Abstract
Fly ash from fossil fuel power plants, municipal waste incinerators and refuse fueled boilers is now being utilized as road construction material. With the aim of facilitating health risk assessments of this practice by providing a sound basis for thorough toxicological examinations, this paper reports on a study in which the crystalline and amorphous constituents of fly ash, according to type of combustion plant and fuel, were identified and analyzed by the use of various analytical techniques which included: scanning electron microscopy, transmission electron microscopy, X-ray diffraction, and absorption, X-ray, and energy loss spectroscopy.
Paoletti, L;
Diociaiuti, M;
[1]
Ziemacki, G;
Viviano, G;
[2]
Gianfagna, A
[3]
- Istituto Superiore di Sanita, Rome (Italy). Lab. di Ultrastrutture
- Istituto Superiore di Sanita, Rome (Italy). Lab. di Igiene Ambientale
- Rome Univ. (Italy). Dipt. di Scienze della Terra
Citation Formats
Paoletti, L, Diociaiuti, M, Ziemacki, G, Viviano, G, and Gianfagna, A.
Fly ash: Chemical-physical and mineralogical characterization; Caratterizzazione chimico-fisica e mineralogica delle scorie prodotte da impianti di combustione.
Italy: N. p.,
1992.
Web.
Paoletti, L, Diociaiuti, M, Ziemacki, G, Viviano, G, & Gianfagna, A.
Fly ash: Chemical-physical and mineralogical characterization; Caratterizzazione chimico-fisica e mineralogica delle scorie prodotte da impianti di combustione.
Italy.
Paoletti, L, Diociaiuti, M, Ziemacki, G, Viviano, G, and Gianfagna, A.
1992.
"Fly ash: Chemical-physical and mineralogical characterization; Caratterizzazione chimico-fisica e mineralogica delle scorie prodotte da impianti di combustione."
Italy.
@misc{etde_10137885,
title = {Fly ash: Chemical-physical and mineralogical characterization; Caratterizzazione chimico-fisica e mineralogica delle scorie prodotte da impianti di combustione}
author = {Paoletti, L, Diociaiuti, M, Ziemacki, G, Viviano, G, and Gianfagna, A}
abstractNote = {Fly ash from fossil fuel power plants, municipal waste incinerators and refuse fueled boilers is now being utilized as road construction material. With the aim of facilitating health risk assessments of this practice by providing a sound basis for thorough toxicological examinations, this paper reports on a study in which the crystalline and amorphous constituents of fly ash, according to type of combustion plant and fuel, were identified and analyzed by the use of various analytical techniques which included: scanning electron microscopy, transmission electron microscopy, X-ray diffraction, and absorption, X-ray, and energy loss spectroscopy.}
place = {Italy}
year = {1992}
month = {Dec}
}
title = {Fly ash: Chemical-physical and mineralogical characterization; Caratterizzazione chimico-fisica e mineralogica delle scorie prodotte da impianti di combustione}
author = {Paoletti, L, Diociaiuti, M, Ziemacki, G, Viviano, G, and Gianfagna, A}
abstractNote = {Fly ash from fossil fuel power plants, municipal waste incinerators and refuse fueled boilers is now being utilized as road construction material. With the aim of facilitating health risk assessments of this practice by providing a sound basis for thorough toxicological examinations, this paper reports on a study in which the crystalline and amorphous constituents of fly ash, according to type of combustion plant and fuel, were identified and analyzed by the use of various analytical techniques which included: scanning electron microscopy, transmission electron microscopy, X-ray diffraction, and absorption, X-ray, and energy loss spectroscopy.}
place = {Italy}
year = {1992}
month = {Dec}
}