Sorption of Arsenic from Drinking Water to Mg(OH)2 Sorrel's Cements, and Zirconium Doped Materials

Moore, R. L.; Zhao, Hongting; Sanchez, C. A.; Holt, Kathleen Caroline; Salas, Fred Manuel; Hasan, Ahmed Ali Mohamed; Lucero, Daniel A.

doi:10.2172/807054

Cited by 4 publications

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“…Various researchers have described different methods to prepare synthetic and natural zeolites, subjecting them to stages of pre-treatment with salts or hydroxide solutions to create an adsorbent with higher adsorption efficiency proprieties. They have also used metallic compounds like iron, zirconium and magnesium hydroxide (Moore et al, 2002;Aviles et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

Adsorption of arsenic on pre-treated zeolite at different pH levels

Mejía-Zamudio

Valenzuela-García

Gómez-Álvarez³

et al. 2013

Chemical Speciation & Bioavailability

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Natural zeolites are widely used to minimise the impact of some pollutants in the environment, such as the removal of metals in various water sources as well as effluents used in the mining and metallurgical industry and in the treatment of mining acid solutions. The most common varieties of zeolites are analcime, chabazite, clinoptilolite, heroinite, ferrierite, mordenite. Researchers have studied for decades their synthesis, structure and proprieties, and as a result a large number of patents have been obtained on the preparation of different types of zeolite in conjunction with metals or metal compounds as selective adsorbents for anions and cations of water solutions. For example, iron, zirconium and magnesium hydroxide show selectivity in the adsorption of arsenic among other industrial applications of great interest.This study shows the importance of using natural pre-treated zeolites in the adsorption of arsenic in water due to the adsorption percentages that are higher than 90%, controlling the pH in the pre-treatment. Samples were treated at different pH levels, getting a better adjustment of isotherms of adsorption at pH = 9 with ZP-9.

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Section: Introductionmentioning

confidence: 99%

Adsorption of arsenic on pre-treated zeolite at different pH levels

Mejía-Zamudio

Valenzuela-García

Gómez-Álvarez³

et al. 2013

Chemical Speciation & Bioavailability

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A Simple, Stable, and Highly Sensitive Spectrophotometric Method for the Determination of Arsenic(III) from Different Biological Media in the Presence of Nanosilica-Cysteine Composite

ALNASRA,

KHALİLİ

2023

Journal of the Turkish Chemical Society Section A: Chemistry

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This paper describes a selective and fairly stable colorimetric approach to determine trace amounts of arsenic conjugated with nanosilica-cysteine composite in various aqueous and biological samples in milligram per liter (mg/L) using Leucocrystal Violet (LCV) as a chromogenic reagent. Attenuated total reflectance-Fourier-transform infrared (ATR-FTIR) spectroscopy analysis was applied to characterize the composite. Novelty of this method is dealing with the presence of nanosilica which is reflected in the difficulty of obtaining a clear solution. The maximum absorbance is measured and Beer's law shows linearity over the concentration range of (0.75 to 5.00 mg/L) of As(III) at 590 nm. The molar absorptivity, Sandell’s sensitivity, and detection limit of the method were found to be 6.00 × 105 L/mol.cm, 8.55 × 10-2 μg/cm2, and 0.043 mg/L, respectively. The optimum reaction conditions and other analytical parameters were evaluated. Arsenic was successfully detected in a variety of aqueous and biological samples using the proposed method.

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Integrated Model for Sustainable Development (IMSD): Impact of Technology Integration

Hasan

2014

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There is a need worldwide to diversify the energy resources and rely on unconventional energy sources to prolong the oil reserves, attract hi-tech manufacturers, support knowledge based economy, and reduce carbon foot print. The current state of knowledge is confined in isolated research and development related to various renewable energy technologies such as passive energy, wind, Solar, biofuels, hydrothermal, and energy conservations. However, there are limited attempts, to integrate many of the aforementioned technologies in one place and monitor the impact of the integration on their efficiency and feasibility; as well as quantify the impact of other technologies related to energy and water conservation. The Integrated Model for Sustainable Development (IMSD) is a conceptual model that provides a unique conceptualization approach to study the impact of integrating individual technologies on a holistic energy and water systems. Additionally, blooming population increase worldwide put lots of strain on already scarce water resources. Almost 25% of energy produced is used for water extraction, treatment and delivery. Therefore, it is important for the 21 century technologies to address the energy-water-environment nexus, which result in better management of resources while maintaining clean environment for future generations. The IMSD is an innovative approach that provides a comprehensive platform that combines technology development, economics, environmental impact assessment, decision support and human capacity development in one platform.The IMSD is an integrated field scale testing platform that will likely improve the usefulness of models by including a probabilistic risk assessment approach that utilizes rigorous methodologies for dealing with missing and uncertain information; improved methods for interpretation of multivariate data sets and for multi-objective decision making involving trade-offs among conflicting goals; and novel modeling methods as alternatives to traditional mathematical models. Development of complex conceptual models, data collection and mathematical modeling are essential components of the IMSD.The IMSD is designed to quantify the impact of passive energy buildings and energy conservation technologies on enabling renewable energy technologies and reduction of carbon foot print using a holistic SD approach. The IMSD incorporates the Process Network Synthesis (PNS) to find an optimal technology pathway out of a complex technology network; a novel Graphical User Interface (GUI) to simulate the impacts of proposed management options; and a separate module for the Sustainable Process Index (SPI) to evaluate the economical and environmental feasibility of the designed integrated system.The IMSD is designed to address indirect problems related to energy production such as water management practices for oil operations, while mitigating the environmental impacts of waste water

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Sorption of Arsenic from Drinking Water to Mg(OH)2 Sorrel's Cements, and Zirconium Doped Materials

Cited by 4 publications

References 0 publications

Adsorption of arsenic on pre-treated zeolite at different pH levels

Adsorption of arsenic on pre-treated zeolite at different pH levels

A Simple, Stable, and Highly Sensitive Spectrophotometric Method for the Determination of Arsenic(III) from Different Biological Media in the Presence of Nanosilica-Cysteine Composite

Integrated Model for Sustainable Development (IMSD): Impact of Technology Integration

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