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Analysis of C3 fraction splitting system performance by mathematical modeling in MATLAB environment

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Alhajji M, Demirel Y (2015) Energy and environmental sustainability assessment of a crude oil refinery by thermodynamic analysis. International Journal of Energy Research 39: 1925—1941.10.1002/er.3419Search in Google Scholar

Al-Rowaili FN, Ba-Shammakh MS (2017) Maximisation of an oil refinery profit with products quality and NO2 constraints. Journal of Cleaner Production, 165: 1582—1597.10.1016/j.jclepro.2017.07.095Search in Google Scholar

Danilov Y, Sinkevich I, Lavrova I, Mardupenko A, Tulskaya A (2018) Energy saving technologies in the petroleum refining processes, Petroleum and Coal 60(1): 128—133.Search in Google Scholar

DeCarolis J, Daly H, Dodds P, Keppo I, Li F, McDowall W, Pye S, Strachan N, Trutnevyte E, Usher W, Winnig H, Yeh S, Zeyringer M (2017) Formalizing best practice for energy system optimization modeling. Applied Energy, 194: 184—198.10.1016/j.apenergy.2017.03.001Search in Google Scholar

Demirel Y (2004) Thermodynamic Analysis of Separation Systems. Papers in Thermal Mechanics, 39: 3897—3942.10.1081/SS-200041152Search in Google Scholar

EIA (2016) International Energy Outlook 2016. Washington, USA: Energy Information Admi nistration, U.S. Department of Energy. https://www.eia.gov/outlooks/ieo/pdf/0484(2016).pdf. Accessed on 15. 1. 2019.Search in Google Scholar

Fonyo F, Benkö N (1998) Comparison of various heat pump assisted distillation configurations. Chemical Engineering Research and Design, 76(3): 348—360.10.1205/026387698524776Search in Google Scholar

Gadalla MA, Abdelaziz OY, Kamel DA, Ashour FH (2015) A rigorous simulation-based procedure for retrofitting an existing Egyptian refinery distillation unit. Energy, 83: 756—765.10.1016/j.energy.2015.02.085Search in Google Scholar

Hasanbeigi A, Price L (2010) Industrial Energy Audit Guidebook: Guidelines for Conducting an Energy Audit in Industrial Facilities. https://eetd.lbl.gov/sites/all/files/publications/lbl-3991e-industrial-audit-guidebookoct-2010.pdf. Accessed on 3. 9. 2018.10.2172/992484Search in Google Scholar

Chudinova AA, Buchatskaya NI, Podgornyi VV, Gavrikov AA, Ivashkina EN, Dolganova IO (2016) Increase of efficiency isopropylbenzene manufacturing with use of integrated mathematical models. Petroleum and Coal, 58(2): 155—160.Search in Google Scholar

Chuzlov VA, Molotov KV (2016) Development of computer modeling system as a tool for light naphtha isomeration improvement. Petroleum and Coal, 58(1): 47—55.Search in Google Scholar

Kazemi A, Hosseimi M, Mehrabani-Zeinabad A, Faizi V (2016) Evaluation of different vapor recompression distillation configurations based on energy requirements and associated costs, Applied Thermal Engineering, 94: 305—313.10.1016/j.applthermaleng.2015.10.042Search in Google Scholar

Li J, Xiao X, Boukouvala F, Floudas ChA, Zhao B, Du G, Su X, Liu H (2016) Data-Driven Mathematical Modeling and Global Optimization Framework for Entire Petrochemical Planning Operations. AIChE Journal, 62: 3020—3040.10.1002/aic.15220Search in Google Scholar

MOL (2016) MOL GROUP strategy 2030, business presentation. https://molgroup.info/strategy2030/. Accessed on 21. 1. 2019.Search in Google Scholar

Morrow III WR, Marano J, Hasanbeigi A, Masanet E, Sathaye J (2015) Efficiency improvement and CO2 emission reduction potentials in the United States petroleum refining industry. Energy, 93: 95—105.10.1016/j.energy.2015.08.097Search in Google Scholar

Perry RH et al (1997) Physical and Chemical Data.In: Perry’s Chemical Engineers’ Handbook — 7th Edition, London, McGraw — Hill Professional.Search in Google Scholar

Vall J (2011) Industry and its impact on the environment in Slovak republic in 2011 — sector report. (in Slovak) Slovak Environment Agency Banská Bystrica. https://www.enviroportal.sk/uploads/report/sprava-priem-2013-final.pdf. Accessed on 16. 1. 2019.Search in Google Scholar

Variny M, Blahušiak M, Mierka O, Kováč N (2013) Analysis of energy effectiveness of C3 fraction splitting techniques implemented in Slovnaft refinery. In: Proceedings of the 4th International Conference on Chemical Technology ICCT 2013, Mikulov, Česká republika: 78—82.Search in Google Scholar

Variny M, Mierka O, Gašparovič L (2015) Experiences and future prospects of GRUCON — SLOVNAFT cooperation in energy auditing field. In Proceedings of the 42nd International Conference of SSCHE. Bratislava: Slovak Society of Chemical Engineering, 2015: 351—358.Search in Google Scholar

Vilarinho AN, Campos JBLM, Pinho C (2016) Energy and exergy analysis of an aromatics plant. Case Studies in Thermal Engineering, 8: 115—127.10.1016/j.csite.2016.06.003Search in Google Scholar

Worell E, Corsten M, Galitsky Ch (2015) Energy Efficiency Improvement and Cost Saving Opportunities for Petroleum Refineries. An ENERGY STAR® Guide for Energy and Plant Managers. A document prepared for The United States Environmental Protection Agency. www.energystar.gov/industry. Accessed on 17. 1. 2019.Search in Google Scholar

You X, Rodriguez-Donis I, Gerbaud V (2016) Reducing process cost and CO2 emissions for extractive distillation by double-effect heat integration and mechanical heat pump.Applied Energy, 166: 128—140.10.1016/j.apenergy.2016.01.028Search in Google Scholar

eISSN:
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Sujets de la revue:
Chemistry, other