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У даљем тексту прикупљене су референце ЈС Енергије, у сарадњи са Универзитетом у Лунду (Шведска), Универзитетом у Ставангеру (Норвешка), Универзитетом у Љубљани (Словенија) и Универзитетом у Јадавпуру (Индија). Многе од референца су публикације које су извађене из извештаја и индустријских пројеката и представљене на неколико међународних конференција. Неки резултати истраживања објављени су као научни радови.

SMREKAR, Jure, HOČEVAR Marko. Profiling, diagnostics and evaluation of cooling towers. Cooling Technology Institute annual conference, New Orleans, LA, February 2019.

SMREKAR, Jure, GOSTINČAR Primož, SARJAŠ, Andrej, HOČEVAR, Marjan. NOx reduction and efficiency improvement of a 210 MWt coal-fired boiler co-firing biomass. The 29th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, June 2016, Portorož, Slovenia. Download

SMREKAR, Jure, ASSADI, Mohsen, FAST, Magnus, KUŠTRIN, Igor, DE, S. Development of artificial neural network model for a coal-fired boiler using real plant data. Energy, ISSN 0360-5442. [Print ed.], Feb. 2009, vol. 34, issue 2. http://dx.doi.org/10.1016/j.energy.2008.10.010.

KUŠTRIN, Igor, OMAN, Janez, TUMA, Matija. Methods and results of performance test of 275 MW unit at power plant Šoštanj. V: DEJANOVIČ, Boris (ur.), RIBARIČ-LASNIK, Cvetka (ur.). Sanation of the thermo-power plants: proceedings of the 1st international symposium, Rogaška Slatina, Slovenia, May 1997, Papers. Šoštanj: Power plant; Ljubljana 1997.

KUŠTRIN, Igor, LENART, Jože, KOKOVNIK, Alojz, GOSTINČAR, Primož, HOČEVAR, Marjan. Combustion optimization with respect to coal-dust distribution between burner nozzles. 21. International Expert Meeting, May 2012, Maribor, Slovenia.

ŠIROK, Brane, HOČEVAR, Marko, NOVAK, Matej. Nuclear power station tihange-2: cooling tower measurement report. Ljubljana: Turboinštitut, 2002.

ŠIROK, Brane, HOČEVAR, Marko, JERE, Franc, NOVAK, Matej. Nuclear power station DOEL-3: cooling tower measurement report. Ljubljana: Turboinstitut, 2003.

SENEGAČNIK, Andrej, KUŠTRIN, Igor, OMAN, Janez, LENART, Jože. Cooling of coal fan-type pulverizers after low-NOx burners installation. V: 14. International Expert Meeting, May 2005, Maribor, Slovenia.

KUŠTRIN, Igor, HOČEVAR, Marko, SEKAVČNIK, Mihael, JURJEVČIČ, Boštjan. Acceptance test of the cooling system at Unit 6 at power plant Šoštanj [Slovene language; original title: Garancijski preizkusi hladilnega sistema bloka 6: Termoelektrarna Šoštanj]. Faculty of Mechanical Engineering, LTE, Ljubljana, September 2015.

ROTAR, Maja, KUŠTRIN, Igor, OMAN, Janez. Performance test of cooling system of unit 5 at power plant Šoštanj after modification of cooling tower spray system [Slovene language; original title: Preizkus hladilnega sistema bloka 5 TE Šoštanj po predelavi prščišča hladilnega stolpa]. Ljubljana, Fakulteta za strojništvo, LTE, September 2000.

TUMA, Matija, KUŠTRIN, Igor, OMAN, Janez. The usage of waste heat in the cooling tower at a power plant [Slovene language; original title: Izkoriščanje odpadne toplote v hladilnem stolpu termoelektrarne]. Termotehnika, ISSN 0350-218X, 1987.

OMAN, Janez, SENEGAČNIK, Andrej, KUŠTRIN, Igor. Thermal testing of power plant units – methods and results. Power and process plants = Energie- und verfahrenstechnische Anlagen, Dubrovnik, May, 2000.

SENEGAČNIK, Andrej, KUŠTRIN, Igor, OMAN, Janez. Five enhancements to the standard indirect method for determining a steam boiler’s efficiency. VGB powertech, ISSN 1435-3199, 2006, 86(13).

SENEGAČNIK, Andrej, KUŠTRIN, Igor, SEKAVČNIK, Mihael. Accuracy improvement analysis of the standard indirect method for determining a steam boiler’s efficiency. VGB powertech, ISSN 1435-3199, 2008, 12(88).

KUŠTRIN, Igor, GOSTINČAR, Primož. Measures for efficiency improvement and emission reduction in coal fired Power plant Ljubljana. V: Upgrading and efficiency improvements in coal-fired power plants. London: IEA Clean Coal Centre, 2013, str. [1-22].

SMREKAR J, PANDIT D., FAST M., ASSADI M., DE S. Prediction of power output of a coal-fired power plant by artificial neural network. Neural Computing and Applications, July 2010, Volume 19, Issue 5, pp 725-740. http://dx.doi.org/10.1007/s00521-009-0331-6.

KUŠTRIN, Igor, OMAN, Janez, BOLE, Igor, GOSTINČAR, Primož. Effects of wood chips co-firing operation of boiler 3 Power Plant Ljubljana. International Conference on District Energy, Portorož, Slovenia, March 2011.

KUŠTRIN, Igor, BOLE, Igor, OMAN, Janez. Fuel energy allocation between heat and power according to „referential units and equal savings“ method in case of combined cycle power plant. 18. International Expert Meeting, May 2009, Maribor, Slovenia.

SENEGAČNIK, Andrej, KUŠTRIN, Igor, BOLE, Igor, OMAN, Janez. Additional district water heater installation in Power plant Ljubljana. V: 15. International Expert Meeting, May 2006, Maribor, Slovenia.

OMAN, Janez, KUŠTRIN, Igor, BOLE, Igor, GOSTINČAR, Primož. Boilers 1 in 2 firing systems reconstruction in power plant Ljubljana. V: VIII. Expert meeting of Slovene district energy association, Portorož, March 2005.

KUŠTRIN, Igor, GOSTINČAR, Primož. SENEGAČNIK, Andrej, KUŠTRIN, Igor, BOLE, Igor. Annual share of heat and power determination method in case of biomass cofiring in the heat and power plant Ljubljana. Proceedings. Ljubljana: Slovene district energy association, 2009.

KUŠTRIN, Igor, OMAN, Janez. Optimising old condenser operation parameters. V: Operation and maintenance in power plants: [conference proceedings]: London, UK, February 1998. UK: Modern Power Systems, Wilmington Business Publishing, 1998.

SMREKAR, Jure, POTOČNIK, Primož, SENEGAČNIK, Andrej. Multi-step-ahead prediction of NOx emissions for a coal-based boiler. Applied energy, ISSN 0306-2619, Jun. 2013, vol. 106.  http://dx.doi.org/10.1016/j.apenergy.2012.10.056.

FAST, Magnus, ASSADI, Mohsen, SMREKAR, Jure. Application of artificial neural network to the condition monitoring and diagnosis of a CHP plant. V: Proceedings of the 21th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, Cracow-Gliwice, Poland, June, 2008.

DROBNIČ, Boštjan, OMAN, Janez, KUŠTRIN, Igor, ROTNIK, Uroš. Optimizing the locations of the measuring points for an online calculation of the exhaust flue-gas loss. Forschung im Ingenieurwesen, ISSN 0015-7899, 2005, 69 (2).

OMAN, Janez, SENEGAČNIK, Andrej, KUŠTRIN, Igor, VRTAČNIK, Jaroslav, ROTNIK, Uroš, LENART, Jože. Thermodynamic optimisation of a power plant after employment of an additional economiser. VGB powertech, ISSN 1435-3199, 2002.

KUŠTRIN, Igor, TUMA, Matija. The Effectiveness of Heat Transfer From Flue Gases to Ammonia-Water Mixtures. Journal of engineering for gas turbines and power, ISSN 0742-4795, 1994, 116(1).

SMREKAR J., ASSADI M. Comparison study of an in-house developed tool and commercial software for ANN modeling. Industrial Engineering and Engineering Management (IE&EM), 2010 IEEE 17Th International Conference on, Oct. 2010, pp: 1510 – 1516, Print ISBN: 978-1-4244-6483-8. http://dx.doi.org/10.1109/ICIEEM.2010.5646037.

SMREKAR, Jure, KUŠTRIN, Igor, OMAN, Janez. Methodology for evaluation of cooling tower performance – Part 1: description of the methodology. Energy Conversion and Management, ISSN 0196-8904. [Print ed.], 2011, vol. 52, iss. 11.

SMREKAR, Jure, SENEGAČNIK, Andrej, FÜHRER, Claus. Methodology for evaluation of cooling tower performance. Part 2, Application of the methodology and computational aspects of Poppe equations. Energy Conversion and Management, ISSN 0196-8904. [Print ed.], Oct. 2011, 52(11). http://dx.doi.org/10.1016/j.enconman.2011.05.004.

 NOVAK, Matej, ŠIROK, Brane, BLAGOJEVIĆ, Bogdan, HOČEVAR, Marko, ROTAR, Maja. CTP method – diagnostic method for control of cooling tower operation. VGB powertech, ISSN 1435-3199, 2003, 83 (1/2).

ŠIROK, Brane, ROTAR, Maja, HOČEVAR, Marko, DULAR, Matevž, SMREKAR, Jure, BAJCAR, Tom. Improvement of the thermodynamic properties in a natural-draft cooling tower. Journal of Mechanical Engineering, ISSN 0039-2480, 2007, 53(5).

SMREKAR, Jure, OMAN, Janez, ŠIROK, Brane. Improving the efficiency of natural draft cooling towers. Energy Conversion and Management, ISSN 0196-8904. [Print ed.], 2006, 47(9/10). http://dx.doi.org/10.1016/j.enconman.2005.07.012.

SMREKAR, Jure, OMAN, Janez, ŠIROK, Brane. A statistical approach to the analysis of cooling systems with natural-draftcooling towers. Journal of Mechanical Engineering, ISSN 0039-2480, 2005, 51(11).

OMAN, Janez, ŠIROK, Brane, KUŠTRIN, Igor, SMREKAR, Jure. The influence of transient phenomena in cooling tower and condenser on the efficiency of power plant. V: SILVEIRA, José Luz (ur.). Electricity generation and transmission: 5th latin-american congress, November, 2003, Sao Pedro-SP, Brazil, 2003, [8].

OMAN, Janez, ŠIROK, Brane, SMREKAR, Jure. Preventing exergy destruction in the cold end of a power plant. V: Energy and environment, Napoli, 2004.

ŠIROK, Brane, BLAGOJEVIĆ, Bogdan, NOVAK, Matej, HOČEVAR, Marko, JERE, Franc. Energy and mass transfer phenomena in natural draft cooling towers. Heat transfer engineering, ISSN 0145-7632, 2003, 24(3).

ROTAR, Maja, ŠIROK, Brane, DROBNIČ, Boštjan, NOVAK, Matej, DONEVSKI, Bozin. A numerical analysis of the local anomalles in a natural-draft cooling tower. Heat transfer engineering, ISSN 0145-7632, 2005, 26(9). http://dx.doi.org/10.1080/01457630500207592.

ŠIROK, Brane, HOČEVAR, Marko, BAJCAR, Tom, BLAGOJEVIĆ, Bogdan, DVORŠEK, Matjaž, NOVAK, Matej. Thermovision method for diagnostics of local characteristics of natural draft cooling towers. Instrumentation science & technology, ISSN 1073-9149, 2006, 34(3).

ROTAR, Maja, DROBNIČ, Boštjan, NOVAK, Matej, ŠIROK, Brane, DONEVSKI, Bozin. Numerical modelling of transfer phenomena in natural draft cooling towers. V: SUNDÉN, Bengt (ur.), VILEMAS, Jurgis (ur.). Advances in heat transfer engineering: proceedings of the 4th Baltic heat transfer conference, Kaunas, Lithuania, August 25-27, 2003. New York: Begell House, Inc.; Kaunas: Lithuanian Energy Institute, 2003.

NOVAK, Matej, HOČEVAR, Marko, ŠIROK, Brane, BLAGOJEVIĆ, Bogdan, ROTAR, Maja. New developed diagnostic method for control of cooling tower operation. ECOS 2003: bridge to our energy future: proceedings of the 16th International Conference on Efficiency, Costs, Optimization, Simulation and Environmental Impact of Energy Systems, Copenhagen, June/July, 2003. Kgs. Lyngby, Denmark: Technical University of Denmark, Department of Mechanical Engineering, 2003, vol. 1.

ROTAR, Maja, ŠIROK, Brane, NOVAK, Matej, VANORMELINGEN, J., VAN DIJEN, F., DEFLOOR, J. Homogenisation of thermodynamic properties in natural draft cooling towers. Thermal sciences 2004: proceedings of the ASME – ZSIS International Thermal Science Seminar II, Bled, Slovenia, June, 2004.

ŠIROK, Brane, OMAN, Janez, HOČEVAR, Marko, BLAGOJEVIĆ, Bogdan, KUŠTRIN, Igor. Transient phenomena in cooling tower induced by load dynamics of power plant. V: TMT 2003, 7th International Research/Expert Conference Trends in the Development Machinery and AssociatedTechnology, Lloret de Mar, Barcelona, Spain, September 2003.

ROTAR, Maja, ŠIROK, Brane, TUMA, Matija, NOVAK, Matej, HOČEVAR, Marko. Exit air mapping and engineering analysis of cooling tower performance with aid of a mobile robot unit. V. Dubrovnik, 2000. ILJAŠ, Power and process plants = Energie- und verfahrenstechnische Anlagen. Zagreb: Energetika Marketing, 2000.

ŠIROK, Brane, RUS, Tomaž, NOVAK, Matej, VRABIČ, Gorazd. Thermal performance pre-upgrade exit air mapping and engineering analysis of cooling towers performance. V: Illinois Institute of Technology, 60th Annual Meeting, Chicago, USA, 1998.

SMREKAR, Jure, OMAN, Janez, ŠIROK, Brane, MORI, Mitja, HOČEVAR, Marko. A cross-correlation optical velocimeter. Measurement science & technology, ISSN 0957-0233, 2007, 18(3). http://dx.doi.org/10.1088/0957-0233/18/3/003.

DROBNIČ, Boštjan, SEKAVČNIK, Mihael, SMREKAR, Jure, OMAN, Janez. Empirical analisys of flue gas enthalpy. Zbornik. Maribor: Univerza, 2004.

SEKAVČNIK, Mihael, MORI, Mitja, NOVAK, Lovrenc, SMREKAR, Jure, TUMA, Matija. Heat transfer evaluation method in complex rotating environments employing IR thermography and CFD. Experimental heat transfer, 2008, 21(2). http://dx.doi.org/10.1080/08916150701815770.

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