Optimizacija postrojenja za desalinizaciju vode sa ejektorskim rashladnim sistemom

##plugins.themes.bootstrap3.article.main##

Andrija Petrović Jovan Filipović Aleksandar Petronijević

Apstrakt

U ovom radu je prikazana višekriterijumska optimizacija postrojenja za desalinizaciju vode sa ejek-troskim rashladnim sistemom. Različiti rashladni fluidi su korišćeni i njihove performanse se me-đusobono poređene. Utvrđene su Pareto krive koje označavaju najoptimalnije odluke u pogledu investicija i profita. Prikazano je da R114 rashladni fluid ima najbolje performanse u pogledu mini-mizacije investicionih troškova i maksimizacije profita. Pored eko-nomskih evaluacije moguce je uzeti u obzir i druge faktore koji će imati najveći uticaj u daljem izboru najoptimalnije odluke.

##plugins.themes.bootstrap3.article.details##

Kako citirati
PETROVIĆ, Andrija; FILIPOVIĆ, Jovan; PETRONIJEVIĆ, Aleksandar. Optimizacija postrojenja za desalinizaciju vode sa ejektorskim rashladnim sistemom. Zbornik Međunarodnog kongresa o procesnoj industriji – Procesing, [S.l.], v. 31, n. 1, p. 249-253, june 2018. Dostupno na: <https://izdanja.smeits.rs/index.php/ptk/article/view/3491>. Datum pristupa: 10 dec. 2018
Sekcija
Environmental engineering and sustainable development in process industry

Reference

[1] M. A. Eltawil, Z. Zhengming, and L. Yuan, "A review of renewable energy technologies integrated with desalina-tion systems," Renewable and Sustainable Energy Reviews, vol. 13, pp. 2245-2262, 2009.
[2] A. El-Ghonemy, "Retracted: water desalination systems powered by renewable energy sources, Review," ed: Else-vier, 2012.
[3] M. Alghoul, P. Poovanaesvaran, K. Sopian, and M. Sulaiman, "Review of brackish water reverse osmosis (BWRO) system designs," Renewable and Sustainable Energy Reviews, vol. 13, pp. 2661-2667, 2009.
[4] F. Kozisek, "Health risks from drinking demineralised water," Nutrients in Drinking Water, pp. 148-163, 2005.
[5] A. Khalifa, H. Ahmad, M. Antar, T. Laoui, and M. Khayet, "Experimental and theoretical investigations on water desalination using direct contact membrane distillation," Desalination, vol. 404, pp. 22-34, 2017.
[6] D. Zhao, J. Zuo, K.-J. Lu, and T.-S. Chung, "Fluorographite modified PVDF membranes for seawater desalination via direct contact membrane distillation," Desalination, vol. 413, pp. 119-126, 2017.
[7] O. R. Lokare, S. Tavakkoli, S. Wadekar, V. Khanna, and R. D. Vidic, "Fouling in direct contact membrane distilla-tion of produced water from unconventional gas extraction," Journal of Membrane Science, vol. 524, pp. 493-501, 2017.
[8] M. Chandrashekara and A. Yadav, "Water desalination system using solar heat: A review," Renewable and Sus-tainable Energy Reviews, vol. 67, pp. 1308-1330, 2017.
[9] S. M. Alelyani, N. W. Fette, E. B. Stechel, P. Doron, and P. E. Phelan, "Techno-economic analysis of combined ammonia-water absorption refrigeration and desalination," Energy Conversion and Management, vol. 143, pp. 493-504, 2017.
[10] D.-C. Alarcón-Padilla and L. García-Rodríguez, "Application of absorption heat pumps to multi-effect distillation: a case study of solar desalination," Desalination, vol. 212, pp. 294-302, 2007.
[11] S. Mahmoudi, S. Salehi, and M. Yari, "Three-objective optimization of a novel triple-effect absorption heat trans-former combined with a water desalination system," Energy Conversion and Management, vol. 138, pp. 131-147, 2017.
[12] F. Vince, F. Marechal, E. Aoustin, and P. Bréant, "Multi-objective optimization of RO desalination plants," Desali-nation, vol. 222, pp. 96-118, 2008.
[13] C. Guria, P. K. Bhattacharya, and S. K. Gupta, "Multi-objective optimization of reverse osmosis desalination units using different adaptations of the non-dominated sorting genetic algorithm (NSGA)," Computers & chemical engi-neering, vol. 29, pp. 1977-1995, 2005.
[14] M. Hajeeh and A. Al-Othman, "Application of the analytical hierarchy process in the selection of desalination plants," Desalination, vol. 174, pp. 97-108, 2005.
[15] A. Aliewi, E. El-Sayed, A. Akbar, K. Hadi, and M. Al-Rashed, "Evaluation of desalination and other strategic management options using multi-criteria decision analysis in Kuwait," Desalination, vol. 413, pp. 40-51, 2017.
[16] F. P. Incropera, A. S. Lavine, T. L. Bergman, and D. P. DeWitt, Fundamentals of heat and mass transfer: Wiley, 2007.
[17] B. Huang, J. Chang, C. Wang, and V. Petrenko, "A 1-D analysis of ejector performance," International journal of refrigeration, vol. 22, pp. 354-364, 1999.
[18] Е. Я. Соколов, "Струйные аппараты," 1989.
[19] S. Genic, B. Jacimovic, S. Mitic, and P. Kolendic, “Economic analysis for process engineers”. Belgrade: SMEITS, 2014.
[20] S. Mirjalili, "The ant lion optimizer," Advances in Engineering Software, vol. 83, pp. 80-98, 2015.
[21] S. Mirjalili, P. Jangir, and S. Saremi, "Multi-objective ant lion optimizer: a multi-objective optimization algorithm for solving engineering problems," Applied Intelligence, vol. 46, pp. 79-95, 2017.