Nenad Crnomarković

Viši naučni saradnik

KONTAKT

ncrni@vin.bg.ac.rs
  • ncrni@vinca.rs

Biografija

Nenad Crnomarković rođen je 15. 06. 1967. godine u Kninu, Republika Hrvatska. Stalno je nastanjen u Beogradu od 1970. godine, gde je završio osnovnu i srednju školu. Oktobra 1993. godine diplomirao je na Mašinskom fakultetu u Beogradu, na grupi za Automatsko upravljanje. Od oktobra 1993. godine do decembra 1994. godine bio je zaposlen u LOLA Korporaciji na radnome mestu Projektant komponenti i sistema hidraulike. Od decembra 1994. godine zaposlen je u Laboratoriji za termotehniku i energetiku, Instituta za nuklearne nauke Vinča. Magistarsku tezu pod naslovom “Prilog proučavanju gasifikacije lignita Kolubara u sprašenom stanju” odbranio je 15. oktobra 2001. godine na Mašinskom fakultetu u Beogradu. Od oktobra 2002. godine do aprila 2004, na osnovu stipendije japanske vlade boravio je u Japanu, gde je istraživao mogućnosti smanjenja štetnog uticaja dizel motora na životnu sredinu. Od povratka u Beograd, bavi se matematičkim modeliranjem procesa razmene energije zračenjem. Doktorsku disertaciju pod naslovom “Prilog modeliranju prostorne distribucije zračenja u ložištu kotla za sagorevanje ugljenog praha” odbranio je 21. septembra 2012. godine na Mašinskom fakultetu u Beogradu. Zvanje Naučni saradnik dobio je u septembru 2013. godine.

1. Crnomarkovic, N., Repic, B., Mladenovic, R., Neskovic O., Veljkovic, M., Experimental investigation of role of steam in entrained flow coal gasification, Fuel, Vol. 86, pp. 194-202, 2007.

2. Crnomarkovic, N., Sijercic, M., Belosevic, S., Stankovic, B., Tucakovic, D., Zivanovic, T., Influence of forward scattering on prediction of temperature and radiation fields inside the pulverized coal furnace, Energy, Vol. 45, pp. 160-168, 2012.

3. Belosevic, S., Beljanski, V., Tomanovic, I., Crnomarkovic, N., Stankovic, B., Tucakovic, D., Zivanovic, T., Numerical analysis of NOx control by combustion modifications in pulverized coal utility boiler, Energy & Fuels, Vol. 26, pp. 425-442, 2012.

4. Crnomarkovic, N. D., Sijercic, M. A., Belosevic, S. V., Tucakovic, D. R., Zivanovic, T. V., Influence of application of Hottels zonal model and six-flux models of thermal radiation on numerical simulation results of pulverized coal furnace, Thermal Science, Vol. 16, No. 1, pp. 271-282, 2012.

5. Crnomarkovic, N. D., Sijercic, M. A., Belosevic, S. V., Tucakovic, D. R., Zivanovic, T. V., Influence of application of Hottels zonal model and six-flux models of thermal radiation on numerical simulation results of pulverized coal furnace, Thermal Science, Vol. 16, No. 1, pp. 271-282, 2012.

6. Crnomarkovic, N., Sijercic, M., Belosevic, S., Tucakovic, D., Zivanovic, T., Numerical investigation of processes in the lignite-fired furnaces when simple gray gas and weighted sum of gray gases models are used, International Journal of Heat and Mass Transfer, Vol. 56, pp. 197-205, 2013.

7. Crnomarkovic, N., Sijercic, M., Belosevic, S., Tucakovic, D., Zivanovic, T., Radiative heat exchange inside the pulverized lignite fired furnace for the gray radiative properties with thermal equilibrium between phases, International Journal of Thermal Sciences, Vol. 85, pp. 21-28, 2014.

8. Crnomarkovic, N. Đ., Sijercic, M. A., Belosevic, S. V., Tucakovic, D. R., Zivanovic, T. V., Tomanovic, I. D., Stojanovic, A. D., Numerical determination of the impact of the ash deposit on the furnace walls to the radiative heat exchange inside the pulverized coal fired furnace, Full Papers Proceeding of International Conference "Power Plants 2014", 28-31. October 2014, Zlatibor Serbia, ISBN 978-86-7877-024-1, pp. 679 - 690

9. Belosevic, S., Tomanovic, I., Crnomarkovic, N., Tucakovic, D., Efficient and low emission combustion of pulverized lignite in utility boilers under various operating conditions – a comprehensive numerical study, Proceedings of the seventh international conference on CLEAN COAL TECHNOLOGIES, Krakow, Poland, May 17-21, 2015, pp. 1-19.

10. Belosevic, S., Tomanovic, I., Crnomarkovic, N., Milicevic, A., Tucakovic, D., Numerical study of pulverized coal-fired utility boiler over a wide range of operating conditions for in-furnace SO2/NOx reduction, Applied Thermal Engineering, Vol. 94, pp. 657-669, 2016.

11. Crnomarkovic, N. Dj., Belosevic, S. V., Tomanovic, I., D., Milicevic, A. R., Influence of the number of gray gases in the weighted sum of gray gases model on the calculation of the radiative heat exchange inside pulverized coal-fired furnaces, Thermal Science, Vol. 20, Suppl. 1, pp. S197-S206, 2016.

12. Belosevic, S. V., Tomanovic, I., D., Crnomarkovic, N. Dj., Milicevic, A. R., Tucakovic, D. R., Modeling and optmization of processes for clean and efficient pulverized coal combustion in utility boilers, Thermal Science, Vol. 20, Suppl. 1, pp. S183-S196, 2016.

13. Stankovic, B. D., Belosevic, S. V., Crnomarkovic, N, Dj., Stojanovic, A. D., Tomanovic, I. D., Milicevic, A. R., Specific aspects of turbulent flow in rectangular ducts, Thermal Science, Vol. 21, Suppl. 3, pp. S663-S678, 2017.

14. Belosevic, S. V., Tomanovic, I., D., Crnomarkovic, N. Dj., Milicevic, A. R., Modeling of pulverized coal combustion for in-furnace NOx reduction and flame control, Thermal Science, Vol. 21, Suppl. 3, pp. S597-S615, 2017.

15. Tomanovic, I., D., Belosevic, S. V., Milicevic, A. R., Crnomarkovic, N. Dj., Tucakovic, D. R., Numerical tracking of sorbent particles and distribution during gas desulfurization in pulverized coal-fired furnace, Thermal Science, Vol. 21, Suppl. 3, pp. S759-S769, 2017.

16. Crnomarkovic, N., Belosevic, S., Tomanovic, I., Milicevic, A., Weighted sum of gray gases model optimization for numerical investigations of processes inside pulverized coal-fired furnaces, Journal of Thermal Science, Vol. 26, No. 6, pp. 552-559, 2017.

17. Crnomarkovic, N., Belosevic, S., Tomanovic, I., Milicevic, A., Weighted sum of gray gases model optimization for numerical investigations of processes inside pulverized coal-fired furnaces, Journal of Thermal Science, Vol. 26, No. 6, pp. 552-559, 2017.

18. Milićević, A. R., Belošević, S. V., Tomanović, I. D., Crnomarković, N. Đ., Tucaković, D, R., Development of mathematical model for co-firing pulverized coal and biomass in experimental furnace, Thermal Science, Vol. 22, No. 1B, pp. 709-719, 2018.

19. Crnomarković, N., Belošević, S., Nemoda, S., Tomanović, I., Milićević, A., Determination of the wall variables within the zonal model of radiation inside a pulverized coal-fired furnace, Facta Universitatis, Series: Mechanical Engineering, Vol. 16, No. 2, pp. 219-232, 2018.

20. Tomanović, I., Belošević, S., Milićević, A., Crnomarković, N., Calcium based sorbent calcination and sintering reaction models overview, Hemijska Industrija, Vol. 72, No. 6, pp. 329-339, 2018.

21. Tomanović, I., Belošević, S., Crnomarković, N., Milićević, A., Tucakovic, D., Numerical modeling of in-furnace sulfur removal by sorbent injection during pulverized lignite combustion, International Journal of Heat and Mass Transfer, Vol. 128, pp. 98-114, 2019.

22. Belosevic, S., Tomanovic, I., Crnomarkovic, N., Milicevic, A., Full-scale CFD investigation of gas-particle flow, interactions and combustion in tangentially fired pulverized coal furnace, Energy, Vol. 179, pp. 1036 – 1053, 2019.

23. Stupar, G. M., Tucaković, D. R., Živanović, T. V., Belosevic, S. V., Crnomarkovic, N, Đ., Air staging application effects on overall steam boiler operation, Thermal Science, Vol. 23, Suppl. 5, pp. S1559-S1574, 2019.

24. Repić, B. S., Stefanović, P. Lj., Belošević, S. V., Crnomarkovic, N, Dj., Oka, S. N., Review of the investigations of pulverized coal combustion processes in large power plants in laboratory LTE-Part A, Thermal Science, Vol. 23, Suppl. 5, pp. S1587-S1609, 2019.

25. Milicevic, A. Belosevic, S., Crnomarkovic, N., Tomanovic, I., Tucakovic, D., Mathematical modelling and optimisation of lignite and wheat straw co-combustion in 350 MWe boiler furnace, Applied Energy, Vol. 260, 114206, 2020.

26. Crnomarković, N., Belošević, S., Tomanović, I., Milićević, A., New application method of the zonal model for simulations of pulverized coal-fired furnaces based on correction of total exchange areas, International Journal of Heat and Mass Transfer, Vol. 149, 119192, 2020.

27. Tomanović, I., Belošević, S., Crnomarković, N., Milićević, A., Tucaković D., Prediction of calcination and sulphation along the sorbent particle trajectories for desulphurization in coal-fired furnace, International Journal of Global Warming, Vol. 22, No. 4, pp. 459-482, 2020.

28. Milićević, A., Belošević, S., Crnomarković, N., Tomanović, I., Stojanović, A., Tucaković, D., Deng, L., Che, D., Numerical study of co-firing lignite and agricultural biomass in utility boiler under variable operating conditions, International Journal of Heat and Mass Transfer, Vol. 181, 121728, 2021.

29. Stojanović, A., Belošević, S., Crnomarković, N., Tomanović, I., Milićević, A., Heat Transfer to a Boiling Liquid – Numerical Study, Journal of the Serbian Society for Computational Mechanics, Vol. 15, No. 1, 2021, pp 177-185.

30. Stojanović, A. D., Belošević, S. V., Crnomarković, N. Đ., Tomanović, I. D., Milićević, A. R., Nucleate pool boiling heat transfer: review of models and bubble dynamics parameters, Thermal Science, 2022, 26, 1, pp. 157-174.



Publikacije

Oblasti istraživanja

- Sagorevanje i gasifikacija ugljenog praha

- Sagorevanje u motorima sa unutrašnjim sagorevanjem

- Prostiranje toplote zračenjem

- Kosagorevanje uglja i biomase

-Ekološki uticaj sagorevanja ugljenog praha

Projekti

 1. Modeliranje strujno-termičkih procesa i razvoj softverskih alata u cilju unapređenja energetske i ekološke efikasnosti sistema za konverziju energije1. Istraživanje visokotemperaturske (plazmene) pirolize i gasifikacije uglja (1991-1995), Osnovna istraživanja, ev. broj 0808.


2. Tehnologije za efikasno korišćenje i oplemenjivanje domaćih ugljeva (S.2.01.14.201) (1994-1997) - Tehnološki razvoj, Ev. broj S.2.01.14.201

 

3. Projekat 08M10E1. Razvoj i usavršavanje tehnologija i opreme za termoenergetska postrojenja radi masovnijeg korišćenja domaćih energetskih izvora (1996-2001) - Osnovna istraživanja

 

4. Projekat 08M01. Istraživanje osnovnih procesa u termoenergetici

Potprojekat 3: Istraživanje procesa sagorevanja i likvefakcije ugljenog praha (1996-2001) - Osnovna istraživanja

 

5. Primena i usavršavanje tehnologije korišćenja uglja u sprašenom stanju u industriji kreča, Ev. broj ETR.6.02.0148.B (2002-2004) - Tehnološki razvoj

 

6. Modeliranje i numerička simulacija turbulentnih strujno-termičkih procesa u ložištima energetskih kotlova,

Trajanje projekta: 01.2005-01.2008.

 

7. Razvoj i primena modela i softvera za simulaciju procesa u ložištima energetskih kotlova na sprašeni ugalj u cilju povećanja energetske efikasnosti i smanjenja emisije polutanata

Evidencioni broj projekta: TR - 18007, Tehnološki razvoj

 

8. Povećanje energetske i ekološke efikasnosti procesa u ložištu za ugljeni prah i optimizacija izlazne grejne površine energetskog parnog kotla primenom sopstvenih softverskih alata (TR-33018), Tehnološki razvoj

Trajanje projekta: 2011 – 2019.

 

9. Unapređenje industrijskog postrojenja sa fluidizovanim slojem u okviru razvoja tehnologije za energetski efikasno i ekološki opravdano sagorevanje različitih otpadnih materija u fluidizacionom ložištu (TR-33042), Tehnološki razvoj

Trajanje projekta: 2011 – 2019.


10.  Institucionalna tema: Modeliranje strujno-termičkih procesa i razvoj softverskih alata u cilju unapređenja energetske i ekološke efikasnosti sistema za konverziju

energije.

Trajanje teme: 2020 - 2030.