The process of fly ash magnetic separation impact on hydrothermal synthesis of zeolites

Czuma, Natalia; Zarębska, Katarzyna; Baran, Paweł; Franus, Wojciech

doi:10.1051/e3sconf/20161000009

Cited by 4 publications

(9 citation statements)

References 10 publications

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“…In the fusion method experiment (F650 0 C) the decrease of alkali amount influence on the synthesis product was tested. In preliminary experiments [11] it was fund that the use of fly ash to alkali ratio of value 2 in most cases did not result in obtaining zeolite as a product. The only case of zeolite crystallization in this fly ash/alkali ratio was the one performed in the temperature 650 0 C, which was the criteria of selecting this temperature as a synthesis parameter for testing increase of fly ash/alkali ratio up to value 3.…”

Section: Resultsmentioning

confidence: 99%

“…Results of performed experiments indicate that it is possible to obtain zeolites of higher potential of application with the use of fly ash/alkali ratio 2. Related research [11] performed with the use of fusion method indicated that the use of higher fly ash/alkali ratio is not efficient in relation to zeolite crystallization. In the experiment performed in the temperature 550 0 C it was tested how does the change in fly ash/alkali ratio will influence the synthesis product.…”

Section: Data Analysis For Series Of Samples F650mentioning

confidence: 99%

“…Interesting application examples of its use are as: oil spills sorbents [6,7], additives for asphalt production [8], removal of benzene, toluene and xylene [9], ammonia ions [3] carbon dioxide [3,10] or sulphur dioxide [11,12].…”

Section: Introductionmentioning

confidence: 99%

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The influence of fly ash zeolites fusion synthesis parameters on the received products

2017

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Abstract. Fly ash is one of possible raw material for the production of zeolites. Synthesis of zeolites with the use of fusion method enables the possibility of receiving materials of high yield of zeolites. This process may be used for efficient recycling of coal waste from power energy sector, which due to legislative indications shall no longer be directed into the landfills. The transformation of this waste into useful material of high application possibilities is possible. As received zeolites may be used eg. in purification of flue gases, which due to growing concern about the environment issues is needed. In the performed experiments the influence of a series of parameters was examined in correlation to received zeolitic material. Experimentally chosen proposition of the most beneficial process steps was presented.

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Section: Resultsmentioning

confidence: 99%

Section: Data Analysis For Series Of Samples F650mentioning

confidence: 99%

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The influence of fly ash zeolites fusion synthesis parameters on the received products

2017

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“…Depending on the silicone to aluminum ratio of the raw material, faujasite is divided into X and Y. Zeolite X is obtained as a result of the synthesis of raw materials with the ratio between 2 and 3 [29], while zeolite Y with the ratio from 3 and more [31]. Zeolite Y, obtained under the conditions of zeolitization of sample S10, proves that the synthesis at the crystallization temperature of 90 o C is more favorable than at 60 o C [32].…”

Section: Resultsmentioning

confidence: 99%

“…CEC is a measurement of the number of cations in the channels by unit weight that may be replaced by other ions in solutions. The exchangeable cations of samples were replaced by NH4 + using 1M ammonium acetate [29]. The concentration of ammonium ions in solutions was determined with the use of ion chromatography.…”

Section: Characterization Methodsmentioning

confidence: 99%

Limitation of the environmental impact of ashes from combustion of sewage sludge by the synthesis of zeolites

Latosińska

2017

E3S Web Conf.

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Abstract. The combustion of municipal sewage sludge allows for the recovery of renewable energy. However, it simultaneously causes the formation of ash which is not neutral for the environment. The study presents the research on the possibility of using sewage sludge ash as a raw material for the synthesis of zeolites. The synthesis of zeolites was performed with the use of an indirect fusion method and a direct hydrothermal method. The research on sewage sludge ash after zeolitization included the identification of crystalized phases, the observation of changes of ash particles surface and the measurement of cation exchange capacity (CEC). The research results proved that optimal conditions for the formation of zeolite Y were the synthesis with the indirect fusion method at the sewage sludge ash to hydroxy sodalite ratio of 1:1.8, the activation temperature of 60 o C and the crystallization temperature of 90 o C. Hydroxy sodalite was found in samples from both methods of zeolitization. However, in the case of direct hydrothermal method, particles of hydroxy sodalite structure were less numerous indicating a small conversion of sewage sludge ash to crystalline zeolite. CEC values comparable to commercial zeolites resulted from zeolitization with the indirect fusion method.

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Highly efficient oxidative removal of thiophene at ambient temperature over synthetic MnO₂/zeolite nanocomposites

Chenari,

Khatamian,

Yavari

2023

New J. Chem.

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The process of fly ash magnetic separation impact on hydrothermal synthesis of zeolites

Cited by 4 publications

References 10 publications

The influence of fly ash zeolites fusion synthesis parameters on the received products

The influence of fly ash zeolites fusion synthesis parameters on the received products

Limitation of the environmental impact of ashes from combustion of sewage sludge by the synthesis of zeolites

Highly efficient oxidative removal of thiophene at ambient temperature over synthetic MnO₂/zeolite nanocomposites

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The process of fly ash magnetic separation impact on hydrothermal synthesis of zeolites

Cited by 4 publications

References 10 publications

The influence of fly ash zeolites fusion synthesis parameters on the received products

The influence of fly ash zeolites fusion synthesis parameters on the received products

Limitation of the environmental impact of ashes from combustion of sewage sludge by the synthesis of zeolites

Highly efficient oxidative removal of thiophene at ambient temperature over synthetic MnO2/zeolite nanocomposites

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Highly efficient oxidative removal of thiophene at ambient temperature over synthetic MnO₂/zeolite nanocomposites