TY  - CHAP
AU  - Cvetković, Slobodan M.
AU  - Popović, Mina
AU  - Grbović Novaković, Jasmina D.
AU  - Kijevčanin, Mirjana Lj.
PY  - 2023
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/6714
AB  - This chapter aims to evaluate energy flows in the life cycle of biogas utilization (i.e., production of thermal energy, cogeneration, traffic, and production of hydrogen), starting from feedstock and anaerobic digestion, up to the digestate as fertilizer for agricultural production. The analysis is based on the out-turn of a bio­gas plant on the dairy farm Mirotin Vrbas, Republic of Serbia. Life Cycle Energy Assessment (LCEA), presented in this chapter, has demonstrated that three scenar­ios – biogas for heat production, biogas in cogeneration, and biomethane in trans­portation have positive energy balances, which indicate that in terms of replacement of fossil fuel consumption, these energy systems are promising alternatives. In the fourth scenario, where biogas is used for hydrogen production, the energy balance is negative, therefore socio-economical factors should be considered for overall consideration to ensure sustainability.
PB  - Springer International Publishing
T2  - A Sustainable Green Future: Perspectives on Energy, Economy, Industry, Cities and Environment
T1  - A Life Cycle Energy Assessment for Biogas as Energy Carrier
EP  - 612
SP  - 595
DO  - 10.1007/978-3-031-24942-6_28
ER  - 

@inbook{
author = "Cvetković, Slobodan M. and Popović, Mina and Grbović Novaković, Jasmina D. and Kijevčanin, Mirjana Lj.",
year = "2023",
abstract = "This chapter aims to evaluate energy flows in the life cycle of biogas utilization (i.e., production of thermal energy, cogeneration, traffic, and production of hydrogen), starting from feedstock and anaerobic digestion, up to the digestate as fertilizer for agricultural production. The analysis is based on the out-turn of a bio­gas plant on the dairy farm Mirotin Vrbas, Republic of Serbia. Life Cycle Energy Assessment (LCEA), presented in this chapter, has demonstrated that three scenar­ios – biogas for heat production, biogas in cogeneration, and biomethane in trans­portation have positive energy balances, which indicate that in terms of replacement of fossil fuel consumption, these energy systems are promising alternatives. In the fourth scenario, where biogas is used for hydrogen production, the energy balance is negative, therefore socio-economical factors should be considered for overall consideration to ensure sustainability.",
publisher = "Springer International Publishing",
journal = "A Sustainable Green Future: Perspectives on Energy, Economy, Industry, Cities and Environment",
booktitle = "A Life Cycle Energy Assessment for Biogas as Energy Carrier",
pages = "612-595",
doi = "10.1007/978-3-031-24942-6_28"
}

Cvetković, S. M., Popović, M., Grbović Novaković, J. D.,& Kijevčanin, M. Lj.. (2023). A Life Cycle Energy Assessment for Biogas as Energy Carrier. in A Sustainable Green Future: Perspectives on Energy, Economy, Industry, Cities and Environment
Springer International Publishing., 595-612.
https://doi.org/10.1007/978-3-031-24942-6_28

Cvetković SM, Popović M, Grbović Novaković JD, Kijevčanin ML. A Life Cycle Energy Assessment for Biogas as Energy Carrier. in A Sustainable Green Future: Perspectives on Energy, Economy, Industry, Cities and Environment. 2023;:595-612.
doi:10.1007/978-3-031-24942-6_28 .

Cvetković, Slobodan M., Popović, Mina, Grbović Novaković, Jasmina D., Kijevčanin, Mirjana Lj., "A Life Cycle Energy Assessment for Biogas as Energy Carrier" in A Sustainable Green Future: Perspectives on Energy, Economy, Industry, Cities and Environment (2023):595-612,
https://doi.org/10.1007/978-3-031-24942-6_28 . .