Validación Del Método Para La Determinación De Oro Por Ensayo Al Fuego Combinado Con Espectrometría De Absorción Atómica en Muestras Geológicas Mineras Metalúrgicas

Buitrón, O Diana; Barona, Daniel; Iturra, Manzano; Leon, Francisco J. Gala

doi:10.26807/ia.v9i1.188

Cited by 3 publications

(1 citation statement)

References 7 publications

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“…Likewise, the subsamples collected in the dumps were crushed until a fraction of Ø ± 1 cm was obtained. The sampling method used was Chip Sampling, which is commonly used for ore-grade control in productive mines [30]. The representative sample was disaggregated, homogenized, and quartered before analysis, resulting in eight samples of 55 kg each (S#1, S#2, S#3, S#4, S#5, S#6, S#7, and S#8).…”

Section: Sampling and Data Analysismentioning

confidence: 99%

Investigation of Gold Recovery and Mercury Losses in Whole Ore Amalgamation: Artisanal Gold Mining in Nambija, Ecuador

González-Vásquez,

García-Martínez,

Bolonio

2023

Minerals

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Mercury is a highly toxic pollutant that can negatively affect human health and the environment; informal mining is one of the main sources of anthropogenic mercury release due to the separation or concentration by amalgamation that is still used to recover gold directly from ore. In the Nambija mining district, there is still informal mining based on practically no technical knowledge, which uses amalgamation as a processing technique for gold recovery. The production tasks that directly affect the handling of mercury during the in situ grinding–amalgamation process are monitored here. Experimental grinding tests were initially carried out in a “chancha” bar mill for a range of ore sizes and as a function of time; then, experimental tests were performed at the macro-level on grinding cycles in Chilean mills. Considering the characteristics of the ore mineral and the operation of the Chilean mills, it was determined that it is possible to reduce the Hg input to mill by up to 20% (at source). Experimental grinding–amalgamation tests were carried out at different times along with a grain size analysis of the ore; the recovery establishes the grinding time and the fraction in which the gold is extracted in a greater proportion, which affects the control of the amalgamation times. The mercury dosage used by the miners in the amalgamation process should be reduced, considering trials where there is better gold recovery and with the purpose of also reducing mercury losses; eventually, it is possible to jointly achieve an increase in gold recovery.

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Section: Sampling and Data Analysismentioning

confidence: 99%

Investigation of Gold Recovery and Mercury Losses in Whole Ore Amalgamation: Artisanal Gold Mining in Nambija, Ecuador

González-Vásquez,

García-Martínez,

Bolonio

2023

Minerals

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Methodology for Declaration of Conformity Under ISO/IEC 17025 Associating Confidence Levels and Risk Analysis

Velásquez,

Juiña,

Iturra

et al. 2024

Lecture Notes in Networks and Systems

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Detection of arsenic and lead ions in water through validation of the electrothermal atomic absorption method

Vargas-Tierras,

Morales-León,

Andi-Barrera

et al. 2024

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The validation of the electrothermal spectrometry method for Arsenic and lead determination in water samples guarantees the quality of analytical data. The study was carried out at AQLAB. A theoretical and technical investigation was applied to ensure the reliability and accuracy of the analytical method. Parameters such as INEN standards, Eurachem international standards, AQLAB internal documents and environmental standards were used to validate the process. Several readings were performed on different samples to make calibration curves for As and Pb, evaluate the method's linearity, and obtain information on the slope, intercept and determination coefficient. Statistical calculations were used to determine the limit of detection and quantification, repeatability, reproducibility, trueness and uncertainty. The results show that the hypotheses were fulfilled, calibration curves with determination coefficient higher than 0.995, repeatability standard deviation lower than 16%, calculated F < critical F (4.96), calculated t student < theoretical (2.23), trueness was between 100.29-110.18 and 99.64-107.92%, uncertainty was 20% range 0.005 to 0.10 mg/L and 15% range 0.01- 0.20mg/L, limit of detection was 0.001 and 0.005 mg/L and limit of quantification was 0.01 and 0.02mg/L, respectively. Therefore, the validation method was robust and accurate. Keywords: water samples, analytical data, reliable results, Arsenic, Lead, validation

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Validación Del Método Para La Determinación De Oro Por Ensayo Al Fuego Combinado Con Espectrometría De Absorción Atómica en Muestras Geológicas Mineras Metalúrgicas

Cited by 3 publications

References 7 publications

Investigation of Gold Recovery and Mercury Losses in Whole Ore Amalgamation: Artisanal Gold Mining in Nambija, Ecuador

Investigation of Gold Recovery and Mercury Losses in Whole Ore Amalgamation: Artisanal Gold Mining in Nambija, Ecuador

Methodology for Declaration of Conformity Under ISO/IEC 17025 Associating Confidence Levels and Risk Analysis

Detection of arsenic and lead ions in water through validation of the electrothermal atomic absorption method

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