Category

Risk

Risk description

Risk mitigation/ control mechanism

Reference

Technical

Load uncertainty

Poor estimation of load size, growth and schedule, could derive in under- or oversized systems. This can lead to increased investment/running cost, lower efficiency, and unreliable supply.

Overestimated efficiency

• Recommended to perform in-field power ratings.
• Use of design tools to estimate load.
• Consider modular designs.
• If possible, the design should include future expansion.
• Limit the initial generation capacity and increase it gradually as demand grows.
• Manage consumption according to the available capacity: load control or daily energy allowance.
• Include energy efficiency measures.

2, 5

Power quality

Integrating PV and batteries, in retrofits on existing systems, may affect the stability of the grid due to incompatibilities and an ineffective control system.

• Appropriate control strategy.
• Appropriate design simulation prior implementation.
• Consider distributed generation as it is less variable than centralized systems.

2

Equipment failure/ Downtime

Premature failure of hardware can not only cause service interruption but damage the entire system.

In addition, despite existing warranties, these can be hard to fulfil due to the remoteness where they system is located.

• Appropriate routine maintenance.
• Equipment should meet quality standards and be appropriate for the environmental conditions.

2

Hardware compatibility issues

Proprietary protocols could provoke incompatibility between components.

• Use open based protocols.
• Choose single provider.

2

Limitation for continuous supply/storage

Batteries have a limited life-span and are vulnerable to be misused, this impacts on the energy balance and supply affecting the operation of generators (specific for hybrid systems).

• Proper training.
• Manage operators and user’s expectations.
• Consider product selection.
• Planning/budgeting for spare parts, replacement.

2

Familiarity with the technology

Difficulty to operate and maintain, complexity of maintenance, limited knowledge on maintenance issues.

• Continuous capacity building on technical aspects starting before implementation.
• Trained technicians should receive payment for their job as incentive.

2

Future connectivity

Interim solutions, such as mini-grids, would ideally be connected to the main grid if it becomes available, otherwise it becomes obsolete.

• Design should consider the same standard as the central network

2

Supply and installation issues

Incorrect installation and operation of hardware, combined with the remoteness where the technology is installed.

• Incorporate capacity development in the plan: proper training for local installers and operators.
• Hire reliable contractors for installation and certain elements of the operation.
• Rely on construction consultants to oversee project implementation and ensure that contractors comply with the expectations of the developers.

2, 5

Building and testing

Property damage or third-party liability arising from mishaps during building or testing.

4

Institutional/ Organizational

Stakeholder management

Multiple parties involved whose activities, incentives, will not align between parties, causing negative outcomes.

• Parties need to aware of their obligations and maintain a collaborative approach.
• Agreements to protect every actor equally.

2

Operational

Administration errors or fraud.

• Simple standardisation like appropriate accounting and regular auditing.
• Establishment of internal rules and the standardisation of processes.
• Regular training for contentious improvement, operational efficiency and service delivery.

5

Geographical isolation

Difficulties to acquire spare parts and/or repair due to long distances, transportation challenges and lack of skilled personnel in the area.

• Ensure local capacity building.
• Routine and preventive maintenance should be properly scheduled.
• Timely identification of the closest spare parts provider/s.

2

Geo-political

Change in public policy

Increase in taxes levied on technology or import and export duties.

Subsidies affecting operation and/or profitability.

• Political risks with high probability of occurrence may be hard to mitigate.

5

Political instability

Unrest, social conflicts, war.

Delays in approvals

Arbitrary actions of public authorities can affect the development of any energy access project.

• Continuous involvement and consultation of local authorities during the development and implementation.

Arrival of the national grid

Investment’s payback and further cash flows could be in danger or threatened.

• Continuous involvement and consultation of local authorities during the development and implementation.

Finance and Economics

Commitment, competence and credit worthiness of investors

Large level of investment/ long tenor of return, may require additional equity later after project has begun.

• Credit assessment.
• Verify the competence and/or knowledge regarding energy projects.

3

Inadequate business models

Effective business models are key for deployment and may need to be continuously revised to scale up.

• Information about similar experiences.
• Seek for support to ensure capacity building and/or access to finance.
• Chose models that are practical and appropriate for the local context.

2

Diesel and cost supply

Although the use is reduced (hybrid systems), prices and availability impact the operation of the system.

• Maximise other sources of generation.
• Develop time-of-use-tariffs to discourage use when diesel would be required.

2

Exchange rates/ Inflation

Foreign exchange rate changes due to devaluation, convertibility or transfer restrictions.

• Borrow in local currency.
• Cross-currency swaps (if possible).
• Use hedging instruments (though this may be complex and expensive).
• Involve local investors.

3

Credit

Risk of default of counterparties or default on specific payments.

• Good credit risk management.

3

Liquidity

Social

Public resistance

Resistance of interest groups because statics, water supply, smell (biogas), etc.

• Include the whole community throughout the development and operation of the project.
• Partnerships with local organizations can help to facilitate the relationship between developers and customers.
• Implementation of capacity building measures and dedicated promotion of productive use of energy could support establishing local support.
• Project should be well embedded in the socio-cultural context where is going to be built/ installed.
• Ensure public opinion, transparency and involvement of local capacities

5

Community/social integration

Over-consumption from one or few users can cause a black-out. Theft or users connecting loads beyond their quota.

• Community engagement from the outset and follow up.
• Avoid top-down approach.
• Respect local organisational structures.
• Manage and follow up user expectations: users should be aware of the potential limitations.
• Enforce load control measures.
• Tariff system to prevent overconsumption.
• Proper education to discourage illegal connections: educate about the consequences or impact on the operation and performance of the system.

2

Appropriate pricing and payments

Rural customers usually have low incomes which is challenging when setting a price that is both sufficiently high to give returns and low enough to make it affordable.

• Tariffs should be flexible and revisable
• Educate about consequences of non-payment such as supply cut-off or penalties.
• Uncomplicated bill setting and non-bureaucratic procedures for connection and consumption payment.
• Smart metering systems equipped with tamper protection or in combination with incentives for electricity use.
• Take into account possible inability to pay: income fluctuations and payment culture.
• Verify the satisfaction of users (to avoid unwillingness to pay).

2, 5

Operators and end users’ safety

Risks of harm due to higher voltages and extensive wiring.

• Provide appropriate training to operators and users.
• Design and installation according to international standards.

2

Theft and vandalism

Components or other valuable materials for which there is a secondary market, are in danger of being stolen

• Secure perimeter.
• Develop sense of ownership within the local community.

5

Environment

Environmental

Harm to the environment caused by operating the technology may affect planning & permitting.

Weather-related /availability

Risk of fall in volume of electricity produced owing to lack of wind, sunshine, water flow/low rainfall, biomass availability.

• If possible obtain long term data to select site.
• Establish close relationship to local biomass supply by creating dependency: supplying the supplier (fertilizer, bargain electricity price)

5

Force majeure

Environmental disaster like severe storms, typhoons, sandstorms, volcanic eruption, earth quakes, mud slides, etc.

5