Acknowledgement
이 성과는정보(과학기술정보통신부)의 재원으로 한국연구재단의 지원을 받아 수행된 연구임(No. 2021R1G1A1093355).
References
- Kanagaraj, S., Varanda, F. R., Zhil'tsova, T. V., Oliveira, M. S., and Simoes, J. A., "Mechanical Properties of High Density Polyeth-ylene/carbon Nanotube Composites," Composites Science and Technology 67, 3071(2007).
- Luyt, A., Molefi, J. and Krump, H., "Thermal, Mechanical and Electrical Properties of Copper Powder Filled Low-density and Linear Low-density Polyethylene Composites," Polymer Degradation and Stability 91, 1629(2006).
- Hotta, S. and Paul, D., "Nanocomposites Formed From Linear Low Density Polyethylene and Organoclays," Polymer 45, 7639 (2004).
- Kim, S. and Oh, S., "Impact of us Shale Gas on the Vertical and Horizontal Dynamics of Ethylene Price," Energies 13, 4479(2020).
- Jung, S., Jung, H. and Ahn, Y., "Optimal Economic-environmental Design of Heat Exchanger Network in Naphtha Cracking Center Considering Fuel Type and co2 Emissions," Energies 15, 9538(2022).
- Matar, S. and Hatch, L. F., Chemistry of Petrochemical Processes, Elsevier(2001).
- Geng, Z., Qin, L., Han, Y. and Zhu, Q., "Energy Saving and Prediction Modeling of Petrochemical Industries: A Novel Elm Based on Fahp," Energy 122, 350(2017).
- Pedram, S., Kaghazchi, T. and Ravanchi, M. T., "Performance and Energy Consumption of Membrane-distillation Hybrid Systems for Olefin-paraffin Separation," Chemical Engineering & Technology 37, 587(2014).
- Kumar, R., Golden, T., White, T. and Rokicki, A., "Novel Adsorption Distillation Hybrid Scheme for Propane/propylene Separation," Separation Science and Technology 27, 2157(1992).
- Motelica, A., Bruinsma, O. S., Kreiter, R., den Exter, M. and Vente, J. F., "Membrane Retrofit Option for Paraffin/olefin Separation? a Technoeconomic Evaluation," Industrial & Engineering Chemistry Research 51, 6977(2012).
- Khoshbin, R., Oruji, S. and Karimzadeh, R., "Catalytic Cracking of Light Naphtha over Hierarchical Zsm-5 Using Rice Husk Ash as Silica Source in Presence of Ultrasound Energy: Effect of Carbon Nanotube Content," Advanced Powder Technology 29, 2176 (2018).
- Li, B.-H., Castillo, Y. E. C. and Chang, C.-T., "An Improved Design Method for Retrofitting Industrial Heat Exchanger Networks Based on Pinch Analysis," Chemical Engineering Research and Design 148, 260(2019).
- Li, N., Wang, J., Kleme, J. J., Wang, Q., Varbanov, P. S., Yang, W., Liu, X. and Zeng, M., "A Target-evaluation Method for Heat Exchanger Network Optimisation with Heat Transfer Enhancement," Energy Conversion and Management 238, 114154(2021).
- Borgogna, A., Iaquaniello, G., Salladini, A., Agostini, E. and Boccacci, M., "Chemical Carbon and Hydrogen Recycle ThroughWaste Gasification: The Methanol Route," Gasification, 85(2021).
- Yoon, S.-G., Lee, J. and Park, S., "Heat Integration Analysis for an Industrial Ethylbenzene Plant Using Pinch Analysis," Applied Thermal Engineering 27, 886(2007).
- Joe, J. M. and Rabiu, A. M., "Retrofit of the Heat Recovery System of a Petroleum Refinery Using Pinch Analysis," (2013).
- Abbaszadeh, S. and Hassim, M. H., "Comparison of Methods Assessing Environmental Friendliness of Petrochemical Process Design," Journal of Cleaner Production 71, 110(2014).
- Fakhroleslam, M. and Sadrameli, S. M., "Thermal/catalytic Cracking of Hydrocarbons for the Production of Olefins; a State-of-the-art Review iii: Process Modeling and Simulation," Fuel 252, 553(2019).
- Lee, J. and Park, S.-K., "Synthesis of Carbon Materials From Pfo, Byproducts of Naphtha Cracking Process," Applied Chemistry for Engineering 22, 495(2011).
- Ren, T., Patel, M. and Blok, K., "Olefins from Conventional and Heavy Feedstocks: Energy Use in Steam Cracking and Alternative Processes," Energy 31, 425(2006).
- Li, N., Wang, J., Kleme, J. J., Wang, Q., Varbanov, P. S., Yang, W., Liu, X. and Zeng, M., "A Target-evaluation Method for Heat Exchanger Network Optimisation with Heat Transfer Enhancement," Energy Conversion and Management 238, 114154(2021).
- Al-Riyami, B. A., Kleme, J. and Perry, S., "Heat Integration Retrofit Analysis of a Heat Exchanger Network of a Fluid Cat- alytic Cracking Plant," Applied Thermal Engineering 21, 1449(2001).
- Kemp, I. C., Pinch Analysis and Process Integration: A User Guide on Process Integration for the Efficient Use of Energy, Else- vier(2011).
- Kemp, I. C., Pinch Analysis and Process Integration: A User Guide on Process Integration for the Efficient Use of Energy, Elsevier(2011).
- Liu, J., Zhang, P., Xie, Q., Liang, D. and Bai, L., "Flexibility Analysis and Design of Heat Exchanger Network for Syngas-to-methanol Process," International Journal of Coal Science & Technology, 1(2021).
- Yamaki, T., Sakai, M., Matsukata, M., Tsutsuminai, S., Sakamoto, N., Toratani, N. and Kataoka, S., "Impact of Process Configuration on Energy Consumption and Membrane Area in Hybrid Separation Process Using Olefin-selective Zeolite Membrane," Separation and Purification Technology 294, 121208(2022).
- March, L., "Introduction to Pinch Technology," Targeting House, Gadbrook Park, Northwich, Cheshire, CW9 7UZ, England(1998).
- Islam, F., Sustainability Assessment of Direct Energy Deposition (ded) Based Hybrid Manufacturing Using Life Cycle Assessment (lca) Method, West Virginia University(2021).
- Ganjehkaviri, A., Jaafar, M. M. and Hosseini, S. E., "Optimization and the Effect of Steam Turbine Outlet Quality on the Output Power of a Combined Cycle Power Plant," Energy Conversion and Management 89, 231(2015).
- Gao, Y. Q., "An Integrate-over-temperature Approach for Enhanced Sampling," Journal of Chemical Physics 128, 064105(2008).
- Beninca, M., Trierweiler, J. O. and Secchi, A. R., "Heat Integration of an Olefins Plant: Pinch Analysis and Mathematical Optimization Working Together," Brazilian Journal of Chemical Engineering 28, 101(2011).
- Wiebe, K. S., Bruckner, M., Giljum, S. and Lutz, C., "Calculating Energy-related co2 Emissions Embodied in International Trade Using a Global Input-output Model," Economic Systems Research 24, 113(2012).