Filipović Petrović, Leposava


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http://ritnms.itnms.ac.rs/APP/faces/author.xhtml?author_id=cd57e40b-870a-48a6-9374-386bd48b0fcb&item_offset=0&project_offset=0&sort_by=dc.date.issued

Authority Key	Name Variants
cd57e40b-870a-48a6-9374-386bd48b0fcb	Filipović Petrović, Leposava (2) Filipović -Petrović, Leposava (1) Filipović-Petrović, Leposava (1)

Projects

Development of technologies and products based on mineral raw materials and waste biomass for protection of natural resources for safe food production	Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 200023 (Institute of Technology of Nuclear and Other Mineral Row Materials - ITNMS, Belgrade)
Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 200125 (University of Novi Sad, Faculty of Science)

Author's Bibliography

Physico-chemical, technological and radiological characteristics of kaolinized granite from Northwestern Serbia

Kuzmanović, Predrag; Filipović Petrović, Leposava; Petrović, Jelena; Forkapić, Sofija; Hansman, Jan; Velimirović, Danijel; Knežević Radić, Jovana

(Elsevier, 2024)

TY - JOUR
AU - Kuzmanović, Predrag
AU - Filipović Petrović, Leposava
AU - Petrović, Jelena
AU - Forkapić, Sofija
AU - Hansman, Jan
AU - Velimirović, Danijel
AU - Knežević Radić, Jovana
PY - 2024
UR - https://ritnms.itnms.ac.rs/handle/123456789/1256
AB - In the ceramic industry, the quality of the final ceramic tile as well as the possibility of its use depends on the quality and characteristics of the starting raw materials. One of the potential raw materials that can be used in the production of ceramic tiles is kaolinized granite, and it is necessary to examine its characteristics. In this research, the kaolinized granite of the Jadar block, northwestern Serbia, from the Beli Majdan surface mine, Jadranska Lešnica, was examined. Chemical analysis, X-ray diffraction analysis (XRD), and differential thermal analysis (DTA) were carried out. Ignition tests of the prepared composites were also conducted at three selected temperatures (1000, 1100, and 1250°C), where total linear shrinkage and water absorption were determined. The activity concentrations of natural radionuclides and the artificial radionuclide 137Cs were determined using the gamma spectrometry method, and then the radiation risk for the external exposure of workers when working with this raw material was assessed. For the samples with the highest content of 226Ra, radon exhalation measurements were performed with the RAD7 device, and the values of the radon emanation coefficient were determined, as well as the values of alpha dose equivalents, which quantified the potential internal exposure of workers. The results of the chemical analysis showed that the content of Al2O3 in the examined composites ranged from 19.11-21.00%, and the content of Fe2O3 from 1.53-1.72%. Additionally, the K2O content in the tested composites ranges from 4.01-5.46%, which indicates the presence of K-feldspar and muscovite, and the Na2O content from 1.82-2.61%. Based on XRD analysis, it was established that the mineral composition of kaolinized granite includes quartz, feldspar, mica, calcite/dolomite, and kaolinite minerals. DTA analysis indicates the occurrence of minor endothermic processes at 488.05°C and 558.12°C, as well as an exothermic process at 980.8°C. The color of the ignition is brick red to dark brown red. A trend of increasing linear shrinkage and decreasing water absorption with increasing ignition temperature was observed with the normal appearance of the samples. The average activity concentration of natural radionuclides are around and below the average values for building materials, expect for 40K. The values for 137Cs are below the values measured in soil. Annual effective doses estimated for external exposure are below 1 mSv y-1, which indicates that there is no increased radiation risk when working with this raw material. The values of the radon mass exhalation rate are in the range of 61-113 mBq kg-1 h-1, and the values of the radon emanation coefficient are 6.3-8.4%. The average value of the alpha dose equivalent is 1mSvy-1, which indicates a potential exposure to radon below 100 Bq m-3. Based on the obtained results, it can be concluded that kaolinized granite is a high-quality and radiologically safe raw material for making ceramic composites in the production of ceramic tiles. It has all the necessary characteristics to partially or completely replace feldspar in ceramic composites.
PB - Elsevier
T2 - Radiation Physics and Chemistry
T1 - Physico-chemical, technological and radiological characteristics of kaolinized granite from Northwestern Serbia
IS - 111885
VL - 222
DO - 10.1016/j.radphyschem.2024.111885
ER -

@article{
author = "Kuzmanović, Predrag and Filipović Petrović, Leposava and Petrović, Jelena and Forkapić, Sofija and Hansman, Jan and Velimirović, Danijel and Knežević Radić, Jovana",
year = "2024",
abstract = "In the ceramic industry, the quality of the final ceramic tile as well as the possibility of its use depends on the quality and characteristics of the starting raw materials. One of the potential raw materials that can be used in the production of ceramic tiles is kaolinized granite, and it is necessary to examine its characteristics. In this research, the kaolinized granite of the Jadar block, northwestern Serbia, from the Beli Majdan surface mine, Jadranska Lešnica, was examined. Chemical analysis, X-ray diffraction analysis (XRD), and differential thermal analysis (DTA) were carried out. Ignition tests of the prepared composites were also conducted at three selected temperatures (1000, 1100, and 1250°C), where total linear shrinkage and water absorption were determined. The activity concentrations of natural radionuclides and the artificial radionuclide 137Cs were determined using the gamma spectrometry method, and then the radiation risk for the external exposure of workers when working with this raw material was assessed. For the samples with the highest content of 226Ra, radon exhalation measurements were performed with the RAD7 device, and the values of the radon emanation coefficient were determined, as well as the values of alpha dose equivalents, which quantified the potential internal exposure of workers. The results of the chemical analysis showed that the content of Al2O3 in the examined composites ranged from 19.11-21.00%, and the content of Fe2O3 from 1.53-1.72%. Additionally, the K2O content in the tested composites ranges from 4.01-5.46%, which indicates the presence of K-feldspar and muscovite, and the Na2O content from 1.82-2.61%. Based on XRD analysis, it was established that the mineral composition of kaolinized granite includes quartz, feldspar, mica, calcite/dolomite, and kaolinite minerals. DTA analysis indicates the occurrence of minor endothermic processes at 488.05°C and 558.12°C, as well as an exothermic process at 980.8°C. The color of the ignition is brick red to dark brown red. A trend of increasing linear shrinkage and decreasing water absorption with increasing ignition temperature was observed with the normal appearance of the samples. The average activity concentration of natural radionuclides are around and below the average values for building materials, expect for 40K. The values for 137Cs are below the values measured in soil. Annual effective doses estimated for external exposure are below 1 mSv y-1, which indicates that there is no increased radiation risk when working with this raw material. The values of the radon mass exhalation rate are in the range of 61-113 mBq kg-1 h-1, and the values of the radon emanation coefficient are 6.3-8.4%. The average value of the alpha dose equivalent is 1mSvy-1, which indicates a potential exposure to radon below 100 Bq m-3. Based on the obtained results, it can be concluded that kaolinized granite is a high-quality and radiologically safe raw material for making ceramic composites in the production of ceramic tiles. It has all the necessary characteristics to partially or completely replace feldspar in ceramic composites.",
publisher = "Elsevier",
journal = "Radiation Physics and Chemistry",
title = "Physico-chemical, technological and radiological characteristics of kaolinized granite from Northwestern Serbia",
number = "111885",
volume = "222",
doi = "10.1016/j.radphyschem.2024.111885"
}

Kuzmanović, P., Filipović Petrović, L., Petrović, J., Forkapić, S., Hansman, J., Velimirović, D.,& Knežević Radić, J.. (2024). Physico-chemical, technological and radiological characteristics of kaolinized granite from Northwestern Serbia. in Radiation Physics and Chemistry
Elsevier., 222(111885).
https://doi.org/10.1016/j.radphyschem.2024.111885

Kuzmanović P, Filipović Petrović L, Petrović J, Forkapić S, Hansman J, Velimirović D, Knežević Radić J. Physico-chemical, technological and radiological characteristics of kaolinized granite from Northwestern Serbia. in Radiation Physics and Chemistry. 2024;222(111885).
doi:10.1016/j.radphyschem.2024.111885 .

Kuzmanović, Predrag, Filipović Petrović, Leposava, Petrović, Jelena, Forkapić, Sofija, Hansman, Jan, Velimirović, Danijel, Knežević Radić, Jovana, "Physico-chemical, technological and radiological characteristics of kaolinized granite from Northwestern Serbia" in Radiation Physics and Chemistry, 222, no. 111885 (2024),
https://doi.org/10.1016/j.radphyschem.2024.111885 . .

Characteristics and physical-mechanical properties of kaoliniyed granite

Filipović Petrović, Leposava; Kuzmanović, Predrag; Antonijević, Nikolić; Popović, Kosana; Petrović, Jelena; Simić, Marija

(Zvornik : University of East Sarajevo, Faculty of Technology, 2021)

TY - CONF
AU - Filipović Petrović, Leposava
AU - Kuzmanović, Predrag
AU - Antonijević, Nikolić
AU - Popović, Kosana
AU - Petrović, Jelena
AU - Simić, Marija
PY - 2021
UR - https://ritnms.itnms.ac.rs/handle/123456789/912
AB - During the long geological past, the rocks of the Adriatic block were formed, which includes the rim of Cer and the Adriatic base. The rim of Cer is characterized by igneous rocks - granite, granodiorite and Paleozoic shale, while the Jadar basin is built of lake sediments that include mainly clay, sand, gravel, sandstone, sandy limestone. Some of these constituents are classified as kaolin raw materials. Kaolin raw materials can be formed during hydrothermal decomposition, kaolinization, which implies physical and chemical changes of various rocks of igneous origin, which contain feldspar and mica, such as granite. As the study of silicate raw materials used in the construction and ceramic industry is a very important and continuous problem, within this paper a more detailed chemical-mineralogical-physical characterization of four kaolinized granite composites (KI, KII, KIII and KIV) from the Beli Majdan deposit-Jadranska Lešnica. Kaolinized granites are formed by subvolcanic decay of granite. In technological terms, these are weakly bound rocks, which are comminuted into smaller aggregates by the grinding process. The techniques used in this study to examine kaolinized granite composite samples included chemical analysis, X-ray diffraction (X-ray), differential thermal analysis (DTA), and ignition tests at three selected temperatures (1000, 1100, and 1250°C). Based on X-ray analysis, it can be concluded that the mineral composition of the kaolinized granite composite "Beli Majdan"-Jadranska Lešnica includes quartz, feldspar, mica, calcite/dolomite and clay minerals. The most common minerals are quartz and feldspar (aluminosilicate containing cations of alkali and alkaline earth metals). Minerals from the mica group as well as carbonates (Ca and Mg) occur in smaller quantities. The results of chemical analysis showed that the Al2O3 content in the tested composites ranged from 19.02 to 21.04%, and the Fe2O3 content from 1.48 to 1.65%. Additionally, the K2O content in the tested composites ranges from 5.32 to 6.45%, which indicates the presence of k-feldspar and muscovite, and the Na2O content from 1.78 to 2.64%. The results of DTA analysis in all four composites indicated the presence of quartz and clay minerals. The ignition color is from brick red to dark brown red. Based on the obtained experimental results, it can be concluded that kaolinized granite "Beli Majdan"-Jadranska Lešnica is a quality raw material for composing ceramic masses in the production of ceramic tiles. It acts as a solvent and can partially or completely replace feldspar in ceramic masses.
PB - Zvornik : University of East Sarajevo, Faculty of Technology
C3 - VII INTERNATIONAL CONGRESS OF ENGINEERING, ENVIRONMENT AND MATERIALS IN PROCESS INDUSTRY EEM2021
T1 - Characteristics and physical-mechanical properties of kaoliniyed granite
EP - 333
SP - 326
ER -

@conference{
author = "Filipović Petrović, Leposava and Kuzmanović, Predrag and Antonijević, Nikolić and Popović, Kosana and Petrović, Jelena and Simić, Marija",
year = "2021",
abstract = "During the long geological past, the rocks of the Adriatic block were formed, which includes the rim of Cer and the Adriatic base. The rim of Cer is characterized by igneous rocks - granite, granodiorite and Paleozoic shale, while the Jadar basin is built of lake sediments that include mainly clay, sand, gravel, sandstone, sandy limestone. Some of these constituents are classified as kaolin raw materials. Kaolin raw materials can be formed during hydrothermal decomposition, kaolinization, which implies physical and chemical changes of various rocks of igneous origin, which contain feldspar and mica, such as granite. As the study of silicate raw materials used in the construction and ceramic industry is a very important and continuous problem, within this paper a more detailed chemical-mineralogical-physical characterization of four kaolinized granite composites (KI, KII, KIII and KIV) from the Beli Majdan deposit-Jadranska Lešnica. Kaolinized granites are formed by subvolcanic decay of granite. In technological terms, these are weakly bound rocks, which are comminuted into smaller aggregates by the grinding process. The techniques used in this study to examine kaolinized granite composite samples included chemical analysis, X-ray diffraction (X-ray), differential thermal analysis (DTA), and ignition tests at three selected temperatures (1000, 1100, and 1250°C). Based on X-ray analysis, it can be concluded that the mineral composition of the kaolinized granite composite "Beli Majdan"-Jadranska Lešnica includes quartz, feldspar, mica, calcite/dolomite and clay minerals. The most common minerals are quartz and feldspar (aluminosilicate containing cations of alkali and alkaline earth metals). Minerals from the mica group as well as carbonates (Ca and Mg) occur in smaller quantities. The results of chemical analysis showed that the Al2O3 content in the tested composites ranged from 19.02 to 21.04%, and the Fe2O3 content from 1.48 to 1.65%. Additionally, the K2O content in the tested composites ranges from 5.32 to 6.45%, which indicates the presence of k-feldspar and muscovite, and the Na2O content from 1.78 to 2.64%. The results of DTA analysis in all four composites indicated the presence of quartz and clay minerals. The ignition color is from brick red to dark brown red. Based on the obtained experimental results, it can be concluded that kaolinized granite "Beli Majdan"-Jadranska Lešnica is a quality raw material for composing ceramic masses in the production of ceramic tiles. It acts as a solvent and can partially or completely replace feldspar in ceramic masses.",
publisher = "Zvornik : University of East Sarajevo, Faculty of Technology",
journal = "VII INTERNATIONAL CONGRESS OF ENGINEERING, ENVIRONMENT AND MATERIALS IN PROCESS INDUSTRY EEM2021",
title = "Characteristics and physical-mechanical properties of kaoliniyed granite",
pages = "333-326"
}

Filipović Petrović, L., Kuzmanović, P., Antonijević, N., Popović, K., Petrović, J.,& Simić, M.. (2021). Characteristics and physical-mechanical properties of kaoliniyed granite. in VII INTERNATIONAL CONGRESS OF ENGINEERING, ENVIRONMENT AND MATERIALS IN PROCESS INDUSTRY EEM2021
Zvornik : University of East Sarajevo, Faculty of Technology., 326-333.

Filipović Petrović L, Kuzmanović P, Antonijević N, Popović K, Petrović J, Simić M. Characteristics and physical-mechanical properties of kaoliniyed granite. in VII INTERNATIONAL CONGRESS OF ENGINEERING, ENVIRONMENT AND MATERIALS IN PROCESS INDUSTRY EEM2021. 2021;:326-333..

Filipović Petrović, Leposava, Kuzmanović, Predrag, Antonijević, Nikolić, Popović, Kosana, Petrović, Jelena, Simić, Marija, "Characteristics and physical-mechanical properties of kaoliniyed granite" in VII INTERNATIONAL CONGRESS OF ENGINEERING, ENVIRONMENT AND MATERIALS IN PROCESS INDUSTRY EEM2021 (2021):326-333.

Fuel potential and properties of grape pomace hydrochar

Petrović, Jelena; Mihajlović, Marija; Petrović, Marija; Kojić, Marija; Koprivica, Marija; Šoštarić, Tatjana; Filipović -Petrović, Leposava

(Novi Sad : University of Novi Sad, Faculty of Technology, 2019)

TY - CONF
AU - Petrović, Jelena
AU - Mihajlović, Marija
AU - Petrović, Marija
AU - Kojić, Marija
AU - Koprivica, Marija
AU - Šoštarić, Tatjana
AU - Filipović -Petrović, Leposava
PY - 2019
UR - https://ritnms.itnms.ac.rs/handle/123456789/902
AB - Increasing fossil fuel depletion that leads to air pollution and global warming have become
serious environmental problem. For this reason, a numerous of alternative biofuels have been
developed and investigated as potential energy sources to substitute them. One of promising
and highly effective technology for conversion of wet and waste biomass into multi-functional
materials is a hydrothermal carbonization. In this study grape pomace was hydrothermally
carbonized at different temperatures (180, 200 and 220 °C). Produced hydrochars were
characterized in order to investigate its potential application as alternative and energy-efficient
renewable fuels. The carbon, fixed carbon, sulfur and volatile matter contents were determined
in all hydrochar samples. Obtained results showed that temperatures play significant role on the
structural characteristics of produced materials. As expected, the carbon content and fixed
carbon content in hydrochars were increased with temperature increasing (Table 1). Higher
yields of carbon and fixed carbon observed in hydrochars indicated that intensive carbonization
of biomass occurred. On the contrary, sulfur and volatile matter content were decreased.
Observed reduction may be a result of dehydration and decarboxylation of grape pomace during
hydrothermal treatment. These reductions are highly beneficial and improve the efficiency of
solids’ direct combustion. Decreased volatile matter content can potentially reduce the release
of inorganic vapors and pollutant emission during combustion, while decreased sulfur content
preventing generation and emission of harmful sulfur oxides, SOx, compared to the parent
biomass. The present study showed that hydrothermal carbonization improved fuel qualities
and potential of grape pomace hydrochars among different reaction temperatures.
PB - Novi Sad : University of Novi Sad, Faculty of Technology
C3 - 1st International Conference on Advanced Production and Processing
T1 - Fuel potential and properties of grape pomace hydrochar
EP - 273
SP - 273
ER -

@conference{
author = "Petrović, Jelena and Mihajlović, Marija and Petrović, Marija and Kojić, Marija and Koprivica, Marija and Šoštarić, Tatjana and Filipović -Petrović, Leposava",
year = "2019",
abstract = "Increasing fossil fuel depletion that leads to air pollution and global warming have become
serious environmental problem. For this reason, a numerous of alternative biofuels have been
developed and investigated as potential energy sources to substitute them. One of promising
and highly effective technology for conversion of wet and waste biomass into multi-functional
materials is a hydrothermal carbonization. In this study grape pomace was hydrothermally
carbonized at different temperatures (180, 200 and 220 °C). Produced hydrochars were
characterized in order to investigate its potential application as alternative and energy-efficient
renewable fuels. The carbon, fixed carbon, sulfur and volatile matter contents were determined
in all hydrochar samples. Obtained results showed that temperatures play significant role on the
structural characteristics of produced materials. As expected, the carbon content and fixed
carbon content in hydrochars were increased with temperature increasing (Table 1). Higher
yields of carbon and fixed carbon observed in hydrochars indicated that intensive carbonization
of biomass occurred. On the contrary, sulfur and volatile matter content were decreased.
Observed reduction may be a result of dehydration and decarboxylation of grape pomace during
hydrothermal treatment. These reductions are highly beneficial and improve the efficiency of
solids’ direct combustion. Decreased volatile matter content can potentially reduce the release
of inorganic vapors and pollutant emission during combustion, while decreased sulfur content
preventing generation and emission of harmful sulfur oxides, SOx, compared to the parent
biomass. The present study showed that hydrothermal carbonization improved fuel qualities
and potential of grape pomace hydrochars among different reaction temperatures.",
publisher = "Novi Sad : University of Novi Sad, Faculty of Technology",
journal = "1st International Conference on Advanced Production and Processing",
title = "Fuel potential and properties of grape pomace hydrochar",
pages = "273-273"
}

Petrović, J., Mihajlović, M., Petrović, M., Kojić, M., Koprivica, M., Šoštarić, T.,& Filipović -Petrović, L.. (2019). Fuel potential and properties of grape pomace hydrochar. in 1st International Conference on Advanced Production and Processing
Novi Sad : University of Novi Sad, Faculty of Technology., 273-273.

Petrović J, Mihajlović M, Petrović M, Kojić M, Koprivica M, Šoštarić T, Filipović -Petrović L. Fuel potential and properties of grape pomace hydrochar. in 1st International Conference on Advanced Production and Processing. 2019;:273-273..

Petrović, Jelena, Mihajlović, Marija, Petrović, Marija, Kojić, Marija, Koprivica, Marija, Šoštarić, Tatjana, Filipović -Petrović, Leposava, "Fuel potential and properties of grape pomace hydrochar" in 1st International Conference on Advanced Production and Processing (2019):273-273.

Fuel potential and properties of grape pomace hydrochar

Petrović, Jelena; Mihajlović, Marija; Petrović, Marija; Kojić, Marija; Koprivica, Marija; Filipović-Petrović, Leposava

(Novi Sad : University of Novi Sad, Faculty of Technology, 2019)

TY - JOUR
AU - Petrović, Jelena
AU - Mihajlović, Marija
AU - Petrović, Marija
AU - Kojić, Marija
AU - Koprivica, Marija
AU - Filipović-Petrović, Leposava
PY - 2019
UR - https://ritnms.itnms.ac.rs/handle/123456789/842
AB - Increasing fossil fuel depletion that leads to air pollution and global warming have become
serious environmental problem. For this reason, a numerous of alternative biofuels have been developed
and investigated as potential energy sources to substitute them. One of promising and
highly effective technology for conversion of wet and waste biomass into multi-functional materials
is a hydrothermal carbonization. In this study grape pomace was hydrothermally carbonized at different
temperatures (180, 200 and 220 °C). Produced hydrochars were characterized in order to
investigate its potential application as an alternative and energy-efficient renewable fuels. The carbon,
fixed carbon, sulphur and volatile matter contents were determined in all hydrochar samples.
Obtained results showed that temperatures play significant role on the structural characteristics of
produced materials. As expected, the carbon content and fixed carbon content in hydrochars were
increased with temperature increasing. Higher yields of carbon and fixed carbon observed in hydrochars
indicated that intensive carbonization of biomass occurred. On the contrary, sulphur and
volatile matter content were decreased. Observed reduction may be a result of dehydration and
decarboxylation of grape pomace during hydrothermal treatment. These reductions are highly beneficial
and improve the efficiency of solids’ direct combustion. Decreased volatile matter content
can potentially reduce the release of inorganic vapours and pollutant emission during combustion,
while decreased sulphur content preventing generation and emission of harmful sulphur oxides,
SOx, compared to the parent biomass. The present study showed that hydrothermal carbonization
mproved fuel qualities and potential of grape pomace hydrochars among different reaction temperatures.
PB - Novi Sad : University of Novi Sad, Faculty of Technology
T2 - Acta Periodica Technologica
T1 - Fuel potential and properties of grape pomace hydrochar
EP - 209
IS - 50
SP - 204
DO - 10.2298/APT1950204P
ER -

@article{
author = "Petrović, Jelena and Mihajlović, Marija and Petrović, Marija and Kojić, Marija and Koprivica, Marija and Filipović-Petrović, Leposava",
year = "2019",
abstract = "Increasing fossil fuel depletion that leads to air pollution and global warming have become
serious environmental problem. For this reason, a numerous of alternative biofuels have been developed
and investigated as potential energy sources to substitute them. One of promising and
highly effective technology for conversion of wet and waste biomass into multi-functional materials
is a hydrothermal carbonization. In this study grape pomace was hydrothermally carbonized at different
temperatures (180, 200 and 220 °C). Produced hydrochars were characterized in order to
investigate its potential application as an alternative and energy-efficient renewable fuels. The carbon,
fixed carbon, sulphur and volatile matter contents were determined in all hydrochar samples.
Obtained results showed that temperatures play significant role on the structural characteristics of
produced materials. As expected, the carbon content and fixed carbon content in hydrochars were
increased with temperature increasing. Higher yields of carbon and fixed carbon observed in hydrochars
indicated that intensive carbonization of biomass occurred. On the contrary, sulphur and
volatile matter content were decreased. Observed reduction may be a result of dehydration and
decarboxylation of grape pomace during hydrothermal treatment. These reductions are highly beneficial
and improve the efficiency of solids’ direct combustion. Decreased volatile matter content
can potentially reduce the release of inorganic vapours and pollutant emission during combustion,
while decreased sulphur content preventing generation and emission of harmful sulphur oxides,
SOx, compared to the parent biomass. The present study showed that hydrothermal carbonization
mproved fuel qualities and potential of grape pomace hydrochars among different reaction temperatures.",
publisher = "Novi Sad : University of Novi Sad, Faculty of Technology",
journal = "Acta Periodica Technologica",
title = "Fuel potential and properties of grape pomace hydrochar",
pages = "209-204",
number = "50",
doi = "10.2298/APT1950204P"
}

Petrović, J., Mihajlović, M., Petrović, M., Kojić, M., Koprivica, M.,& Filipović-Petrović, L.. (2019). Fuel potential and properties of grape pomace hydrochar. in Acta Periodica Technologica
Novi Sad : University of Novi Sad, Faculty of Technology.(50), 204-209.
https://doi.org/10.2298/APT1950204P

Petrović J, Mihajlović M, Petrović M, Kojić M, Koprivica M, Filipović-Petrović L. Fuel potential and properties of grape pomace hydrochar. in Acta Periodica Technologica. 2019;(50):204-209.
doi:10.2298/APT1950204P .

Petrović, Jelena, Mihajlović, Marija, Petrović, Marija, Kojić, Marija, Koprivica, Marija, Filipović-Petrović, Leposava, "Fuel potential and properties of grape pomace hydrochar" in Acta Periodica Technologica, no. 50 (2019):204-209,
https://doi.org/10.2298/APT1950204P . .