TY  - JOUR
AU  - Fidanchevska, Emilija
AU  - Angjusheva, Biljana
AU  - Jovanov, Vojo
AU  - Murtanovski, Pece
AU  - Vladiceska, Ljubica
AU  - Stamatovska Aluloska, Nikolina
AU  - Krneta-Nikolić, Jelena D.
AU  - Ipavec, Andrej
AU  - Šter, Katarina
AU  - Mrak, Maruša
AU  - Dolenec, Sabina
PY  - 2021
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/9953
AB  - Huge quantities of fly ash and bottom ash are generated from thermal power plants and it presents great concern for country, mainly due to the environmental effects. In this study, fly ashes and bottom ash were characterized from technical and radiological aspects. Health effect due to the activity of radionuclides 226Ra, 232Th and 40K was estimated via radium equivalent activity (Raeq), external hazards index (Hex), the external absorbed dose rate (D) and annual effective dose rate (EDR). The specific surface area (40.25 m2 g−1), particle density (1.88 g cm−3) and LOI (23.49%) were typical for bottom ash. Siliceous fly ash contained 32% reactive silica. The annual effective dose rate for all ashes is ≤ 0.2 mSv y−1. Both, fly ash and bottom ash present potential secondary raw materials to be used for building purposes as result of their technological and radiological assessment.
T2  - Journal of Radioanalytical and Nuclear Chemistry
T1  - Technical and radiological characterisation of fly ash and bottom ash from thermal power plant
VL  - 330
IS  - 3
SP  - 685
EP  - 694
DO  - 10.1007/s10967-021-07980-w
ER  - 

@article{
author = "Fidanchevska, Emilija and Angjusheva, Biljana and Jovanov, Vojo and Murtanovski, Pece and Vladiceska, Ljubica and Stamatovska Aluloska, Nikolina and Krneta-Nikolić, Jelena D. and Ipavec, Andrej and Šter, Katarina and Mrak, Maruša and Dolenec, Sabina",
year = "2021",
abstract = "Huge quantities of fly ash and bottom ash are generated from thermal power plants and it presents great concern for country, mainly due to the environmental effects. In this study, fly ashes and bottom ash were characterized from technical and radiological aspects. Health effect due to the activity of radionuclides 226Ra, 232Th and 40K was estimated via radium equivalent activity (Raeq), external hazards index (Hex), the external absorbed dose rate (D) and annual effective dose rate (EDR). The specific surface area (40.25 m2 g−1), particle density (1.88 g cm−3) and LOI (23.49%) were typical for bottom ash. Siliceous fly ash contained 32% reactive silica. The annual effective dose rate for all ashes is ≤ 0.2 mSv y−1. Both, fly ash and bottom ash present potential secondary raw materials to be used for building purposes as result of their technological and radiological assessment.",
journal = "Journal of Radioanalytical and Nuclear Chemistry",
title = "Technical and radiological characterisation of fly ash and bottom ash from thermal power plant",
volume = "330",
number = "3",
pages = "685-694",
doi = "10.1007/s10967-021-07980-w"
}

Fidanchevska, E., Angjusheva, B., Jovanov, V., Murtanovski, P., Vladiceska, L., Stamatovska Aluloska, N., Krneta-Nikolić, J. D., Ipavec, A., Šter, K., Mrak, M.,& Dolenec, S.. (2021). Technical and radiological characterisation of fly ash and bottom ash from thermal power plant. in Journal of Radioanalytical and Nuclear Chemistry, 330(3), 685-694.
https://doi.org/10.1007/s10967-021-07980-w

Fidanchevska E, Angjusheva B, Jovanov V, Murtanovski P, Vladiceska L, Stamatovska Aluloska N, Krneta-Nikolić JD, Ipavec A, Šter K, Mrak M, Dolenec S. Technical and radiological characterisation of fly ash and bottom ash from thermal power plant. in Journal of Radioanalytical and Nuclear Chemistry. 2021;330(3):685-694.
doi:10.1007/s10967-021-07980-w .

Fidanchevska, Emilija, Angjusheva, Biljana, Jovanov, Vojo, Murtanovski, Pece, Vladiceska, Ljubica, Stamatovska Aluloska, Nikolina, Krneta-Nikolić, Jelena D., Ipavec, Andrej, Šter, Katarina, Mrak, Maruša, Dolenec, Sabina, "Technical and radiological characterisation of fly ash and bottom ash from thermal power plant" in Journal of Radioanalytical and Nuclear Chemistry, 330, no. 3 (2021):685-694,
https://doi.org/10.1007/s10967-021-07980-w . .

TY  - BOOK
AU  - Dolenec, Sabina
AU  - Malovrh Rebec, Katja
AU  - Lešek, Anja
AU  - Šter, Katarina
AU  - Žibret, Lea
AU  - Žibret, Gorazd
AU  - Teran, Klemen
AU  - Pučko, Emil
AU  - Merta, Ildikó
AU  - Poletanovic, Bojan
AU  - Yaneva, Elena
AU  - Kesserű, Peter
AU  - Kovács, Ildikó
AU  - Kószó, Bence
AU  - Németh, Alexandra
AU  - Laucournet, Richard
AU  - Hadžalić, Mustafa
AU  - Fidanchevski, Emilija
AU  - Angjusheva, Biljana
AU  - Jovanov, Vojo
AU  - Nenadović, Miloš
AU  - Nenadović, Snežana
AU  - Vukanac, Ivana
AU  - Kljajević, Ljiljana M.
AU  - Loncnar, Mojca
AU  - Ipavec, Andrej
PY  - 2020
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/10182
AB  - Our society can no longer be imagined without its modern infrastructure, which is inevitably based
on the use of various mineral and metallic materials and requires a high energy consumption.
Parallel to the production of materials, as well as the production of electricity, huge amounts of
various industrial and mining residues (waste/by-product) are generated and many of them are
sent to landfill. The European Union (EU) aims to increase resource efficiency and the supply of
”secondary raw materials“ through recycling [1], inventory of waste from extractive industries [2],
and waste prevention, waste re-use and material recycling [3].
Much of the industrial and mining waste is enriched with aluminium (Al) and therefore has a
potential to replace natural sources of Al in mineral binders with a high Al demand. However,
the use of industrial residue in mineral binders requires an extensive knowledge of its chemical
composition, including potential hazardous components (e.g. mercury), mineral composition,
organic content, radioactivity and physical properties (moisture content, density, etc.).
This manual addresses the legislative aspects, governing the use of secondary raw materials
in construction products, description of the most common Al-containing industrial and mining
residue (bauxite deposits, red mud, ferrous slag, ash and some other by products from industry),
potentiality for their reutilisation and its economic aspects, potential requirements/barriers for the
use of secondary raw materials in the cement industry and a description of belite-sulfoaluminate
cements, which are a promising solution for implementing the circular economy through the
use of large amounts of landfilled Al-rich industrial residue and mining waste cement clinker raw
mixture.
This manual was prepared by partners of the RIS-ALiCE project. It provides a popular content,
which targets relevant stakeholders as well as the wider society. Moreover, it offers education
material for undergraduate, master and PhD students.
PB  - Slovenian National Building and Civil Engineering Institute
T1  - Manual for use of Al-containing residues in low-carbon mineral binders
SP  - 122
UR  - https://hdl.handle.net/21.15107/rcub_vinar_10182
ER  - 

@book{
editor = "Dolenec, Sabina, Fidanchevski, Emilija, Šter, Katarina, Žibret, Lea",
author = "Dolenec, Sabina and Malovrh Rebec, Katja and Lešek, Anja and Šter, Katarina and Žibret, Lea and Žibret, Gorazd and Teran, Klemen and Pučko, Emil and Merta, Ildikó and Poletanovic, Bojan and Yaneva, Elena and Kesserű, Peter and Kovács, Ildikó and Kószó, Bence and Németh, Alexandra and Laucournet, Richard and Hadžalić, Mustafa and Fidanchevski, Emilija and Angjusheva, Biljana and Jovanov, Vojo and Nenadović, Miloš and Nenadović, Snežana and Vukanac, Ivana and Kljajević, Ljiljana M. and Loncnar, Mojca and Ipavec, Andrej",
year = "2020",
abstract = "Our society can no longer be imagined without its modern infrastructure, which is inevitably based
on the use of various mineral and metallic materials and requires a high energy consumption.
Parallel to the production of materials, as well as the production of electricity, huge amounts of
various industrial and mining residues (waste/by-product) are generated and many of them are
sent to landfill. The European Union (EU) aims to increase resource efficiency and the supply of
”secondary raw materials“ through recycling [1], inventory of waste from extractive industries [2],
and waste prevention, waste re-use and material recycling [3].
Much of the industrial and mining waste is enriched with aluminium (Al) and therefore has a
potential to replace natural sources of Al in mineral binders with a high Al demand. However,
the use of industrial residue in mineral binders requires an extensive knowledge of its chemical
composition, including potential hazardous components (e.g. mercury), mineral composition,
organic content, radioactivity and physical properties (moisture content, density, etc.).
This manual addresses the legislative aspects, governing the use of secondary raw materials
in construction products, description of the most common Al-containing industrial and mining
residue (bauxite deposits, red mud, ferrous slag, ash and some other by products from industry),
potentiality for their reutilisation and its economic aspects, potential requirements/barriers for the
use of secondary raw materials in the cement industry and a description of belite-sulfoaluminate
cements, which are a promising solution for implementing the circular economy through the
use of large amounts of landfilled Al-rich industrial residue and mining waste cement clinker raw
mixture.
This manual was prepared by partners of the RIS-ALiCE project. It provides a popular content,
which targets relevant stakeholders as well as the wider society. Moreover, it offers education
material for undergraduate, master and PhD students.",
publisher = "Slovenian National Building and Civil Engineering Institute",
title = "Manual for use of Al-containing residues in low-carbon mineral binders",
pages = "122",
url = "https://hdl.handle.net/21.15107/rcub_vinar_10182"
}

Dolenec, S., Fidanchevski, E., Šter, K., Žibret, L., Dolenec, S., Malovrh Rebec, K., Lešek, A., Šter, K., Žibret, L., Žibret, G., Teran, K., Pučko, E., Merta, I., Poletanovic, B., Yaneva, E., Kesserű, P., Kovács, I., Kószó, B., Németh, A., Laucournet, R., Hadžalić, M., Fidanchevski, E., Angjusheva, B., Jovanov, V., Nenadović, M., Nenadović, S., Vukanac, I., Kljajević, L. M., Loncnar, M.,& Ipavec, A.. (2020). Manual for use of Al-containing residues in low-carbon mineral binders. 
Slovenian National Building and Civil Engineering Institute., 122.
https://hdl.handle.net/21.15107/rcub_vinar_10182

Dolenec S, Fidanchevski E, Šter K, Žibret L, Dolenec S, Malovrh Rebec K, Lešek A, Šter K, Žibret L, Žibret G, Teran K, Pučko E, Merta I, Poletanovic B, Yaneva E, Kesserű P, Kovács I, Kószó B, Németh A, Laucournet R, Hadžalić M, Fidanchevski E, Angjusheva B, Jovanov V, Nenadović M, Nenadović S, Vukanac I, Kljajević LM, Loncnar M, Ipavec A. Manual for use of Al-containing residues in low-carbon mineral binders. 2020;:122.
https://hdl.handle.net/21.15107/rcub_vinar_10182 .

Dolenec, Sabina, Fidanchevski, Emilija, Šter, Katarina, Žibret, Lea, Dolenec, Sabina, Malovrh Rebec, Katja, Lešek, Anja, Šter, Katarina, Žibret, Lea, Žibret, Gorazd, Teran, Klemen, Pučko, Emil, Merta, Ildikó, Poletanovic, Bojan, Yaneva, Elena, Kesserű, Peter, Kovács, Ildikó, Kószó, Bence, Németh, Alexandra, Laucournet, Richard, Hadžalić, Mustafa, Fidanchevski, Emilija, Angjusheva, Biljana, Jovanov, Vojo, Nenadović, Miloš, Nenadović, Snežana, Vukanac, Ivana, Kljajević, Ljiljana M., Loncnar, Mojca, Ipavec, Andrej, "Manual for use of Al-containing residues in low-carbon mineral binders" (2020):122,
https://hdl.handle.net/21.15107/rcub_vinar_10182 .