Upravljanje energijom i rekuperacija toplote iz otpadnih voda u savremenim zgradama
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Feb 15, 2026
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Ivan Vizmeg
Aleksandar Anđelković
http://orcid.org/0000-0003-2736-6793
http://orcid.org/0000-0003-2736-6793
Apstrakt
U ovom radu istražuje se uloga i upravljanje sistemima rekuperacije energije iz otpadnih voda putem sistema energetskog menadžmenta. Prikazuju se osnovni parametri za određivanje isplativosti primene sistema i ekološkog uticaja. Prikazuju se uspešni primeri integracije ovih sistema u Škotskoj i Francuskoj. Na kraju razmatraju se pravci razvoja i unapređenja sistema.
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Kako citirati
VIZMEG, Ivan; ANĐELKOVIĆ, Aleksandar.
Upravljanje energijom i rekuperacija toplote iz otpadnih voda u savremenim zgradama.
Zbornik Međunarodnog kongresa i izložbe o KGH, [S.l.], v. 56, n. 1, p. 69-80, feb. 2026.
Dostupno na: <https://izdanja.smeits.rs/index.php/kghk/article/view/8276>. Datum pristupa: 12 mar. 2026
Broj časopisa
Sekcija
Moderni sistemi KGH – izazovi projektovanja i eksploatacije
Reference
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[12] *** Solar Energy Media. (2016, November 29). Schneider launches new EcoStruxure Energy IoT architecture and platform. Preuzeto sa https://solarenergymedia.com/schneider-launches-new-ecostruxure-energy-iot-architecture-platform/
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[14] Dranka, G. G. (2020). Economic evaluation methodologies for renewable energy investments: Focus on IRR and MIRR. AIMS Energy, 8(2), 339–364. https://doi.org/10.3934/energy.2020.2.339
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[17] *** European Union. (2012). Directive 2012/27/EU on energy efficiency (Annex II: high-efficiency cogeneration definitions and PES calculation). Official Journal of the European Union. Preuzeto sa https://eur-lex.europa.eu/
[18] *** Clean Energy Ministerial. (2022). ISO 50001 Energy Management System – Case Study: Schneider Electric (France). Clean Energy Ministerial, Washington, DC.
[19] *** Schneider Electric. (2014). Introducing the world’s first ISO 50001-certified building (Le Hive) — Customer success story. Schneider Electric, Rueil-Malmaison.
[20] *** Construction21. (2013). The Hive – Hall of Innovation and Showcase Energy (Head Office, Schneider Electric). Construction21 France. Preuzeto, sa https://www.construction21. org/france/case-studies/h/the-hive-hall-of-inovation-and-showcase-energy---head-office-world-schneider-electric.html
[21] *** Construction21. (2013). The Hive — Head office (Hall of Innovation and Showcase Ener-gy). Construction21 France, Paris.
[22] *** Water Projects Online. (2015). Borders College: Wastewater heat recovery for district heat-ing. Water Projects Online.
[23] *** Hi Group Ltd. (2016). Pioneering wastewater heat recovery system cuts carbon emissions. Preuzeto, sa https://higroupltd.co.uk/pioneering-wastewater-heat-recovery-system-cuts-carbon-emissions/
[24] *** SHARC Energy. (n.d.). How it works. Preuzeto sa https://www.sharcenergy.com/how-it-works/
[25] *** Linquip Team. (2023, April 24). Energy recovery ventilator. Linquip. Preuzeto sa https://www.linquip.com/blog/energy-recovery-ventilator/
[26] *** Lawrence Berkeley National Laboratory (LBNL). (n.d.). A review of data-driven fault detec-tion and diagnostics for building HVAC systems. LBNL, Berkeley, CA.
[2] *** Ministarstvo rudarstva i energetike Republike Srbije. (2023). Izveštaj o stanju sektora ener-getike. Ministarstvo rudarstva i energetike, Beograd. Preuzeto sa https://www.mre.gov.rs/
[3] *** Eurostat. (2022). Energy consumption in households. Eurostat, Luxembourg. Preuzeto sa https://ec.europa.eu/eurostat/
[4] *** International Energy Agency (IEA). (2020). Water-energy nexus in buildings. IEA, Paris. Preuzeto sa https://www.iea.org/
[5] Larsen, P., Filippín, J., & López, G. (2021). Daily and seasonal variations in wastewater tem-perature profiles and implications for heat recovery. Renewable Energy, 179, 1572–1584.
[6] *** Udruženje za tehnologiju vode i sanitarno inženjerstvo (UTVSI). (2024). Izveštaj o vodo-vodima u Srbiji – 2022. UTVSI, Beograd. Preuzeto sa https://utvsi.com/
[7] Incropera, F. P., DeWitt, D. P., Bergman, T. L., & Lavine, A. S. (2011). Fundamentals of heat and mass transfer (7. izd.). Wiley, Hoboken, NJ.
[8] Dong, Y., Chen, X., & Shi, W. (2020). Heat exchangers for wastewater energy recovery: A review. Applied Thermal Engineering, 170, 115020.
[9] *** HUBER Technology. (2025). Don’t waste that energy. Put it to work. HUBER Technology. Preuzeto sa https://www.huber.de/
[10] *** European Committee for Standardization (CEN). (n.d.). EN 14825 — Seasonal energy effi-ciency — Part-load testing and calculation. CEN, Brussels.
[11] *** International Organization for Standardization (ISO). (2018). ISO 50001:2018 Energy man-agement systems — Requirements with guidance for use. ISO, Geneva.
[12] *** Solar Energy Media. (2016, November 29). Schneider launches new EcoStruxure Energy IoT architecture and platform. Preuzeto sa https://solarenergymedia.com/schneider-launches-new-ecostruxure-energy-iot-architecture-platform/
[13] *** European Committee for Standardization (CEN). (2017). EN 15459-1:2017 — Energy per-formance of buildings — Economic evaluation of energy systems in buildings — Part 1: Calcula-tion procedures. CEN, Brussels.
[14] Dranka, G. G. (2020). Economic evaluation methodologies for renewable energy investments: Focus on IRR and MIRR. AIMS Energy, 8(2), 339–364. https://doi.org/10.3934/energy.2020.2.339
[15] *** Intergovernmental Panel on Climate Change (IPCC). (2006). 2006 Guidelines for National Greenhouse Gas Inventories, Vol. 2: Energy. IPCC, Geneva.
[16] *** International Organization for Standardization (ISO). (2017). EN ISO 52000-1:2017 — Overarching EPB framework: primary energy, calculation and boundary conditions for build-ings. ISO, Geneva.
[17] *** European Union. (2012). Directive 2012/27/EU on energy efficiency (Annex II: high-efficiency cogeneration definitions and PES calculation). Official Journal of the European Union. Preuzeto sa https://eur-lex.europa.eu/
[18] *** Clean Energy Ministerial. (2022). ISO 50001 Energy Management System – Case Study: Schneider Electric (France). Clean Energy Ministerial, Washington, DC.
[19] *** Schneider Electric. (2014). Introducing the world’s first ISO 50001-certified building (Le Hive) — Customer success story. Schneider Electric, Rueil-Malmaison.
[20] *** Construction21. (2013). The Hive – Hall of Innovation and Showcase Energy (Head Office, Schneider Electric). Construction21 France. Preuzeto, sa https://www.construction21. org/france/case-studies/h/the-hive-hall-of-inovation-and-showcase-energy---head-office-world-schneider-electric.html
[21] *** Construction21. (2013). The Hive — Head office (Hall of Innovation and Showcase Ener-gy). Construction21 France, Paris.
[22] *** Water Projects Online. (2015). Borders College: Wastewater heat recovery for district heat-ing. Water Projects Online.
[23] *** Hi Group Ltd. (2016). Pioneering wastewater heat recovery system cuts carbon emissions. Preuzeto, sa https://higroupltd.co.uk/pioneering-wastewater-heat-recovery-system-cuts-carbon-emissions/
[24] *** SHARC Energy. (n.d.). How it works. Preuzeto sa https://www.sharcenergy.com/how-it-works/
[25] *** Linquip Team. (2023, April 24). Energy recovery ventilator. Linquip. Preuzeto sa https://www.linquip.com/blog/energy-recovery-ventilator/
[26] *** Lawrence Berkeley National Laboratory (LBNL). (n.d.). A review of data-driven fault detec-tion and diagnostics for building HVAC systems. LBNL, Berkeley, CA.