Miškov Panić, Sofija P.


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http://TechnoRep.tmf.bg.ac.rs/APP/faces/author.xhtml?author_id=3a4519bb-fa5a-4860-b20e-2bc283533559&item_offset=0&project_offset=0&sort_by=dc.date.issued

Authority Key	Name Variants
3a4519bb-fa5a-4860-b20e-2bc283533559	Miškov Panić, Sofija P. (2)

Projects

Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 451-03-68/2020-14/200135 (University of Belgrade, Faculty of Technology and Metallurgy)	Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 451-03-68/2020-14/200287 (Innovation Center of the Faculty of Technology and Metallurgy)
United Nations Development Programme and Global Environment Fund (CIRCULAR VOUCHERS – Ref: 00123168/01-01)

Author's Bibliography

Waste to Energy: Food Waste Valorisation toward Biofuel Production

Ivaniš, Gorica R.; Simić, Zoran V.; Miškov Panić, Sofija P.; Kijevčanin, Mirjana Lj.; Radović, Ivona R.

(Ca'Foscari University of Venice, 2023)

TY - CONF
AU - Ivaniš, Gorica R.
AU - Simić, Zoran V.
AU - Miškov Panić, Sofija P.
AU - Kijevčanin, Mirjana Lj.
AU - Radović, Ivona R.
PY - 2023
UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/7396
AB - The uncontrolled and excessive use of fossil fuels is one of the main culprits for global warming due to the emission of greenhouse gases. Therefore, intensive work has been done to reduce the use of such fuels by replacing/adding biodiesel in transport sector since the use of biodiesel decreases the net emission of greenhouse gases by about 76 % than when using petroleum diesel (Ivaniš et al., 2016). On the other hand, the modern consumer lifestyle has led to the accumulation of large amounts of waste that additionally pollutes the soil and water, which indicates the necessity of a global transition from a linear to a circular economy where waste represents raw material. The disposal of used cooking oil is a huge problem because it is usually poured down drains, which leads to clogging of kitchen pipes and local sewage. Consequently, waste cooking oil drastically reduces the efficiency of wastewater treatment plants and is extremely harmful to the aquatic ecosystem. The reuse of used cooking oil in food is not recommended so other forms of recycling such as biodiesel production are preferred. Biodiesel is obtained by the transesterification reaction of vegetable oils with short-chain alcohol in the presence of a catalyst, and glycerine is produced as a side product. By applying heterogeneously catalysed transesterification reaction, such as the use of CaO as catalyst, the generation of waste during the purification of products is avoided. Eggshells are solid organic waste that is generally discarded without prior treatment, making it a hazardous waste. It is considered that the eggshell mainly (about 96 %) consists of CaCO₃, which offers the possibility of its revalorisation through CaO production (Waheed et al., 2020). As part of our research, waste hen’s eggshell was collected and annealed at 830 ̊C producing CaO, which was used as a catalyst in the biodiesel synthesis from used cooking oil. The thermodynamic and transport properties of the obtained biodiesel and crude glycerine were determined at wide ranges of temperature and pressure, which is relevant for their further use [1]. The measured properties of the obtained biodiesel meet the limits prescribed by the standard for biodiesel EN14214 which confirms that it can be used in diesel engines and heating applications. The obtained raw glycerine can be mixed with biomass residues and used in the production of pellets. In this way, the problem of accumulation of waste in the form of eggshells, used cooking oil and crude glycerine is solved and their revalorisation is carried out, which is fully in accordance with the postulates of the circular economy. Furthermore, biodiesel, as an environmentally friendly alternative to petroleum diesel, was obtained.
PB - Ca'Foscari University of Venice
C3 - Book of abstracts / 18th International Conference on Chemistry and the Environment – ICCE 2023, June 11-15, 2023, Venice, Italy
T1 - Waste to Energy: Food Waste Valorisation toward Biofuel Production
SP - 315
UR - https://hdl.handle.net/21.15107/rcub_technorep_7396
ER -

@conference{
author = "Ivaniš, Gorica R. and Simić, Zoran V. and Miškov Panić, Sofija P. and Kijevčanin, Mirjana Lj. and Radović, Ivona R.",
year = "2023",
abstract = "The uncontrolled and excessive use of fossil fuels is one of the main culprits for global warming due to the emission of greenhouse gases. Therefore, intensive work has been done to reduce the use of such fuels by replacing/adding biodiesel in transport sector since the use of biodiesel decreases the net emission of greenhouse gases by about 76 % than when using petroleum diesel (Ivaniš et al., 2016). On the other hand, the modern consumer lifestyle has led to the accumulation of large amounts of waste that additionally pollutes the soil and water, which indicates the necessity of a global transition from a linear to a circular economy where waste represents raw material. The disposal of used cooking oil is a huge problem because it is usually poured down drains, which leads to clogging of kitchen pipes and local sewage. Consequently, waste cooking oil drastically reduces the efficiency of wastewater treatment plants and is extremely harmful to the aquatic ecosystem. The reuse of used cooking oil in food is not recommended so other forms of recycling such as biodiesel production are preferred. Biodiesel is obtained by the transesterification reaction of vegetable oils with short-chain alcohol in the presence of a catalyst, and glycerine is produced as a side product. By applying heterogeneously catalysed transesterification reaction, such as the use of CaO as catalyst, the generation of waste during the purification of products is avoided. Eggshells are solid organic waste that is generally discarded without prior treatment, making it a hazardous waste. It is considered that the eggshell mainly (about 96 %) consists of CaCO₃, which offers the possibility of its revalorisation through CaO production (Waheed et al., 2020). As part of our research, waste hen’s eggshell was collected and annealed at 830 ̊C producing CaO, which was used as a catalyst in the biodiesel synthesis from used cooking oil. The thermodynamic and transport properties of the obtained biodiesel and crude glycerine were determined at wide ranges of temperature and pressure, which is relevant for their further use [1]. The measured properties of the obtained biodiesel meet the limits prescribed by the standard for biodiesel EN14214 which confirms that it can be used in diesel engines and heating applications. The obtained raw glycerine can be mixed with biomass residues and used in the production of pellets. In this way, the problem of accumulation of waste in the form of eggshells, used cooking oil and crude glycerine is solved and their revalorisation is carried out, which is fully in accordance with the postulates of the circular economy. Furthermore, biodiesel, as an environmentally friendly alternative to petroleum diesel, was obtained.",
publisher = "Ca'Foscari University of Venice",
journal = "Book of abstracts / 18th International Conference on Chemistry and the Environment – ICCE 2023, June 11-15, 2023, Venice, Italy",
title = "Waste to Energy: Food Waste Valorisation toward Biofuel Production",
pages = "315",
url = "https://hdl.handle.net/21.15107/rcub_technorep_7396"
}

Ivaniš, G. R., Simić, Z. V., Miškov Panić, S. P., Kijevčanin, M. Lj.,& Radović, I. R.. (2023). Waste to Energy: Food Waste Valorisation toward Biofuel Production. in Book of abstracts / 18th International Conference on Chemistry and the Environment – ICCE 2023, June 11-15, 2023, Venice, Italy
Ca'Foscari University of Venice., 315.
https://hdl.handle.net/21.15107/rcub_technorep_7396

Ivaniš GR, Simić ZV, Miškov Panić SP, Kijevčanin ML, Radović IR. Waste to Energy: Food Waste Valorisation toward Biofuel Production. in Book of abstracts / 18th International Conference on Chemistry and the Environment – ICCE 2023, June 11-15, 2023, Venice, Italy. 2023;:315.
https://hdl.handle.net/21.15107/rcub_technorep_7396 .

Ivaniš, Gorica R., Simić, Zoran V., Miškov Panić, Sofija P., Kijevčanin, Mirjana Lj., Radović, Ivona R., "Waste to Energy: Food Waste Valorisation toward Biofuel Production" in Book of abstracts / 18th International Conference on Chemistry and the Environment – ICCE 2023, June 11-15, 2023, Venice, Italy (2023):315,
https://hdl.handle.net/21.15107/rcub_technorep_7396 .

Waste to Energy: Agro-industrial Waste Valorisation Toward Enriched Pellet Production

Simić, Zoran V.; Ivaniš, Gorica R.; Miškov Panić, Sofija P.; Kijevčanin, Mirjana Lj.; Radović, Ivona R.

(Ca'Foscari University of Venice, 2023)

TY - CONF
AU - Simić, Zoran V.
AU - Ivaniš, Gorica R.
AU - Miškov Panić, Sofija P.
AU - Kijevčanin, Mirjana Lj.
AU - Radović, Ivona R.
PY - 2023
UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/7395
AB - The negative impact of the use of fossil fuels on the environment has led to an increase in research in the field of renewable energy sources and intensified the production of biodiesel. The latter has caused the accumulation of a large amount of waste glycerol, since about 1 kg of crude glycerol is obtained for 10 kg of biodiesel. Crude glycerol is traditionally considered a low-value waste because of impurities and variable composition and its disposal was limited due to the harmful effects on the environment. To reuse this by-product of the transesterification reaction, in most cases it needs to be refined. However, crude glycerol purification requires additional costs while at the same time the glycerol market is already saturated and, consequently, the price of crude glycerol continues to decline. To avoid the accumulation of waste glycerol and pollution of the environment, it is necessary to find some applications for the raw glycerol obtained from the industrial production of biodiesel (Groesbeck et al., 2008).
Crude glycerol can be integrated with waste biomass, such as agricultural waste and wood residues, to improve its properties as a fuel. During the production of pellets, raw glycerol serves as a binder, which increases the yield and durability of pellets during storage and transportation. Additionally, it serves as a lubricant reducing the energy required for palletisation. It has been shown that when burning pellets with additional raw glycerol, a significantly lower amount of NOx is released than in the case of classic wood pellets (Zhang et al., 2022).
In this study, we investigated the possibility of adding waste crude glycerol to waste agro-industrial biomass in the production of enriched pellets. By applying the basic principles of the circular economy, the glycerol used for the purposes of this research was obtained from the transesterification reaction between used edible oil and short-chain alcohol, with the presence of a catalyst obtained from the waste shell of chicken egg. The characterization of the mixtures of different agricultural biomass and agro-industrial waste with different mass fraction of crude glycerol was performed. Standard analyses for determining the quality of pellets (such as calorific value, ash content, etc.) were performed to examine the possibility of using the enriched pellets obtained in this way in existing boilers designed for the use of commercial pellets.
PB - Ca'Foscari University of Venice
C3 - Book of abstracts / 18th International Conference on Chemistry and the Environment – ICCE 2023, June 11-15, 2023, Venice, Italy
T1 - Waste to Energy: Agro-industrial Waste Valorisation Toward Enriched Pellet Production
SP - 327
UR - https://hdl.handle.net/21.15107/rcub_technorep_7395
ER -

@conference{
author = "Simić, Zoran V. and Ivaniš, Gorica R. and Miškov Panić, Sofija P. and Kijevčanin, Mirjana Lj. and Radović, Ivona R.",
year = "2023",
abstract = "The negative impact of the use of fossil fuels on the environment has led to an increase in research in the field of renewable energy sources and intensified the production of biodiesel. The latter has caused the accumulation of a large amount of waste glycerol, since about 1 kg of crude glycerol is obtained for 10 kg of biodiesel. Crude glycerol is traditionally considered a low-value waste because of impurities and variable composition and its disposal was limited due to the harmful effects on the environment. To reuse this by-product of the transesterification reaction, in most cases it needs to be refined. However, crude glycerol purification requires additional costs while at the same time the glycerol market is already saturated and, consequently, the price of crude glycerol continues to decline. To avoid the accumulation of waste glycerol and pollution of the environment, it is necessary to find some applications for the raw glycerol obtained from the industrial production of biodiesel (Groesbeck et al., 2008).
Crude glycerol can be integrated with waste biomass, such as agricultural waste and wood residues, to improve its properties as a fuel. During the production of pellets, raw glycerol serves as a binder, which increases the yield and durability of pellets during storage and transportation. Additionally, it serves as a lubricant reducing the energy required for palletisation. It has been shown that when burning pellets with additional raw glycerol, a significantly lower amount of NOx is released than in the case of classic wood pellets (Zhang et al., 2022).
In this study, we investigated the possibility of adding waste crude glycerol to waste agro-industrial biomass in the production of enriched pellets. By applying the basic principles of the circular economy, the glycerol used for the purposes of this research was obtained from the transesterification reaction between used edible oil and short-chain alcohol, with the presence of a catalyst obtained from the waste shell of chicken egg. The characterization of the mixtures of different agricultural biomass and agro-industrial waste with different mass fraction of crude glycerol was performed. Standard analyses for determining the quality of pellets (such as calorific value, ash content, etc.) were performed to examine the possibility of using the enriched pellets obtained in this way in existing boilers designed for the use of commercial pellets.",
publisher = "Ca'Foscari University of Venice",
journal = "Book of abstracts / 18th International Conference on Chemistry and the Environment – ICCE 2023, June 11-15, 2023, Venice, Italy",
title = "Waste to Energy: Agro-industrial Waste Valorisation Toward Enriched Pellet Production",
pages = "327",
url = "https://hdl.handle.net/21.15107/rcub_technorep_7395"
}

Simić, Z. V., Ivaniš, G. R., Miškov Panić, S. P., Kijevčanin, M. Lj.,& Radović, I. R.. (2023). Waste to Energy: Agro-industrial Waste Valorisation Toward Enriched Pellet Production. in Book of abstracts / 18th International Conference on Chemistry and the Environment – ICCE 2023, June 11-15, 2023, Venice, Italy
Ca'Foscari University of Venice., 327.
https://hdl.handle.net/21.15107/rcub_technorep_7395

Simić ZV, Ivaniš GR, Miškov Panić SP, Kijevčanin ML, Radović IR. Waste to Energy: Agro-industrial Waste Valorisation Toward Enriched Pellet Production. in Book of abstracts / 18th International Conference on Chemistry and the Environment – ICCE 2023, June 11-15, 2023, Venice, Italy. 2023;:327.
https://hdl.handle.net/21.15107/rcub_technorep_7395 .

Simić, Zoran V., Ivaniš, Gorica R., Miškov Panić, Sofija P., Kijevčanin, Mirjana Lj., Radović, Ivona R., "Waste to Energy: Agro-industrial Waste Valorisation Toward Enriched Pellet Production" in Book of abstracts / 18th International Conference on Chemistry and the Environment – ICCE 2023, June 11-15, 2023, Venice, Italy (2023):327,
https://hdl.handle.net/21.15107/rcub_technorep_7395 .