Your search keyword '"Moreno, N"' showing total 8 results

1. Differential behaviour of combustion and gasification fly ash from Puertollano Power Plants (Spain) for the synthesis of zeolites and silica extraction

Author

Font, O., Moreno, N., Díez, S., Querol, X., López-Soler, A., Coca, P., and García Peña, F.

Published

2009

2. Environmental, physical and structural characterisation of geopolymer matrixes synthesised from coal (co-)combustion fly ashes

Author

Álvarez-Ayuso, E., Querol, X., Plana, F., Alastuey, A., Moreno, N., Izquierdo, M., Font, O., Moreno, T., Diez, S., Vázquez, E., and Barra, M.

Published

2008

3. Arsenic distribution and speciation in deposited coal mine dust.

Author

Shangguan Y, Li B, Zhuang X, Querol X, Moreno N, Huang P, Guo Y, Shi Y, Wu T, and Sola PC

Abstract

This study investigates arsenic (As) species, sources, and transformation patterns in deposited coal mine dust (DCMD) from three coal mines-QSY, MHJ, and SCC-in the Ningdong Coalfield, China. While the parent coals have low As levels, the DCMD shows significant enrichment, with concentrations 137 to 345 times higher. The mineral composition of the DCMD reflects that of the parent coals but includes secondary minerals such as gypsum and various trace elements, including As. This enrichment results from multiple factors: polluted waters used for dust control in the working front (WF), gangue dust introduced during mining operations, wear from mining machinery affecting Fe levels, and precipitation of As-salts from alkaline mine drainage. In the parent coals, As(V) comprises 60-65 % of the As, while As(III) accounts for 14-35 %. In contrast, the DCMD samples reveal As(V) as the dominant species (22-58 %), with As(III) making up 18-44 %. Arsenic leachability is influenced by Fe content, enhancing As adsorption and limiting mobility in QSY mine, while mixed As complexes in MHJ and SCC under alkaline conditions affect As mobility. The presence of more toxic As(III) in DCMD highlights environmental and health risks, emphasizing the need to avoid high-As polluted waters for dust control., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

4. Mineralogy, geochemistry and toxicity of size-segregated respirable deposited dust in underground coal mines.

Author

Trechera P, Moreno T, Córdoba P, Moreno N, Zhuang X, Li B, Li J, Shangguan Y, Kandler K, Dominguez AO, Kelly F, and Querol X

Abstract

We focus on a comparison of the geochemistry and mineralogy patterns found in coal, deposited dust (DD), respirable deposited dust (RDD) and inhalable suspended dust (PM10) from a number of underground mines located in China, with an emphasis on potential occupational health relevance. After obtaining the RDD from DD, a toxicological analysis (oxidative potential, OP) was carried out and compared with their geochemical patterns. The results demonstrate: i) a dependence of RDD/DD on the moisture content for high rank coals that does not exist for low rank coals; ii) RDD enrichment in a number of minerals and/or elements related to the parent coal, the wear on mining machinery, lime gunited walls and acid mine drainage; and iii) the geochemical patterns of RDD obtained from DD can be compared with PM10 with relatively good agreement, demonstrating that the characterization of DD and RDD can be used as a proxy to help evaluate the geochemical patterns of suspended PM10. With regards to the toxicological properties of RDD, the Fe content and other by-products of pyrite oxidation, as well as that of anatase, along with Si, Mn and Ba, and particle size (among others), were highly correlated with Ascorbic Acid and/or Glutathione OP., (Copyright © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2020

5. Assessment of a Fenton reaction driven by insoluble tannins from pine bark in treating an emergent contaminant.

Author

Romero R, Contreras D, Sepúlveda M, Moreno N, Segura C, and Melin V

Subjects

Pinus, Plant Bark, Atrazine chemistry, Catechols chemistry, Environmental Pollutants chemistry, Herbicides chemistry, Hydrogen Peroxide chemistry, Iron chemistry, Tannins chemistry

Abstract

Iron ligands as 1,2-dihydroxybenzenes (1,2-DHBs) have been used to increase the oxidizing ability of Fenton systems. However, these kinds of ligands become toxic quinones in the process creating an environmental problem since these compounds cannot be easily separated from a solution. To avoid this problem, in the present work, water-insoluble tannins, obtained from Pinus radiata bark, were used as a source of 1,2-DHBs to promote the oxidizing ability of the Fenton process. The developed system was tested using atrazine, as a substrate, which is a toxic and recalcitrant compound, present in different sources of water. The best reaction conditions established by the experimental design were as follows: pH of 3.6; 2.4 mmol L -1 of H 2 O 2 ; 150 μmol L -1 of Fe(III); and 800 mg L -1 of tannins. A significant increase in the efficiency of the degradation of atrazine by the heterogeneous Fenton process was observed under these conditions. The repetitive use of the insoluble tannins for Fenton-like processes showed a similar oxidizing ability and did not produce the lixiviation of phenols or other aromatic compounds. Together, the results showed that insoluble tannins could be used safely at least five times to promote the reactivity of Fenton systems., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

6. Environmental impact and potential use of coal fly ash and sub-economical quarry fine aggregates in concrete.

Author

Lieberman RN, Knop Y, Querol X, Moreno N, Muñoz-Quirós C, Mastai Y, Anker Y, and Cohen H

Abstract

The Israeli quarry industry produces 57 Mt of raw material and ∼4-6Mt of associated sub-economical by-products annually. These sub-economical quarry fines are not used because production and transportation costs considerably exceed their retail value. Therefore these by-products, are stored in large piles of fine grain size particles, create environmental risks to their surrondings. This paper evaluates the possibility of mixing the sub-economical quarry by-products of two Israeli quarries with sub-economical Class F coal fly ash (<20wt.% CaO) to form an economical aggregate sand substitute to be used as a concrete filler product. To study the feasibility of the aggregate as partial substitute to sand in concrete several analyses, including leaching experiements (EN12457-2), analytical techinques (SEM-EDX, ICP-MS, ICP-AES, and XRD), as well as an analysis of the mechanical and chemical properties of the concrete aggregate (strength, workability, and penetration) were performed. Scrubbing quarry waste with coal fly ash was found to be very effective for reducing the leaching rate of potentially harmful trace elements. In addition, adding fly ash with quarry fines as partial substitute to sand enhanced the performance of the concrete mixture and the properties of the fresh and harden concrete., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

7. Synthesis of merlinoite from Chinese coal fly ashes and its potential utilization as slow release K-fertilizer.

Author

Li J, Zhuang X, Font O, Moreno N, Vallejo VR, Querol X, and Tobias A

Subjects

Environmental Pollution prevention & control, Helianthus drug effects, Helianthus growth & development, Hydroxides chemistry, Industrial Waste, Potassium pharmacology, Potassium Compounds chemistry, Power Plants, Waste Management methods, Zeolites pharmacology, Coal Ash chemistry, Environmental Pollutants chemistry, Fertilizers, Potassium chemistry, Zeolites chemistry

Abstract

This study focuses on the synthesis of merlinoite from Chinese coal fly ashes by KOH direct conversion method, with special emphasis on the application of synthetic merlinoite as fertilizer. These fly ashes were collected from two pulverized-coal combustion (PCC) power plants in Xinjiang, Northwest China. The synthesis results are influenced by fly ash characteristics and different synthesis conditions (KOH solution concentrations, activation temperature, time, and KOH/fly ash ratios). A high quality merlinoite-rich product was synthesized under optimal activation conditions (KOH concentration of 5M, activation temperature of 150°C, activation time of 8h and KOH/fly ash ratio of 2l/kg), with a cation exchange capacity (CEC) of 160cmolkg(-1). The synthetic merlinoite is proved to be an efficient slow release K-fertilizer for plant growth, indicating that it can be widely used for high-nutrient demanding crops growing in nutrient-limited soils and for large-area poor soil amendment in opencast coal mine areas around the power plants that will substantially grow with the increasing coal combustion in Xinjiang in the near future., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2014

8. Fly ash from a Mexican mineral coal I: Mineralogical and chemical characterization.

Author

Medina A, Gamero P, Querol X, Moreno N, De León B, Almanza M, Vargas G, Izquierdo M, and Font O

Subjects

Carbon chemistry, Coal Ash, Conservation of Natural Resources, Mexico, Particulate Matter chemistry, Carbon analysis, Coal, Particulate Matter analysis

Abstract

The properties of coal fly ash are strongly dependent on the geological origin and the combustion process of the coal. It is important to characterize regional fly ash in detail to ascertain its potential uses as raw material in the production of high value products. The physicochemical properties of fly ash coming from the "Jose Lopez Portillo" coal-fired power plant, Coahuila, Mexico (MFA), are presented in this work. A detailed study of trace elements, the chemical composition of the amorphous phase, thermal stability and the leaching of contaminant elements under different conditions are included. MFA is composed of mullite, quartz, calcite, magnetite and an amorphous phase. This material contains mainly silica (59.6%), alumina (22.8%) and magnetite (5.6%). Its amorphous phase (78.3%) has a high silica (49.4%) and alumina (14.4%) content. According to its mineralogical and chemical composition, MFA is potentially useful as a raw material for making cement, silica, and alumina, as well as low silica/alumina ratio zeolites. Deleterious elements could be removed during the zeolitization process or with an additional acid treatment. Because of its morphological properties and structural and thermal stability, MFA can be used in thermal isolation and refractory materials and as a support for heterogeneous catalysts., (Copyright 2010 Elsevier B.V. All rights reserved.)

Published

2010