear fuel cycle. Specific treatment is required to achieve safe levels for a proper disposal. Because of its simplicity, easiness of operation and low cost, adsorption was considered for the treatment of the radioactive aqueous wastes in the present study. In Brazil, agribusiness has a significant participation in the country\'s economy and the diversity and availability of residues generated in large-scale reveal a potential alternative for the production of low-cost adsorbents, such as biochars, which have been gaining the interest of many scientists in the last years. Biochars can be obtained by thermal decomposition of biomass residues and are excellent adsorbents for heavy metals because of their porous structure and charged surface, rich in functional groups. Macaúba (Acrocomia aculeata) is a palm tree native to the Brazilian\'s savannah and one of the most promising natural and renewable sources of oil for cosmetics, food and biofuels. The processing of almond oil of macaúba coconut produces a residue, which corresponds to the shell of the walnut, denominated \"endocarp\". The present study aimed to demonstrate the potential of the macaúba endocarp as a raw material for the production of biochar to be used as adsorbent material in the removal of uranium (VI) from aqueous solutions. The biochar was prepared from the macauba endocarp by slow pyrolysis at six different temperatures (250 to 750 °C). The performance of the adsorption process was maximized through the selection of the most suitable conditions, by properly adjusting the parameters that may influence the adsorption: pH, dose, initial concentration and contact time. The highest adsorption capacities were obtained for the non-activated biochar produced at 250 °C (BC250), followed by the biochar obtained at 350 °C (BC350), with removal efficiencies of 86 % and 80 %, respectively. These results point out to the importance of the surface functional groups in the U adsorption because they provide a large amount of binding sites. This hypothesis was reinforced through the characterization of the biochars obtained at different temperatures. Elemental analysis confirmed the reduction of the H/C and O/C molar fractions at higher pyrolytic temperatures and the infrared spectroscopy analysis demonstrated the increasing degradation of surface functional groups with growing temperatures. The presence of oxygenated functional groups such as hydroxyls, carbonyls and carboxyls contribute to the increase of the cation exchange capacity (CEC) and the biochars obtained at lower temperatures (250 and 350 °C) favor the process of adsorption by chemisorption. BC350 was preferentially selected to BC250, because of its higher fixed carbon content, thus, a more stable material and, therefore, more suitable for a long-term immobilization of radioactive U. Physical activation of BC350 resulted in an enhanced biochar, with a greater adsorption capacity for U, reaching over 99 % of removal efficiency. Nitrogen adsorption analysis showed that the activation provided a significant development of the porous structure of the activated biochar (BC350-A), substantially increasing its specific surface area from 0,83 m2 g-1 to 643,12 m2 g-1. The adsorption was better described by the Redlich-Peterson isotherm model. The best fit of the experimental data was attributed to the pseudo first-order kinetic model. The X-ray microfluorescence technique evidenced the presence of U in the biochar after adsorption. Finally, the applicability of BC350-A was evaluated for the UF4 effluent generated in one of the stages of the nuclear fuel cycle. After adsorption, the U (VI) was successfully removed from the aqueous effluent, achieving a remaining concentration of 107 μg L-1, thus proving the BC350-A applicability for the treatment of U-containing aqueous wastes.

Published

2018

13. Validation of an analytical method for the determination of total mercury in urine samples using cold vapor atomic absorption spectrometry (CV-AAS): case study

Author

Sabine Neusatz Guilhen, Maria Aparecida Faustino Pires, Fernanda Villibor Xavier, and Elizabeth Sonoda Keiko Dantas

Subjects

validation, mercury amalgam, chemistry, Environmental chemistry, chemistry.chemical_element, General Chemistry, Cold vapour atomic fluorescence spectroscopy, Mercury (element), CV-AAS

Abstract

Mercury is a toxic metal used in a variety of substances over the course history. One of its more dubious uses is in dental amalgam restorations. It is possible to measure very small concentrations of this metal in the urine of exposed subjects by the cold vapor atomic absorption technique. The present work features the validation as an essential tool to confirm the suitability of the analytical method chosen to accomplish such determination. An initial analysis will be carried out in order to evaluate the environmental and occupational levels of exposure to mercury in 39 members of the auxiliary dental staff at public consulting rooms in the city of Araguaina (TO).

Published

2010

14. Application of the fundamental parameter method to the assessment of major and trace elements in soil and sediments from Osamu Utsumi uranium mine by WDXRF

Author

Solange K. Sakata, Marycel Barboza Cotrim, Sabine Neusatz Guilhen, and Marcos A. Scapin

Subjects

validation, lcsh:TN1-997, Soil test, WDXRF spectrometry, uranium mine, soil and sediment, General Engineering, Fluorescence spectrometry, Sediment, fundamental parameter method, Contamination, Acid mine drainage, Uranium mine, lcsh:TA1-2040, Environmental chemistry, Soil water, General Earth and Planetary Sciences, Environmental science, Leaching (agriculture), lcsh:Engineering (General). Civil engineering (General), lcsh:Mining engineering. Metallurgy, General Environmental Science

Abstract

Wavelength dispersive X-ray fluorescence spectrometry (WDXRF) is a suitable technique for the characterization of contaminated mining sites, providing a quick and reliable screening for areas of significant contamination. This study established and validated a non-destructive methodology for quantitative simultaneous determination of major and minor constituents in soil and sediments by WDXRF, which was further applied to quantify soil and sediment samples from Osamu Utsumi uranium mine (Caldas, Minas Gerais, Brazil). Elements such as Ce, La, Nd, Mn and U were found in more concentrated levels in the calcium diuranate deposit (DUCA), whereas Fe and Al were found at higher levels in the soil samples corresponding to sites where accentuated leaching processes have occurred. Comparatively, the levels of U and rare-earth elements were found in significantly higher levels in the sediments retrieved from the mine’s pit as a result of acid mine drainage. These findings are believed to be useful as an initial environmental assessment for the decommissioning process of the mine.