Solid green biodiesel catalysts derived from coal fly ash
Autori
Stanković, MiroslavPavlović, Stefan
Marinković, Dalibor
Tišma, Marina
Gabrovska, Margarita
Nikolova, Dimitrinka
Poglavlje u monografiji (Objavljena verzija)
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
Coal fly ash (CFA) is generated during the combustion of coal for energy production. Many studies are based on its utilization as the most abundant, cheap
aluminosilicate industrial residue, which is recognized as a risk for the environment and human health. The present review is focused on CFA origin, chemical properties, and its catalytic application for biodiesel production. The aluminosilicate nature and the presence of rare earth elements make CFA suitable for different adsorption, catalytic, and extraction processes for obtaining valuable products including alternative fuels and pure elements. However, the presence of toxic elements is a potential environmental problem, which should be solved in order to avoid soil, water, and air pollution. The most used modification methods are alkali activation, hydrothermal, and thermal treatment that improve the structural, morphological, and textural properties. The active catalytic form could be obtained by impregnation or ion exchange me...thod. It was found that such synthesized materials have significant catalytic potential in the biofuel chemistry. In the case of biodiesel production, the high values of conversion or yield can be achieved under mild low-energy reaction conditions in the presence of low-cost waste-based catalysts.
Ključne reči:
coal fly ash / waste materials / zeolites / catalyst / transesterification / biodieselIzvor:
Renewable Energy – Resources, Challenges and Applications, 2020, 185-208Izdavač:
- IntechOpen
Finansiranje / projekti:
- Nanostrukturni funkcionalni i kompozitni materijali u katalitičkim i sorpcionim procesima (RS-45001)
Institucija/grupa
IHTMTY - CHAP AU - Stanković, Miroslav AU - Pavlović, Stefan AU - Marinković, Dalibor AU - Tišma, Marina AU - Gabrovska, Margarita AU - Nikolova, Dimitrinka PY - 2020 UR - https://cer.ihtm.bg.ac.rs/handle/123456789/3743 AB - Coal fly ash (CFA) is generated during the combustion of coal for energy production. Many studies are based on its utilization as the most abundant, cheap aluminosilicate industrial residue, which is recognized as a risk for the environment and human health. The present review is focused on CFA origin, chemical properties, and its catalytic application for biodiesel production. The aluminosilicate nature and the presence of rare earth elements make CFA suitable for different adsorption, catalytic, and extraction processes for obtaining valuable products including alternative fuels and pure elements. However, the presence of toxic elements is a potential environmental problem, which should be solved in order to avoid soil, water, and air pollution. The most used modification methods are alkali activation, hydrothermal, and thermal treatment that improve the structural, morphological, and textural properties. The active catalytic form could be obtained by impregnation or ion exchange method. It was found that such synthesized materials have significant catalytic potential in the biofuel chemistry. In the case of biodiesel production, the high values of conversion or yield can be achieved under mild low-energy reaction conditions in the presence of low-cost waste-based catalysts. PB - IntechOpen T2 - Renewable Energy – Resources, Challenges and Applications T1 - Solid green biodiesel catalysts derived from coal fly ash SP - 185 EP - 208 DO - 10.5772/intechopen.91703 ER -
@inbook{ author = "Stanković, Miroslav and Pavlović, Stefan and Marinković, Dalibor and Tišma, Marina and Gabrovska, Margarita and Nikolova, Dimitrinka", year = "2020", abstract = "Coal fly ash (CFA) is generated during the combustion of coal for energy production. Many studies are based on its utilization as the most abundant, cheap aluminosilicate industrial residue, which is recognized as a risk for the environment and human health. The present review is focused on CFA origin, chemical properties, and its catalytic application for biodiesel production. The aluminosilicate nature and the presence of rare earth elements make CFA suitable for different adsorption, catalytic, and extraction processes for obtaining valuable products including alternative fuels and pure elements. However, the presence of toxic elements is a potential environmental problem, which should be solved in order to avoid soil, water, and air pollution. The most used modification methods are alkali activation, hydrothermal, and thermal treatment that improve the structural, morphological, and textural properties. The active catalytic form could be obtained by impregnation or ion exchange method. It was found that such synthesized materials have significant catalytic potential in the biofuel chemistry. In the case of biodiesel production, the high values of conversion or yield can be achieved under mild low-energy reaction conditions in the presence of low-cost waste-based catalysts.", publisher = "IntechOpen", journal = "Renewable Energy – Resources, Challenges and Applications", booktitle = "Solid green biodiesel catalysts derived from coal fly ash", pages = "185-208", doi = "10.5772/intechopen.91703" }
Stanković, M., Pavlović, S., Marinković, D., Tišma, M., Gabrovska, M.,& Nikolova, D.. (2020). Solid green biodiesel catalysts derived from coal fly ash. in Renewable Energy – Resources, Challenges and Applications IntechOpen., 185-208. https://doi.org/10.5772/intechopen.91703
Stanković M, Pavlović S, Marinković D, Tišma M, Gabrovska M, Nikolova D. Solid green biodiesel catalysts derived from coal fly ash. in Renewable Energy – Resources, Challenges and Applications. 2020;:185-208. doi:10.5772/intechopen.91703 .
Stanković, Miroslav, Pavlović, Stefan, Marinković, Dalibor, Tišma, Marina, Gabrovska, Margarita, Nikolova, Dimitrinka, "Solid green biodiesel catalysts derived from coal fly ash" in Renewable Energy – Resources, Challenges and Applications (2020):185-208, https://doi.org/10.5772/intechopen.91703 . .