The development of suitable financing models plays an important role for long-term investments in green energy infrastructures necessary to achieve energy and climate targets. In this context, it is important to state that people do not demand energy per se, but energy services such as mobility, heating, cooking and lighting. These services are provided by a combination of different energy carriers and technologies. In this paper, the focus lies on the optimal financing of innovative technologies from the society's point-of-view. Therefore, long-term financing models of new energy solutions play a key role in three core areas: (ⅰ) investments in renewable energy technologies, e.g., large solar thermal, PV, wind power systems, (ⅱ) investments in new network infrastructure for electricity, district heating, hydrogen, charging stations for battery electric vehicles, etc.; (ⅲ) investments in energy efficiency. In this paper we observe that there is practically no degree of freedom in the market regarding choice of financing parameters such as interest rate and depreciation time. In real life, all long-term investments, e.g., in the area of electricity or district heating networks, are located in a strictly regulated environment.
Citation: Reinhard Haas, Amela Ajanovic, Jasmine Ramsebner, Theresia Perger, Jaroslav Knápek, Jan W. Bleyl. Financing the future infrastructure of sustainable energy systems[J]. Green Finance, 2021, 3(1): 90-118. doi: 10.3934/GF.2021006
The development of suitable financing models plays an important role for long-term investments in green energy infrastructures necessary to achieve energy and climate targets. In this context, it is important to state that people do not demand energy per se, but energy services such as mobility, heating, cooking and lighting. These services are provided by a combination of different energy carriers and technologies. In this paper, the focus lies on the optimal financing of innovative technologies from the society's point-of-view. Therefore, long-term financing models of new energy solutions play a key role in three core areas: (ⅰ) investments in renewable energy technologies, e.g., large solar thermal, PV, wind power systems, (ⅱ) investments in new network infrastructure for electricity, district heating, hydrogen, charging stations for battery electric vehicles, etc.; (ⅲ) investments in energy efficiency. In this paper we observe that there is practically no degree of freedom in the market regarding choice of financing parameters such as interest rate and depreciation time. In real life, all long-term investments, e.g., in the area of electricity or district heating networks, are located in a strictly regulated environment.
| [1] |
Ajanovic A (2015) The future of electric vehicles: prospects and impediments. WIREs Energy Environ 4: 521-536. doi: 10.1002/wene.160
|
| [2] |
Ajanovic A, Haas R (2019) Economic and Environmental Prospects for Battery Electric- and Fuel Cell Vehicles: A Review. Fuel Cells 19: 515-529. doi: 10.1002/fuce.201800171
|
| [3] |
Ajanovic A, Haas R (2012) The role of efficiency improvements vs. Price effects for modeling passenger car transport demand and energy demand-Lessons from European countries. Energy Policy 41: 36-46. doi: 10.1016/j.enpol.2011.03.086
|
| [4] |
Ajanovic A, Haas R (2018) Economic prospects and policy framework for hydrogen as fuel in the transport sector. Energy Policy 123: 280-288. doi: 10.1016/j.enpol.2018.08.063
|
| [5] | Ajanovic A, Hiesl A, Haas R (2020) On the role of storage for electricity in smart energy systems. Energy 200: 117473. |
| [6] |
Angelopoulos D, Doukas H, Psarras J, et al. (2017) Risk-based analysis and policy implications for renewable energy investments in Greece. Energy Policy 105: 512-523. doi: 10.1016/j.enpol.2017.02.048
|
| [7] | Arrow KJ, Sen A, Suzumura K (2010) Handbook of Social Choice and Welfare (1. Edition), North Holland. |
| [8] | Attac (2011) Geheimhaltung- Attac Deutschland-Www.attac.de. Attac Deutschland. Available from: https://www.attac-netzwerk.de/ag-de-privatisierung/ppp/geheimhaltung/. |
| [9] | BAFin (former BAKred) (1997) Rundschreiben vom 6. August 1997, Gesch.-Nr. Ⅲ 1-11.33.10.1. |
| [10] | Becker D (2020) Finance for future. New Energy, 20-25. |
| [11] | Berger A (2018) Innovation-City Bottrop-Die klimafreundliche Industriestadt. Deutschlandfunk. Available from: https://www.deutschlandfunk.de/innovation-city-bottrop-die-klimafreundliche-industriestadt.724.de.html?dram:article_id=431226. |
| [12] |
Bleyl JW, Schinnerl D (2008) "Energy-Contracting" to Achieve Energy Efficiency and Renewables using Comprehensive Refurbishment of Buildings as an Example: A Guide for Building Owners and ESCos. Urban Energy Transition, 387-408. doi: 10.1016/B978-0-08-045341-5.00017-7
|
| [13] | Bleyl JW (2009) What is Energy Contracting (ESCo services)? Concept, Definition, Two Basic Business Models. Available from: https://docplayer.net/6418352-What-is-energy-contracting-esco-services-concept-definition-two-basic-business-models.html. |
| [14] |
Bleyl JW, Bareit M, Casas MA, et al. (2019) Office building deep energy retrofit: Life cycle cost benefit analyses using cash flow analysis and multiple benefits on project level. Energy Effic 12: 261-279. doi: 10.1007/s12053-018-9707-8
|
| [15] |
Boyes WJ (1976) An Empirical Examination of the Averch-Johnson Effect. Econ Inquiry 14: 25-35. doi: 10.1111/j.1465-7295.1976.tb00374.x
|
| [16] | Brealey R, Myers S, Allen F (2019) Principles of Corporate Finance. Available from: https://www.mheducation.com/highered/product/principles-corporate-finance-brealeymyers/M9781260013900.html. |
| [17] |
Brown D, Sorrell S, Kivimaa P (2019) Worth the risk? An evaluation of alternative finance mechanisms for residential retrofit. Energy Policy 128: 418-430. doi: 10.1016/j.enpol.2018.12.033
|
| [18] |
Broughel AE, Hampl N (2018) Community financing of renewable energy projects in Austria and Switzerland: Profiles of potential investors. Energy Policy 123: 722-736. doi: 10.1016/j.enpol.2018.08.054
|
| [19] | Climate Bonds Initiative (2013) Climate Bonds for Beginners. Climate Bonds Initiative. Available from: https://www.climatebonds.net/resources/overview/climate-bonds-for-beginners. |
| [20] | Corporate Finance Institute (2021) Risk-Definition, Types, Adjusment and Measurement. Corporate Finance Institute. Available from: https://corporatefinanceinstitute.com/resources/knowledge/finance/risk/. |
| [21] | EIB (2005) Evaluierung von durch die EIB finanzierten PPP-Projekten. |
| [22] |
Eitan A, Herman L, Fischhendler I, et al. (2019) Community-private sector partnerships in renewable energy. Renew Sust Energy Rev 105: 95-104. doi: 10.1016/j.rser.2018.12.058
|
| [23] | Farber A, Gillet RL, Szafarz A (2006) A General Formula for the WACC (SSRN Scholarly Paper ID 898420). Social Science Research Network. Available from: https://papers.ssrn.com/abstract=898420. |
| [24] | Gallaher MP, Link AN, O'connor A (2012) Gallaher, M: Public Investments in Energy Technology, Edward Elgar Publishing. |
| [25] |
Gatzert N, Vogl N (2016) Evaluating investments in renewable energy under policy risks. Energy Policy 95: 238-252. doi: 10.1016/j.enpol.2016.04.027
|
| [26] |
Gouldson A, Kerr N, Millward-Hopkins J, et al. (2015) Innovative financing models for low carbon transitions: Exploring the case for revolving funds for domestic energy efficiency programmes. Energy Policy 86: 739-748. doi: 10.1016/j.enpol.2015.08.012
|
| [27] | Haas R (1992) Verbraucherseitige Energiesparstrategien ein analytischer Ü berblick. Zeitschrift für Energiewirtschaft 16: 23-31. |
| [28] | Haas R, Nakicenovic N, Ajanovic A, et al. (2008) Towards sustainability of energy systems: A primer on how to apply the concept of energy services to identify necessary trends and policies. Energy Policy, 10. |
| [29] | Hall BH, Rosenberg N (2010) Handbook of the Economics of Innovation, Elsevier. |
| [30] | House of Commons-Treasury Committee (2001) The private finance initiative (PFI). Available from: https://commonslibrary.parliament.uk/research-briefings/rp01-117/. |
| [31] | House of Commons-Treasury Committee (2011) Private Finance Initiative. Available from: https://publications.parliament.uk/pa/cm201012/cmselect/cmtreasy/1146/1146.pdf. |
| [32] | Inderst G (2017) UK Infrastructure Investment and Finance from a European and Global Perspective (SSRN Scholarly Paper ID 2972704). Social Science Research Network. Available from: https://doi.org/10.2139/ssrn.2972704. |
| [33] | IRENA (2020) Renewable energy finance: Green bonds. |
| [34] |
Mazzucato M, Semieniuk G (2018) Financing renewable energy: Who is financing what and why it matters. Technol Forecasting Social Change 127: 8-22. doi: 10.1016/j.techfore.2017.05.021
|
| [35] |
Ming Z, Ximei L, Yulong L, et al. (2014) Review of renewable energy investment and financing in China: Status, mode, issues and countermeasures. Renew Sust Energy Rev 31: 23-37. doi: 10.1016/j.rser.2013.11.026
|
| [36] | Plenty TC, Chen SE, McGeorge WD (1999) Accrued value assessment-a dynamic approach for investment appraisal and facilities management. In: Eighth International Conference on Durability of Building Materials and Components, 8: 1765-1772. |
| [37] |
Polzin F, Egli F, Steffen B, et al. (2019) How do policies mobilize private finance for renewable energy?-A systematic review with an investor perspective. Applied Energy 236: 1249-1268. doi: 10.1016/j.apenergy.2018.11.098
|
| [38] | Rügemer W (2014) Heuschrecken im öffentlichen Raum, In: Heuschrecken im öffentlichen Raum, transcript-Verlag. |
| [39] | Sachs JD, Woo WT, Yoshino N, et al. (2019) Importance of Green Finance for Achieving Sustainable Development Goals and Energy Security, In: J. D. Sachs, W. T. Woo, N. Yoshino, & F. Taghizadeh-Hesary (Eds.), Handbook of Green Finance: Energy Security and Sustainable Development, Springer, 3-12. |
| [40] |
Salm S, Hille SL, Wüstenhagen R (2016) What are retail investors' risk-return preferences towards renewable energy projects? A choice experiment in Germany. Energy Policy 97: 310-320. doi: 10.1016/j.enpol.2016.07.042
|
| [41] |
Sorrell S (2007) The economics of energy service contracts. Energy Policy 35: 507-521. doi: 10.1016/j.enpol.2005.12.009
|
| [42] | VÖL (2017) Leasing in Österreich. Available from: https://www.leasingverband.at/wp-content/uploads/2017/03/V%C3%96L-Brosch%C3%BCre-Leasing-in-%C3%96sterreichM%C3%A4rz-2017.pdf. |
| [43] | Wagner HJ, Wagner N (2020) Kosten- und Investitionsrechnung, Energie und Nachhaltigkeit, Lit Verlag, Berlin. |
| [44] |
Walker IO, Wirl F (1993) Irreversible Price-Induced Efficiency Improvements: Theory and Empirical Application to Road Transportation. Energy J 14: 183-205. doi: 10.5547/ISSN0195-6574-EJ-Vol14-No4-12
|
| [45] | World Bank (2018) Green bond impact report. |
| [46] | World Bank (2018) World Bank Marks 10-Year Green Bond Anniversary with Landmark Issuance US$1.3 Billion Issuances Bring World Bank Green Bond Program to US$12.6 Billion [Text/HTML]. World Bank. Available from: https://www.worldbank.org/en/news/press-release/2018/11/13/world-bank-marks-10-year-green-bond-anniversary-with-landmarkissuance-us-1-2-billion-issuances-bring-world-bank-green-bond-program-to-us-12-6-billion. |
| [47] |
Yildiz Ö (2014) Financing renewable energy infrastructures via financial citizen participation-The case of Germany. Renew Energy 68: 677-685. doi: 10.1016/j.renene.2014.02.038
|
| [48] | Zweifel P, Praktiknjo A, Erdmann G (2017) Energy Economics: Theory and Applications, Springer-Verlag. |
Figures(10) / Tables(1)
Reinhard Haas, Amela Ajanovic, Jasmine Ramsebner, Theresia Perger, Jaroslav Knápek, Jan W. Bleyl. Financing the future infrastructure of sustainable energy systems[J]. Green Finance, 2021, 3(1): 90-118. doi: 10.3934/GF.2021006
DownLoad: