Barriers and Risks to Renewable Energy Financing

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Overview

There are a number of key risks and barriers that can threaten investment in renewable energy (RE) projects and thus prevent the uptake of desirable technologies.


Barriers for RE in the Steps Towards Financial Closure. Source: Lindlein, P. & Mostert, W., 2005. Financing Renewable Energies - Instruments, Strategies, Practice Approaches, KfW.

Lindlein & Mostert (2005)[1] have suggested that it is appropriate to group these barriers by the market categories supply, demand and framework conditions. From this view the most pervasive barriers to financing renewable energy from demand to supply are categorised as:

  • Demand side barriers due to the characteristics of RE projects and internal problems of RE project sponsors.
  • On thesupply side of RE finance there are several shortcomings in the financial sector especially in developing countries where there might be no supply at all.
  • Framework conditions for projects within the energy sector can include substantial burden and barriers for RE finance[1].


At a broad macro-economic level, barriers to RE investment can be categorised as follows[2]:

  • Cognitive Barriers. Theses relate to the low level of awareness, understanding and attention afforded to RE financing and risk management instruments particularly in low income countries.
  • Political Barriers. These are associated with regulatory and policy issues and governmental leadership.
  • Analytical Barriers: these relate to the quality and availability of information necessary for prudent underwriting, developing quantitative analytical methodologies for risk management instruments and creating useful pricing models for environmental markets such as carbon emissions permits.
  • Market Barriers: these are associated with lack of financial, legal and institutional frameworks to support the uptake of RE projects in different jurisdictions.


Technological Differences

Different RE technologies have different degrees of exposure to the various barriers and risks due to their specifics and maturity.

The table below highlights some of the key risk issues affecting different RE technologies. Technology and operational risks are the principal deterrents to attracting appropriate commercial insurance cover[2].

Key Risks & Barriers Associated with RE Projects

RET Type

Key Risk Issues

Risk Management Considerations

Geothermal


  • Drilling expense and associated risk (e.g.blow out).
  • Exploration risk* (e.g. unexpected temperature and flow rate).
  • Critical component failures such as pump breakdowns.
  • Long lead times (e.g. planning permission).
  • Limited experience of operators and certain aspects oftechnology in different locations.
  • Limited resource measurement data.
  • Planning approvals can be difficult.
  • ‘Stimulation technology’** is still unproven but can reduce exploration risk.

Large PV


  • Component breakdowns (e.g. shortcircuits).
  • Weather damage.
  • Theft/vandalism.
  • Performance guarantee available (e.g. up to 25 years).
  • Standard components, with easy substitution.
  • Maintenance can be neglected (especially in developing countries).

Solar thermal


  • Prototypical/technology risks as project size increases and combines with other
  • RETs e.g. solar towers.
  • Good operating history and loss record (since 1984).
  • Maintenance can be neglected (especially in developing countries).

Small hydropower


  • Flooding.
  • Seasonal/annual resource variability.
  • Prolonged breakdowns due to offsite monitoring (long response time) and lack of spare parts.
  • Long-term proven technology with low operational risks and maintenance expenses.

Wind power


  • Long lead times and up-front costs (e.g. planning permission and construction costs).
  • Critical component failures (e.g. gear train/ box, bearings, blades etc).
  • Wind resource variability.
  • Offshore cable laying.
  • Make and model of turbines.
  • Manufacturing warranties from component suppliers.
  • Good wind resource data.
  • Loss control e.g. fire fighting can be difficult offshore due to height/location.
  • Development of best practice procedures.

Biomass power


  • Fuel supply availability/variability.
  • Resource price variability.
  • Environmental liabilities associated with fuel handling and storage.
  • Long-term contracts can solve the resource problems.
  • Fuel handling costs.
  • Emission controls.

Biogas power


  • Resource risk (e.g. reduction of gas quantity and quality due to changes in organic feedstock).
  • Planning opposition associated with odour problems.
  • Strict safety procedures are needed as are loss controls such as fire fighting equipment and services.
  • High rate of wear and tear.

Tidal/wave power

  • Survivability in harsh marine environments (mooring systems etc).
  • Various designs and concepts but with no clear winner at present.
  • Prototypical/technology risks.
  • Small scale and long lead times.
  • Mostly prototypical and technology demonstration projects.
  • Good resource measurement data.

Notes: * The probability of success in achieving (economically acceptable) minimum levels in thermal water production (minimum flow rates) and reservoir temperatures.

**Stimulation technology attempts to improve natural productivity or to recover lost productivity from geothermal wells through various techniques including chemical and explosive stimulation.

Source:[2]


Generally all large RET projects will require access to long term funding on a project finance basis, but their exposure to their barriers and risks will differ. Thus the need to obtain pre-investment financing and other project development processes will be more significant for hydro projects and less so for other technologies that do not have the same impacts on land use and on downstream communities[3].

Thus project sizes and transaction cost barriers are generally lower for wind and geothermal projects that can be developed on a greater scale than other technologies.

Geothermal and small hydro can be competitive with conventional technologies, and wind energy is also approaching competitiveness in some countries. However, solar technologies remain a long way from achieving cost competitiveness; therefore its affordability remains a key risk[3].


Resource uncertainties are also a problem for all technologies, though in differing ways:

  • Geothermal projects have the greatest risk at the time of resource appraisal, when the expensive drilling of exploratory wells is needed.
  • Biomass projects have a significant problem with the continuing availability of affordable and adequate resources.
  • Technologies dependent on carbon financing are likely to be more vulnerable to the resource uncertainty problem.


Off-Grid Projects:

  • These projects face different problems from those on non-grid RET projects. Off-grid projects are generally reliant on sales of individual household or small scale systems to rural communities. Technical challenges may be limited but affordability and financeability are key.
  • The very small scale of such projects, down to the individual household level, means transaction costs can become an overwhelming barrier.
  • The lack of long term project financing is less of a barrier to such projects, due to their very small size, they typically rely on corporate finance or on customer purchases[3].


The figure below shows the significance of barriers and risks to different technologies, providing an indication of which barriers and risk are likely to pose the greatest challenges to developing RETs.


Technologies & Barriers and Risks


Financing Barriers

Project Risks


Lack of Long-term Financing

Lack of Project Financing

High & Uncertain Project Development Costs

Lack of Equity Finance

Small Scale of Projects

High Financial Cost

High Exposure to Regulatory Risk

Uncertainty Over Carbon Financing

High Costs of Resource Assessments

Uncertainty over Resource Adequacy

On-Grid


Wind

Hi

Med

Lo

Lo

Lo

Med

Med

Med

Lo

Med

Solar

Hi

Med

Lo

Med

Med

Hi

Med

Med

Lo

Med

Small Hydro

Hi

Med

Med

Med

Lo

Lo

Med

Lo

Med

Hi

Biomass

Hi

Med

Lo

Lo

Med

Med

Med

Med

Lo

Hi

Geothermal

Med

Med

Hi

Med

Lo

Lo

Med

Lo

Hi

Med

Off-grid


Solar/Micro-hydro

Med

Lo

Med

Hi

Hi

Med

Lo

Lo

Lo

Med

Source: Adapted from The World Bank, 2013. Financing Renewable Energy - Options for Developing Financing Instruments Using Public Funds[3].

Note – Lo = Small/no impact (mitigation of risks is desirable.) Med = Moderate impact (mitigation of risks is less likely to be required.) Hi = Significant impact (mitigation of risks is generally necessary if the project is to proceed.



Financing Barriers

a) Lack of Long-Term Financing

RE technologies tend to have high up-front costs and low ongoing operating costs, making access to long term funding for such projects a necessity. Without long-term financing, investment decisions are biased toward conventional technologies that can be

Source: The World Bank, 2013. Financing Renewable Energy - Options for Developing Financing Instruments Using Public Funds
Source: The World Bank, 2013. Financing Renewable Energy - Options for Developing Financing Instruments Using Public Funds

financially viable with shorter-term loans. In many developing countries long-term financing is difficult and sometimes impossible to get. This is in part due to regulatory or other restrictions on long-term bank lending. A lack of experience with RE technologies also means that potential financiers may feel unable to assess the risks involved, and there may also be a lack of matching funding sources.

Long-term financing also depends on investors who are looking for long-term assets to match the profile of their liabilities such as pension funds. In developing countries, such funds either don’t exist or limit investment activities largely to the purchase of government debt owing to its low risk[3].


b) Lack of Project Financing

RE technology projects also seek to access funds on a project finance basis. With project finance the security for the loan comes from future project cashflows and little/no up-front collateral is required. There is still however, the need for a share of the project to be funded from equity. This type of funding allows RE technology projects to spread their costs over the project lifetime, funding the high-upf ront cost fro the positive cahsflows generated during operations. The alternative to this would be to rely heavily on equity funding, payments to which can be delayed until the later years of the project [4].

RE technologies are more exposed to the limited availability of project financing than most conventional technologies as the share of capital costs in their total cost is much greater[3].


c) High and Uncertain Project Development Costs

RE technologies projects are quite vulnerable to changes in the regulatory framework. Due to their lack of cost competitiveness, these projects are dependent on a supportive regulatory framework to proceed—including commitments to pay premium prices, priority access to electricity grids including support for the necessary infrastructure investments and guarantees of purchases of their output. Severe problems for project viability can arise where the regulatory framework changes[4].

Furthermore, such projects are often located in enevironmentally and socially sensitive areas. For example with larger solar and wind projects, land use requirements can be very significant. All theses factors make it necessary for RE project sponsors to have access to significant amounts of funds to cover the costs of project development prior to reaching financial close. Generally such funds come from their own resources orf rom sources of risk capital. In developieng countries the small size of potential RE technology project sponsors means that this route of funding is limited. Generally there is little availabilty of risk capital in developing countries financial markets [3].


d) Lack of Equity Finance

While large numbers of renewable energy technologies (RETs) project developers exist, there are only limited numbers of large-scale project sponsors, particularly among those operating in low-income countries, with the ability and willingness to fund RET projects on a corporate finance basis. RET projects are generally smaller than conventional generation projects and this is reflected in the size of developers. The high risks of investment in many LICs, whether inside or outside the energy sector, will also tend to deter many larger energy companies based in more developed economies leading to a lack of equity[4].

This lack of equity capital means that project sponsors are often unable to cover the costs of development activities without external assistance. But, as highlighted above, access to risk capital of the type required is limited in LICs. The lack of equity capital also increases the dependence on project financing, as spon­sors are unable to provide collateral for loans or to put up large amounts of equity. As a result, loans have to be secured against future cash flows, given the absence of alternatives[3].


e) Small Scale of Projects

The small scale of many RET projects cre­ates significant problems in obtaining private financing. Economies of scale in due diligence are significant, and many larger financial institutions will be unwilling to consider small projects. Typical due diligence costs for larger projects can be in the range of $0.5 million to $1 million. International commercial banks are generally not interested in projects below $10 million, while projects up to $20 million will find it difficult to obtain interest.4 But lower limits may apply for domestic and regional banks operating in smaller economies, particu­larly where these lack the resources themselves to make large-scale loans[5].

While household, micro, and mini sys­tems are obviously far below these limits, even larger grid-connected RET projects are generally smaller than their conventional counterparts. As a result, they often struggle to attract fund­ing from larger financiers. These very small systems also face the problem of lack of local demand in rural areas, leading to underutilized assets and worsening financial returns and attractiveness to financiers[3].



Risks of Renewable Energy Projects


Further Information


References

  1. 1.0 1.1 Lindlein, P. & Mostert, W., 2005. Financing Renewable Energies - Instruments, Strategies, Practice Approaches, KfW.
  2. 2.0 2.1 2.2 United Nations Environment Programme (UNEP), 2004. Financial Risk Management Instruments for Renewable Energy Projects - Summary Document, UNEP, Division of Technology, Industry and Economics.
  3. 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 The World Bank, 2013. Financing Renewable Energy - Options for Developing Financing Instruments Using Public Funds.
  4. 4.0 4.1 4.2 Renewable Energy Financial Instrument Tool (REFINe). Available at: http://www-esd.worldbank.org/refine/index.cfm
  5. Scaling-up Renewable Energy in Developing Countries: Finance and investment perspectives, K Hamilton (April 2010). Chatham House: Energy, Environment & Resource Governance Program Paper 02/10. (http://www.chathamhouse.org.uk/research/eedp/papers/view/-/id/874/).