TermiÄke karakteristike poligenerativnih sistema sa ejektorskom termokompresijom
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Å AREVSKI, Vasko; Å AREVSKI, Milan.
TermiÄke karakteristike poligenerativnih sistema sa ejektorskom termokompresijom.
Zbornik Međunarodnog kongresa o KGH, [S.l.], v. 45, n. 1, p. 1-5, sep. 2017.
Dostupno na: <https://izdanja.smeits.rs/index.php/kghk/article/view/2859>. Datum pristupa: 16 may 2025
Sekcija
Tehnologije obnovljivih izvora energije i sistemi
Reference
[1] Chunnanond, K., Aphornratana, S., Ejectors: applications in refrigeration technology, Renew. Sustain. Energy Rev., 2004, 8 (2), 129–155
[2] Elbel, S., Hrnjak, P., Ejector Refrigeration: An overview of historical and present developments with an emphasis on air conditioning applications, Proc. Int. Refrig. and Air Condit. Conf., Purdue, USA, 2008
[3] Abdulateef, J. M., Sopian, K., Alghoul, M. A., Sulaiman, M. Y., Review on solar-driven ejector refrigeration technologies, Renew. Sustain. Energy Rev., 2009, 13 (6–7), 1338–1349
[4] Bravo Gonzales, H. E., Rodriguez Dorantes, R., Gutierrez Hernandez, J., Brawn Best y, R., Aguila Roman, R., Pena Terres, H., State of art of simple and hybrid jet compression refrigeration systems and
the working fluid influence, Int. J. Refrigeration, 2012, 35 (2), 386–396
[5] Sumery, K., Nasution, H., Ani, F. N., A review on two-phase ejector as an expansion device in vapor compression refrigeration cycle, Renew. Sustain. Energy Rev. 2012, 16 (7), 4927–4937
[6] Sarkar, J., Ejector enhanced vapor compression refrigeration and heat pump systems - A review, Renew. Sustain. Energy Rev. 2012, 16, 6647–6659
[7] Chen, X., Omer, S., Worall, M., Riffat, S., Recent developments in ejector refrigeration technologies, Renew. Sustain. Energy Rev. 2013, 19, 629–651
[8] Wang, J., Dai, Y., Sun, Z., A theoretical study on a novel combined power and ejector refrigeration cycle, Int. J. Refrigeration, 2009, 32 (6), 1186–1194
[9] Wang, J., Dai, Y., Gao, L., Ma, S., A new combined cooling, heating and power system driven by solar energy, Renewable Energy 2009, 34 (12), 2780–2788
[10] Dai, Y., Wang, J., Gao, L., Exergy analysis, parametric analysis and optimization for a novel combined power and ejector refrigeration cycle, Appl. Therm. Eng. 2009, 29 (10), 1983–1990
[11] Zheng, B., Weng, Y. W., A combined power and ejector refrigeration cycle for low temperature heat sources, Solar Energy, 2010, 84, 5, 784–791
[12] Hong, D., Chen, G., Tang, L., He, Y., A novel ejector-absorption combined refrigeration cycle, Int. J. Refrigeration, 2011, 34 (7), 1596–1603
[13] Vereda, C., Ventas, R., Lecuona, A., Venegas, M., Study of an ejector-absorption refrigeration cycle with an adaptable ejector nozzle for different working conditions, Appl. Energy, 2012, 97, 305– 312
[14] Khaliq, A., Agrawal, B. K., Kumar, R., First and second law investigation of waste heat based combined power and ejector-absorption refrigeration cycle, Int. J. Refrigeration, 2012, 35 (1), 88 –97
[15] Zhu, Y., Jiang P., Hybrid vapor compression refrigeration system with an integrated ejector cooling cycle, Int. J. Refrigeration, 2012, 35 (1) 68–78
[16] Petrenko, V., Huang, B.J., Ierin, V.O., Design-theoretical study of cascade CO 2 sub-critical mechanical compression / butane ejector cooling cycle, Int. J. Refrigeration 2011, 34 (7), 1649–1656
[17] Petrenko,V. O., Volovyk, O. S., Theoretical study and design of a low-grade heat-driven pilot ejector refrigeration machine operating with butane and isobutane and intended for cooling of gas transported in a gas-main pipeline, Int. J. Refrigeration, 2011, 34 (7), 1699–1706
[18] Elbel, S., Bowers, C. D., Reichle, M., Cristiani, J. M., Hrnjak, P., Vapor jet ejector used to generate free waste heat driven cooling in military environmental cooling units, Int. Refrig. and Air Condit. Conf., Purdue, 2012, USA, ID 2164
[19] Å arevski, V. N., Å arevski, M. N., Flow characteristics, modeling and simulation of single-phase and two-phase ejectors, The 45th International Congress and Exhibition on Heating, Refrigeration and Air
Conditioning, Beograd, 2014
[20] Šarevski, M. N., Šarevski, V. N., Energy efficiency of combined compressor – ejector refrigeration / heat pump systems, The 45th International Congress and Exhibition on Heating, Refrigeration and Air
Conditioning, Beograd, 2014
[2] Elbel, S., Hrnjak, P., Ejector Refrigeration: An overview of historical and present developments with an emphasis on air conditioning applications, Proc. Int. Refrig. and Air Condit. Conf., Purdue, USA, 2008
[3] Abdulateef, J. M., Sopian, K., Alghoul, M. A., Sulaiman, M. Y., Review on solar-driven ejector refrigeration technologies, Renew. Sustain. Energy Rev., 2009, 13 (6–7), 1338–1349
[4] Bravo Gonzales, H. E., Rodriguez Dorantes, R., Gutierrez Hernandez, J., Brawn Best y, R., Aguila Roman, R., Pena Terres, H., State of art of simple and hybrid jet compression refrigeration systems and
the working fluid influence, Int. J. Refrigeration, 2012, 35 (2), 386–396
[5] Sumery, K., Nasution, H., Ani, F. N., A review on two-phase ejector as an expansion device in vapor compression refrigeration cycle, Renew. Sustain. Energy Rev. 2012, 16 (7), 4927–4937
[6] Sarkar, J., Ejector enhanced vapor compression refrigeration and heat pump systems - A review, Renew. Sustain. Energy Rev. 2012, 16, 6647–6659
[7] Chen, X., Omer, S., Worall, M., Riffat, S., Recent developments in ejector refrigeration technologies, Renew. Sustain. Energy Rev. 2013, 19, 629–651
[8] Wang, J., Dai, Y., Sun, Z., A theoretical study on a novel combined power and ejector refrigeration cycle, Int. J. Refrigeration, 2009, 32 (6), 1186–1194
[9] Wang, J., Dai, Y., Gao, L., Ma, S., A new combined cooling, heating and power system driven by solar energy, Renewable Energy 2009, 34 (12), 2780–2788
[10] Dai, Y., Wang, J., Gao, L., Exergy analysis, parametric analysis and optimization for a novel combined power and ejector refrigeration cycle, Appl. Therm. Eng. 2009, 29 (10), 1983–1990
[11] Zheng, B., Weng, Y. W., A combined power and ejector refrigeration cycle for low temperature heat sources, Solar Energy, 2010, 84, 5, 784–791
[12] Hong, D., Chen, G., Tang, L., He, Y., A novel ejector-absorption combined refrigeration cycle, Int. J. Refrigeration, 2011, 34 (7), 1596–1603
[13] Vereda, C., Ventas, R., Lecuona, A., Venegas, M., Study of an ejector-absorption refrigeration cycle with an adaptable ejector nozzle for different working conditions, Appl. Energy, 2012, 97, 305– 312
[14] Khaliq, A., Agrawal, B. K., Kumar, R., First and second law investigation of waste heat based combined power and ejector-absorption refrigeration cycle, Int. J. Refrigeration, 2012, 35 (1), 88 –97
[15] Zhu, Y., Jiang P., Hybrid vapor compression refrigeration system with an integrated ejector cooling cycle, Int. J. Refrigeration, 2012, 35 (1) 68–78
[16] Petrenko, V., Huang, B.J., Ierin, V.O., Design-theoretical study of cascade CO 2 sub-critical mechanical compression / butane ejector cooling cycle, Int. J. Refrigeration 2011, 34 (7), 1649–1656
[17] Petrenko,V. O., Volovyk, O. S., Theoretical study and design of a low-grade heat-driven pilot ejector refrigeration machine operating with butane and isobutane and intended for cooling of gas transported in a gas-main pipeline, Int. J. Refrigeration, 2011, 34 (7), 1699–1706
[18] Elbel, S., Bowers, C. D., Reichle, M., Cristiani, J. M., Hrnjak, P., Vapor jet ejector used to generate free waste heat driven cooling in military environmental cooling units, Int. Refrig. and Air Condit. Conf., Purdue, 2012, USA, ID 2164
[19] Å arevski, V. N., Å arevski, M. N., Flow characteristics, modeling and simulation of single-phase and two-phase ejectors, The 45th International Congress and Exhibition on Heating, Refrigeration and Air
Conditioning, Beograd, 2014
[20] Šarevski, M. N., Šarevski, V. N., Energy efficiency of combined compressor – ejector refrigeration / heat pump systems, The 45th International Congress and Exhibition on Heating, Refrigeration and Air
Conditioning, Beograd, 2014