Synthesis of zeolites from municipal incinerator fly ash

Yang, Gordon C.C.; Yang, Tsung-Yin

doi:10.1016/s0304-3894(98)00163-0

Cited by 73 publications

(33 citation statements)

References 8 publications

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“…The CEC value decreased when zeolite X changed to zeolite HS, because zeolite X that belongs to faujasite has a larger pore size and specific surface area than zeolite HS [9]. In general, the CEC values of MSWCA zeolites are similar to that of some commercial zeolites in the range of 200-300 cmol kg −1 [10].…”

Section: Effect Of Naoh/ash Ratiomentioning

confidence: 75%

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Effective utilization of waste ash from MSW and coal co-combustion power plant—Zeolite synthesis

Fan

Zhang

Zhu

et al. 2008

Journal of Hazardous Materials

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The solid by-product from power plant fueled with municipal solid waste and coal was used as a raw material to synthesize zeolite by fusionhydrothermal process in order to effectively use this type of waste material. The effects of treatment conditions, including NaOH/ash ratio, operating temperature and hydrothermal reaction time, were investigated, and the product was applied to simulated wastewater treatment. The optimal conditions for zeolite X synthesis were: NaOH/ash ratio = 1.2:1, fusion temperature = 550 • C, crystallization time = 6-10 h and crystallization temperature = 90 • C. In the synthesis process, it was found that zeolite X tended to transform into zeolite HS when NaOH/ash ratio was 1.8 or higher, crystallization time was 14-18 h, operating temperature was 130 • C or higher. The CEC value, BET surface area and pore volume for the synthesized product at optimal conditions were 250 cmol kg −1 , 249 m 2 g −1 and 0.46 cm 3 g −1 respectively, higher than coal fly ash based zeolite. Furthermore, when applied to Zn 2+ contaminated wastewater treatment, the synthesized product presented larger adsorption capacity and bond energy than coal fly ash based zeolite, and the adsorption isotherm data could be well described by Langmuir and Freundlich isotherm models. These results demonstrated that the special type of co-combustion ash from power plant is suitable for synthesizing high quality zeolite, and the products are suitable for heavy metal removal from wastewater.

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Section: Effect Of Naoh/ash Ratiomentioning

confidence: 75%

“…Many different types of zeolites have been synthesized from various waste ashes such as coal fly ash and MSW incineration ash using hydrothermal or fusion methods [8][9][10]. Zeolites possess the properties of ion exchange, selective adsorption and can be used as molecular sieves.…”

Section: Introductionmentioning

confidence: 99%

Effective utilization of waste ash from MSW and coal co-combustion power plant—Zeolite synthesis

Fan

Zhang

Zhu

et al. 2008

Journal of Hazardous Materials

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“…Ash from waste incinerators may be used as the starting material for the synthesis of zeolites such as gismondine or gmelite (Yang, Yang 1998;Miyake et al 2002), zeolite A and zeolite P (Miyake et al 2002;Tamura et al 2006;Sallam et al 2008). It is also possible to obtain zeolite materials from waste incineration slag (Chiang et al 2012) in this way, e.g.…”

Section: Introductionmentioning

confidence: 99%

Characteristics of Sorbent Products Obtained by the Alkaline Activation of Waste from Waste Incineration Plants

et al. 2017

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Abstract. In Poland, by 2020 430,000 Mg of hazardous waste will be formed annually by the combustion of waste. This waste must be properly managed so as not to endanger the environment. One promising way to manage selected waste is to process it in the synthesis of materials characterised by sorption properties. The results presented in this paper concern the possibility of producing sorbents from waste materials marked with codes 190112 and 190114, which came from two waste incineration plants in Poland. Alkaline activation was performed using two methods: a) hydrothermal, in a solution of 8 M NaOH at 75°C for 24 h; and b) in an autoclave, using a solution of 2 M NaOH at 140°C for 6 h. XRD analyses led to the identification of materials after synthesis of the following zeolite phases: analcime, chabazite and thomsonite. chabazite and analcime can be valuable absorbent materials.

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“…como componentes principales en un 70 u 80%), éstas han sido usadas comúnmente como materia prima para la síntesis de materiales de apariencia zeolítica (Lin et al, 1995;Murayama et al, 2002). En el caso de las cenizas volantes de RSU y, a pesar de tener unos contenidos de SiO 2 y Al 2 O 3 mucho menores (entre un 15 y un 30%), existen diversos estudios que han logrado sintetizarlas mediante procesos hidrotermales y de fusión (Yang, 1998;Miyake, 2002). Tanto la superficie específica, como la capacidad de intercambio de cationes se demostraron ser mayores en la zeolita producida utilizando cenizas volantes como materia prima que en comparación con éstas.…”

Section: Producción De Zeolitaunclassified

“…Aunque la capacidad de intercambio de cationes de la zeolita sintetizada (90meq/100g) es menor que la de la zeolita comercializada (200-300meq/100g), queda demostrada la viabilidad del uso cenizas volantes para la síntesis de zeolita. Sin embargo, una vez más, el problema medioambiental aparece al encontrarse en los líquidos residuales posteriores a la síntesis, altas concentraciones de metales pesados como Pb y Zn, lo cual haría necesario una serie de tratamientos adicionales antes de su eliminación definitiva (Yang, 1998).…”

Section: Producción De Zeolitaunclassified

Desarrollo de conglomerados con la incorporación de cenizas volantes procedentes de la incineración de residuos sólidos urbanos

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Synthesis of zeolites from municipal incinerator fly ash

Cited by 73 publications

References 8 publications

Effective utilization of waste ash from MSW and coal co-combustion power plant—Zeolite synthesis

Effective utilization of waste ash from MSW and coal co-combustion power plant—Zeolite synthesis

Characteristics of Sorbent Products Obtained by the Alkaline Activation of Waste from Waste Incineration Plants

Desarrollo de conglomerados con la incorporación de cenizas volantes procedentes de la incineración de residuos sólidos urbanos

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