سامانه پشتیبانی خدمات اطلاعات

  اخبار و اعلانات

 آمار

تعداد نشریات161
تعداد شماره‌ها6,573
تعداد مقالات71,037
تعداد مشاهده مقاله125,522,763
تعداد دریافت فایل اصل مقاله98,782,484
Emami Meybodi, Mehdi, Samadi, Ali Hussein, Hadian, Ebrahim, Mosleh Shirazi, Ali Naghi. (1403). Iranian Natural Gas Production and Trade Behavior under Unconventional Gas Developments: A System Dynamics- Agent Based Modeling Approach. , 28(4), 1086-1116. doi: 10.22059/ier.2024.342391.1007444
Mehdi Emami Meybodi; Ali Hussein Samadi; Ebrahim Hadian; Ali Naghi Mosleh Shirazi. "Iranian Natural Gas Production and Trade Behavior under Unconventional Gas Developments: A System Dynamics- Agent Based Modeling Approach". , 28, 4, 1403, 1086-1116. doi: 10.22059/ier.2024.342391.1007444
Emami Meybodi, Mehdi, Samadi, Ali Hussein, Hadian, Ebrahim, Mosleh Shirazi, Ali Naghi. (1403). 'Iranian Natural Gas Production and Trade Behavior under Unconventional Gas Developments: A System Dynamics- Agent Based Modeling Approach', , 28(4), pp. 1086-1116. doi: 10.22059/ier.2024.342391.1007444
Emami Meybodi, Mehdi, Samadi, Ali Hussein, Hadian, Ebrahim, Mosleh Shirazi, Ali Naghi. Iranian Natural Gas Production and Trade Behavior under Unconventional Gas Developments: A System Dynamics- Agent Based Modeling Approach. , 1403; 28(4): 1086-1116. doi: 10.22059/ier.2024.342391.1007444

Iranian Natural Gas Production and Trade Behavior under Unconventional Gas Developments: A System Dynamics- Agent Based Modeling Approach

Iranian Economic Review
مقاله 1، دوره 28، شماره 4، اسفند 2024، صفحه 1086-1116    اصل مقاله (1.3 M)
نوع مقاله: Research Paper
شناسه دیجیتال (DOI): 10.22059/ier.2024.342391.1007444
نویسندگان
Mehdi Emami Meybodi1؛ Ali Hussein Samadi* 1؛ Ebrahim Hadian1؛ Ali Naghi Mosleh Shirazi2
1Department of Economics, Faculty of Economics, Management and Social Sciences, Shiraz University, Shiraz, Iran.
2Department of Management, Faculty of Economics, Management and Social Sciences, Shiraz University, Shiraz, Iran.
چکیده
Forecasting a growth in gas demand in the next 20 years, the Shale gas expansion, and major developments in the gas regional markets, show structural changes in gas trade. The question is whether the U.S. shale production expansion and the emergence of strategic resources in Iran, to increase its gas trade share in the Middle East, can cause a significant change in the world gas trade or not. Accordingly, the aim of this study is a systematic analysis of Iran's natural gas production. The system dynamics-agent-based modeling has been used to achieve this goal due to the dynamic nature of natural gas production and trade in Iran and its global trade in 2015-2035. The results show that the U.S. will become the largest gas trader in North America from 2020 onwards. Iran's share in gas exports of the Middle East gas trade has a trend in the form of a reversed U shape. By continuing the current status, Iran's percentage share will be reduced to less than 5%. This rate in the SD -AB model, which has a higher accuracy than the SD model, can reach over 35% by 2035 through the scenarios of a 75% increase in the exploration rate, a 20% increase in investment in development, and a 5% increase in investment in technology improvement. Based on these results, we can expect important changes in world gas trade during the next two decades.
کلیدواژه‌ها
Conventional Gas؛ Iran؛ Shale Gas؛ System Dynamics-Agent Based Modeling؛ United States
مراجع
British Petroleum (BP). (2020). Statistical Review of World Energy. Retrieved from https://www.bp.com/en/global/corporate/news-and-insights/press-releases/bp-statistical-review-of-world-energy-2020-published.html

Chi, C. K., Nuttall, W. J., & Reiner, D. M. (2009). Dynamics of the UK Natural Gas Industry: System Dynamics Modelling and Long-Term Energy Policy Analysis. Technological Forecasting and Social Change, 76(3), 339-357.

Eker, S., & Van Daalen, E. (2012). Uncertainties in the Development of Unconventional Gas in the Netherlands. The 30th International Conference of the System Dynamics Society, Retrieved from https://proceedings.systemdynamics.org/2012/proceed/papers/P1159.pdf

Faghih, N., Ranaei, H., Mohammadi, A., Samadi, A. H., Mousavi, M. H., & Ghafournian, M. (2013). Assessment of Iran's Communication Services Supply Chain with System Dynamics Approach. Journal of Industrial Management Perspective, 11, 111-137.

Feofilovs, M., Romagnoli, F., & Gravelsins, A. (2018). System Dynamics Model for Natural Gas Infrastructure with Storage Facility in Latvia. Energy Procedia, 147, 549-557.

Guo, Y., & Hawkes, A. (2018). Simulating the Game-theoretic Market Equilibrium and Contract-driven Investment in Global Gas Trade Using an Agent-based Method. Energy 160, 820-834.

Holz, F., Von Hirschhausen, C., & Kemfert, C. (2008). A Strategic Model of European gas Supply (GASMOD). Energy Economics, 30, 766-788.

International Energy Agency (IEA). (2019). World Energy Outlook. (1994 to 2019). Retrieved from https://iea.blob.core.windows.net/assets/98909c1b-aabc-4797-9926-35307b418cdb/WEO2019-free.pdf

Iran’s Ministry of Energy. (2023). Energy Balance Sheets, Deputy Minister of Electricity and Energy. Retrieved from https://moe.gov.ir/

Kiani, B., & Pourfakhraei, M. A. (2010). A System Dynamic Model for Production and Consumption Policy in Iran Oil and Gas Sector. Energy Policy, 38, 7764-7774.

Kunsch, P. L., & Friesewinkel, J. (2014). Nuclear Energy Policy in Belgium after Fukushima. Energy Policy, 66, 462-474.

Li, J., Xiucheng, D., Jianxin, S., & Höök, M. (2011). Forecasting the Growth of Chinese Natural Gas Consumption. Energy, 3, 1380-1385.

Moorlag, R., Auping, W. L., & Pruyt, E. (2014). Exploring the Effects of Shale Gas Development on Natural Gas Markets: A Multi-method Approach. The 32nd International Conference of the System Dynamics Society, Retrieved from https://proceedings.systemdynamics.org/2014/proceed/papers/P1378.pdf

Moorlag, R., Pruyt, E., Auping, W. L., & Kwakkel, J. H. (2015). Shale Gas and Import Dependency: A Multi-Method Model-Based Exploration. International Journal of System Dynamics Applications 4, 31-56.

Naill, R. F. (1974). The Discovery Life Cycle of a Finite Resource: A Case Study of U.S. Natural Gas. Cambridge: MIT Press.

Niki Oskoui, K., Behboudi, D., & Asgharpoor, H. (2018). Iran’s Natural Gas Export: An Agent-Based Model. Quarterly Journal of Energy Policy and Planning Research, 4, 67-97 (in Persian).

Razavi, S.M.H., & Zeinadini, F. (2018). The Effect of the Return of American Secondary Sanctions on Iran's Oil and Gas Industry: Opportunities and Threats. Energy Law Studies, 4, 37-60 (in Persian).

Samadi, A. H., & Eidizadeh, S. (2013). Designing a Dynamic Model for Iran Gas Industry: A System Dynamics Approach. Journal of Economic Modeling Research, 14, 151-181.

Samadi, A. H., & Emami Meybodi, M. (2015). Investigating the Impact of the Expansion of Unconventional Gas Resources on Iran's Natural Gas Production. Iranian Energy Economics Research Journal, 4, 1-42.

Sterman, J. D. (2000). Business Dynamics: Systems Thinking and Modeling for a Complex World. Boston: Irwin/McGraw-Hill.

U.S Energy Information Administration. (2023). EIA Data. Retrieved from https://www.eia.gov/

Xiao, J., Cheng, J., Shen, J. & Wang, X. (2017). A System Dynamics Analysis of Investment, Technology and Policy that Affect Natural Gas Exploration and Exploitation in China. Energies, 10, 1-19.

آمار
تعداد مشاهده مقاله: 34
تعداد دریافت فایل اصل مقاله: 54





سامانه مدیریت نشریات علمی. قدرت گرفته از سیناوب