Abstract
With the heightened awareness of global environmental issues of greenhouse gas emissions by fossil fuels as non-renewable energy resources, the application of renewable energies (REs) has emerged as one of the most significant policies in most of the countries throughout the world. Although Iran is blessed with high potential of RE resources such as solar, wind, and geothermal, development of such resources, however, has been neglected due to the various reasons. Considering the long time needed to develop and deploy RE resources, a long-term planning is required in this area. Therefore, applying the scenario planning method, this research develops four scenarios in Iran’s 2025 vision, through a combination of the changes in energy consumption and RE generation: green path, standardization, fossil energy, and non-targeted subsidy. Developed scenarios are then compared with the government plan for utilizing REs in 10 % of total electric power generation in a 20-year vision. Results indicate that standardization and fossil energy are the most probable scenarios. Green path is the most optimistic scenario for the country, suggesting the goal of producing 10 % of total electricity share through REs could be achievable by 2025. And the non-targeted subsidy is the most pessimistic and unexpected scenario for the country.
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References
Abbaszadeh P et al (2013) Iran’s oil development scenarios by 2025. Energy Policy 56:612–622
Alessandri T, Ford D, Lander D, Leggio K, Taylor M (2004) Managing risk and uncertainty in complex capital projects. Q Rev Econ Financ 44:751–767
Atabi F (2004) Renewable energy in Iran: challenges and opportunities for sustainable development. Int J Environ Sci Technol 1(1):69–80
Azadi AK, Yarmohammad MH (2011) Analysis of Iran’s crude oil export future capacity. Energy Policy 39:3316–3326
Badamfirooz J, Mahesha M (2013) An economic study on the effect of energy subsidy on industries in Iran. Gold Res Thoughts 2(7):2231–5063. http://aygrt.isrj.net/UploadedData/1917.pdf. Accessed 4 July 2014
Bañuls VA, Salmeron JL (2007a) A scenario-based assessment model—SBAM. Technol Forecast Soc Change 74:750–762
Bañuls VA, Salmeron JL (2007b) Benchmarking the information society in the long range. Futures 39(1):83–95
Bañuls VA, Turoff M, Lopez-Silva J (2010) Clustering scenarios via cross impact analysis. ISCRAM, Seattle (EE.UU)
Bañuls VA, Turoff M, Hiltz SR (2012) Supporting collaborative scenario analysis through cross-impact. In: Proceedings of the 9th international ISCRAM conference, Vancouver, Canada
Bilgin M (2011) Scenarios on European energy security: outcomes of natural gas strategy in 2020. Futures 43(10):1082–1090
Bishop P, Hines A, Collins T (2007) The current state of scenario development: an overview of techniques. Foresight 9(1):5–25
BP (2012) Statistical report of world energy
Buckley C (1995) Delphi: a methodology for preferences more than predictions. Libr Manag 16(7):16–19
Chen TY, Yu OS, Hsu GJ, Hsu FM, Sung WN (2009) Renewable energy technology portfolio planning with scenario analysis: a case study for Taiwan. Energy Policy 37(8):2900–2906
Cho KT, Kwom CS (2004) Hierarchies with dependence of technological alternatives: a cross impact hierarchy process. Eur J Oper Res 156(2):420–432
Criqui P, Mima S (2012) European climate—energy security nexus: a model based scenario analysis. Energy Policy 41:827–842
Dewulf G, Schaaf P (1998) Portfolio management in the midst of uncertainties: how scenario planning can be useful. J Corp Real Estate 1(1):19–28
Dong C, Huang GH, Cai YP, Liu Y (2013) Robust planning of energy management systems with environmental and constraint-conservative considerations under multiple uncertainties. Energy Convers Manag 65:471–486
Economy watch (2010) Iran export, import & trade. http://www.economywatch.com/world_economy/iran/export-import.html/. Accessed 29 June 2010
EIA (2010) World consumption of primary energy by energy type and selected country groups. http://www.eia.doe.gov/pub/international/iealf/table18.xls. Accessed 10 Sept 2010
EIA (2012) International energy statistics
Enerdata (2012) Global energy statistical yearbook. http://yearbook.enerdata.net/. Accessed 3 Nov 2013
Fadai D, Shams Z, Abbasi A (2011) Analyzing the causes of non-development of renewable energy-related industries in Iran. Renew Sustain Energy Rev 15:2690–2695
Fernandes L, Ferreira P (2014) Renewable energy scenarios in the Portuguese electricity system. Energy 69(1):51–57
Fortes P, Alvarenga A, Seixas J, Rodrigues S (2014) Long-term energy scenarios: bridging the gap between socio-economic storylines and energy modeling. Technol Forecast Soc Chang. doi:10.1016/j.techfore.2014.02.006
Four scenes (2014) Scenario planning, creating challenging and plausible views of the future. http://www.fourscenes.com.au/scenario.html. Accessed 10 Sept 2014
Geem ZW, Roper WE (2009) Energy demand estimation of South Korea using artificial neural network. Energy Policy 37(10):4049–4054
Ghanadan R, Koomey JG (2005) Using energy scenarios to explore alternative energy pathways in California. Energy Policy 33(9):1117–1142
Ghobadian B, Najafi G, Rahimi H, Yusaf TF (2009) Future of renewable energies in Iran. Renew Sustain Energy Rev 13:689–695
Ghorashi AH, Rahimi A (2011) Renewable and non-renewable energy status in Iran: art of know-how and technology-gaps. Renew Sustain Energy Rev 15:729–736
Glenn JC, Gordon, TJ (1994) Futures research methodology: version 2.0, AC/UNU Millennium Project
Grave K, Paulus M, Lindenberger D (2012) A method for estimating security of electricity supply from intermittent sources: scenarios for Germany until 2030. Energy Policy 46:193–202
Guerra DA, Dutra L, Beatriz N, Schwinden C, Andrade SF (2014) Future scenarios and trends in energy generation in Brazil: supply and demand and mitigation forecasts. J Clean Prod. doi:10.1016/j.jclepro.2014.09.082
Hepbasli A (2010) A review on energetic, exergetic and exergoeconomic aspects of geothermal district heating systems (GDHSs). Energy Convers Manag 51:2041–2061
IEEO-SABA (2014) Iran energy efficiency organization. Tehran, Iran
IMF (2013) Energy subsidy reform: lessons and implications. International Monetary Fund. http://www.imf.org/external/np/pp/eng/2013/012813.pdf. Accessed 23 Sep 2014
Iran Institute for International Energy Studies (IIES) (2010) Hydrocarbon balance 2008. Iran Institute for International Energy Studies (IIES), Tehran
Irandiplomacy (2014) Iran’s subsidy reform a successful example of income distribution. IMF. http://www.irdiplomacy.ir/en/page/1935700/Iran%E2%80%99s+subsidy+reform+a+successful+example+of+income+distribution+IMF.html. Accessed 10 Sept 2014
Islamic Parliament Research Center (2012) Office of energy, industry and mining
Jewell J, Cherp A, Riahi K (2014) Energy security under de-carbonization scenarios: an assessment framework and evaluation under different technology and policy choices. Energy Policy 65:743–760
Jiang K, Hu X (2006) Energy demand and emissions in 2030 in China: scenarios and policy options. Environ Econ Policy Stud 7(3):233–250
Johnson G, Scholes K (2010) Exploring corporate strategy-text and cases, 7th edn. Prentice Hall, London
Kiani B, Pourfakhraei MA (2010) A system dynamic model for production and consumption policy in Iran oil and gas sector. Energy Policy 38:7764–7774
Kosow H, Gabner R (2008) Methods of future and scenario analysis: overview, assessment, and selection criteria. Deutsches Institut für Entwicklungspolitik
Logan et al (2013) Natural gas scenarios in the U.S. power sector. Energy Econ 40:183–195
Markley OW (1988) Using depth intuition in creative problem solving and strategic innovation. J Creative Behav 22(2):65–100
Menck N, Weidig C, Aurich JC (2014) Approach for predicting production scenarios focused on cross impact analysis. In: Procedia CIRP, variety management in manufacturing—proceedings of the 47th CIRP conference on manufacturing systems, 17, pp 493–498
Mietzner D, Reger G (2004) Scenario-approaches: history, differences, advantages and disadvantages. In: Proceedings of the EU-US scientific seminar: new technology foresight, forecasting & assessment methods in Seville, Spain
Ministry of Power (2009) Energy balance 2008. Tehran, Iran
Ministry of Power (2010) Energy balance 2009. Tehran, Iran
Ministry of Power (2012) Energy balance 2011. Tehran, Iran
Ministry of Power (2013) Energy balance 2012. Tehran, Iran
Nejat P, Morsoni AK, Jomehzadeh F, Behzad H, Vesali MS, Majid MA (2013) Iran’s achievements in renewable energy during fourth development program in comparison with global trend. Renew Sustain Energy Rev 22:561–570
Paltsev S (2014) Scenarios for Russia’s natural gas exports to 2050. Energy Economics 42:262–270
Pillkahn U (2008) Using trends and scenarios as tools for strategy development. Publicis Kommunikations Agentur GmbH, Germany, Erlangen
Porter M (1985) Competitive advantage. Free Press, New York
Purkus A, Barth V (2011) Geothermal power production in future electricity markets—a scenario analysis for Germany. Energy Policy 39(1):349–357
Rachmatullah C, Aye L, Fuller RJ (2007) Scenario planning for the electricity generation in Indonesia. Energy Policy 35(4):2352–2359
Renn O (2003) Social assessment of waste energy utilization scenarios. Energy 28(13):1345–1357
Ringland G (1998) Scenario planning: managing for the future. Wiley, New York
Scarlat N, Franc J, Dallemand O, Banja M (2013) Possible impact of 2020 bioenergy targets on European Union land use. A scenario-based assessment from national renewable energy action plans proposals. Renew Sustain Energy Rev 18:595–606
Schwartz P (1991) The art of the long view: planning for the future in an uncertain world. Currency Doubleday, New York
Schwartz P (1996) The art of the long view: planning for the future in an uncertain world. Currency Doubleday, New York
Schwartz P (1999) The art of the long view: planning for the future in the uncertain world. John Wiley and Sons, New York
Shoemaker P (1995) Scenario planning: a tool for strategic thinking. Sloan Manag Rev 36(2):25–40
Silberglitt R, Hove A, Shulman P (2003) Analysis of US energy scenarios: meta-scenarios, pathways, and policy implications. Technol Forecast Soc Change 70:297–315
SolarGIS (2014) Maps of global horizontal irradiation. SolarGIS © 2013 GeoModel Solar s.r.o. http://solargis.info/doc/71. Accessed 12 Sept 2014
Tanatvanit S, Limmeechokchai B (2003) Sustainable energy development strategies: implications of energy demand management and renewable energy in Thailand. Renew Sustain Energy Rev 7:367–395
Tasnim News Agency (2013) http://www.tasnimnews.com/Home/Single/105538. Accessed 10 Sept 2013
Tavanir (2012) http://news.tavanir.org.ir/press/press_detail.php?id=21941. Accessed 5 Aug 2013
Tiglay L (2014) Analysis of the Iranian energy sector integration to the global energy market within the context of three key parameters: institutions, economics and sanctions. School of Oriental and African Studies (University of London)
Turcotte DL, Schubert G (2002) Geodynamics. Cambridge University Press, Cambridge
Urban F (2009) Sustainable energy for developing countries: modelling transitions to renewable and clean energy in rapidly developing countries. University of Groningen. http://irs.ub.rug.nl/ppn/317353152. Accessed 4 Sept 2014
Van der HK (1996) Scenarios: the art of strategic conversation. Wiley, New York
Vuuren DV, Fengqi Z, Vries BD, Kejun J, Graveland C, Yun L (2003) Energy and emission scenarios for China in the 21st century—exploration of baseline development and mitigation options. Energy Policy 31(4):369–387
Wack P (1985) Scenarios: shooting the rapids. Harvard Bus Rev 63(6):139–150
Walsh PR (2005) Dealing with the uncertainties of environmental change by adding scenario planning to the strategy reformulation equation. Manag Decis 43(1):113–122
Wang YW, Lan WT (2007) Combined forecast process: combining scenario analysis with the technological substitution model. Technol Forecast Soc Change 74:357–378
Wang H, Zhou P, Zhou DQ (2013) Scenario-based energy efficiency and productivity in China: a non-radial directional distance function analysis. Energy Econ 40:795–803
Weimer-Jehle W (2006) Cross-impact balances: a system-theoretical approach to cross impact analysis. Technol Forecast Soc Change 73:334–336
Weldegiorgis FS, Franks DM (2014) Social dimensions of energy supply alternatives in steelmaking: comparison of biomass and coal production scenarios in Australia. J Clean Prod 84:281–288
Yousefi H, Ehara S, Noorollahi Y (2007) Geothermal potential site selection using GIS in Iran. In: Proceedings of the 32nd workshop on geothermal reservoir engineering, Stanford University, Stanford, California, pp 174–82
Yousefi H et al (2010) Developing the geothermal resources map of Iran. Geothermics 39:140–151
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Chaharsooghi, S.K., Rezaei, M. & Alipour, M. Iran’s energy scenarios on a 20-year vision. Int. J. Environ. Sci. Technol. 12, 3701–3718 (2015). https://doi.org/10.1007/s13762-015-0829-7
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DOI: https://doi.org/10.1007/s13762-015-0829-7