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Design Business Model
Introduction
Business models for off-grid access to renewable energy in Nigeria are rapidly emerging to reach new markets, implement technologies, and respond to policy requirements. This section will provide an overview of the range of different business models for off-grid solutions (mini grid and standalone solar (SAS)) and key approaches to design such models. Particular emphasis is put on the contexts of energy-poverty and the options to increase the ability to pay of customers. After defining business models in general, a classification of the various off-grid energy access business models is provided. This is followed by guiding principles that shall help to approach the process of deciding on and developing a business model. Lastly, a list of helpful tools and resources in this context is given.
Definitions
A business model describes how a business creates value and how it interacts with actors like customers, suppliers and investors. SAS and mini grid developers have different approaches to delivery energy and thus their business models are different. This section aims to give an overview of the different business model opportunities for both SAS and mini grid.
Standalone solar
Table 1 displays the common SAS business models in the Nigerian off-grid energy market and different payment options. Usually, the offered payment option(s) depend on the respective business model of the company. Beyond these SAS business models, there is a range of potential distributor partnerships for SAS equipment or aftermarket services. Companies that are not operating in the SAS area but have access to rural markets may be able to distribute solar equipment in parallel to their existing supply chains in the future[1].
| SAS business models | Description |
|---|---|
| Direct sales / purchase | A company completes the sale of a SHS in one transaction. No financing is required to facilitate the transaction. |
| Credit sales | Customers purchase a system on credit predicated on an agreement to repay over a set period. Includes both lease-to-own and end user credit transactions. For end-user credit, a third party to the developer provides credit necessary to fund the purchase price. |
| Power as service | The SHS system is not sold to the end users by the SHS company, instead, the company uses the system to generate power provided to the end user. The company is also in charge of operations and maintenance expenses. |
| SAS payment option | Description |
| Mobile money | Payment services made from or via a mobile phone from an account linked to a mobile phone number. |
| Mobile apps or online web portal | Online payment via an app or payment gateway. |
| Cash collections through stationary or door-to-door agents | Manual collections through agents that collect cash at stationary kiosks or go door-to-door. |
| Unstructured Supplementary Service Data (USSD) Codes | Use of mobile phones to communicate with the network operator’s computer to process energy payments when the user dials specific codes. |
Mini Grids
In the mini grid space, business models vary by ownership/operatorship, size and customer. There is no single proven business model for mini grids. However, different strategies are used to make a business model successful. Table 2 shows the characteristics of business models and briefly describes the existing strategies to make them viable. Module 5 of the AFDB mini-grid training further explains these aspects.
| Characteristics of mini grid business models | |
|---|---|
| Ownership/operatorship | This can be done by public, private, or community entities or public private partnerships or other hybrid models |
| Size | Mini grids vary from a few kilowatts to up to 10 megawatts |
| Customers | Households, small businesses, large anchor clients or a mixture of all three |
| Strategies to develop viable mini grids | |
| Demand management | Demand-side management is the process of actively influencing electricity demand on mini grids so it matches electricity generation. Generally, it is cheaper to adjust demand than supply. |
| Promoting Income-Generating End Uses | Productive, agricultural or commercial loads often are needed to reach the critical mass of sales needed to cover the fixed costs of mini grids (reference to PUE section). |
| Quality of electricity service | Quality of electricity service may be defined in terms of ability to serve different types of user, availability (hours per day), and continuity (no blackouts). Developers must decide early what tier of electricity service they offer for different customer types and measure their willingness and ability to pay for such service cost |
| Tariff design | Tariffs for privately-owned mini grids must cover all the costs of the mini grid (fixed and variable costs) plus a margin. Tariffs may include a fixed charge or capacity fee (which is independent of consumption) and an energy price (which is consumption-based) or just an energy price. The level of tariff is set based on projected demand. |
| Revenue collection | One challenge is to find the right balance between commercial viability and the ability and willingness of end users to pay. The success in collecting revenues from end users depends on:
|
| End user finance | Demand for electricity can be stimulated by providing financial support to end users of the mini grid. Users may require finance to cover the up-front costs of connections, indoor electric installations and purchases of electrical equipment. This support may be provided directly by the developer or through third party financing institutions. It may also be subsidised through output-based aid, which links the payment of public funds to the delivery of connections. Demand side subsidies (DSS) is increasingly being considered as a form of energy subsidy for poor electricity users. Although DSS is still in its early stages of adoption across sub-Saharan Africa, a few countries such as Togo and Rwanda have implemented DSS programmes for the off grid solar sector, providing Nigeria a good basis to build on. REAN suggests three DSS instruments suitable for Nigeria: cash transfers, end-user product price subsidy, and freely distributed products. The successful implementation requires a structure that is targeted, practical, and transparent[3]. |
Guiding Principles
This section describes first steps that can be taken to identify and design a suitable business model. Besides, it emphasises certain considerations that are especially relevant in entering low income markets.
The following video looks at important basic principles to consider when developing a Start Up in the renewable energy sector:
Specify and visualise your idea
To find a suitable business model for your electrification intervention, it is of great help to break down the idea in the various parts and activities that are relevant for a successful business. The Business Model Canvas is a useful tool that can support this process. It is a framework to guide decision making by analysing the delivery model’s value added; the types of relationships it creates with partners and end users; and the resources and activities required to implement it. This model was adjusted by Bellanca & Garside[4] to assist the design of business models particularly in contexts of energy poverty. They developed the Energy Delivery Model Toolkit to help practitioners create pro-poor energy services that are financially, socially and environmentally sustainable.
Combine for-profit and pro-poor
A for-profit business model for rural electrification needs to embrace complexity and trade offs, because it deals with low income customers. It is crucial to consider the broader context in which the energy service will operate, to ensure that it will meet the priority development needs identified by the community and that it will be financially, socially and environmentally sustainable.
Be context specific and integrate community needs
For a business to be potentially viable in the long term, it is essential to adjust the business model to the specific context to meet the actual consumer needs. Integrating community needs in the design of the electricity intervention is an integral part of this. To capture socio-cultural needs beyond energy access, community groups that understand their needs have to be connected to energy companies that implement solutions. Business models that are co-created with the users may enhance competitive advantage while integrating the voice of the community[5]. However, while the available knowledge on private sector engagement in rural electrification is growing, knowledge of particular and contextualised business processes, i.e. firms’ ‘ways of doing business’ in a particular community, is limited[6].
Existing Tools
| Name | Nigeria specific | Open source | Description |
|---|---|---|---|
| Energy Delivery Model Toolkit | No | Yes | This toolkit helps to understand the enabling factors and barriers to deliver energy services for poor groups by learning from practitioner experience and research. It illustrates the six-step EDM design process and the two innovative tools that support the design process for inclusive energy services planning, the Delivery Model Map and Delivery Model Canvas[4]. The two tools integrate a pro-poor focus by considering long term development impacts and environmental sustainability of the model. Based on Osterwalder’s Business Model Canvas[7], it was adapted by energy access practitioners in order to assist the design of business models in contexts of energy poverty. |
| Energy Business Model Generator for Low-Income Markets “Energize the BoP!” | No | Yes | The practitioners guide aims to support entrepreneurs in taking the right steps towards creating a sustainable business in the BoP’s (Base of the Pyramid) energy market. The guide explains the various challenges in the areas business case, customer interface, development process and support directory and also describes solutions how to possibly overcome them. The theoretical content is complemented by various case studies which demonstrate good practices[8]. |
| PAYGo PERFORM Data Collection Tool | No | Yes | The PAYGo Performance, Reporting, and Measurement (PERFORM) tool is an open source tool that provides the solar industry a standardised and transparent set of key performance indicators (KPIs). It supports users in collecting data and conducting quantitative analyses of PAYGo firm performance and enables them to calculate the PAYGo KPIs from building block indicators[9]. |
| CORE (Cornerstone for Rural Electrification) | No | Yes | CORE is an international initiative that offers technical assistance in the area of decentralised rural electrification (DRE) to practitioners, communities and governments. CORE developed a resource library with a collection of DRE training materials and guidelines, focusing on mini grid development[10]. |
| Green Mini-Grid Help Desk | No | Yes | The Help Desk has been set up so mini-grid developers and policymakers can find practical information on mini-grids quickly. This includes market reports, links to industry stakeholders, instruction guides, business forms and templates, financial models and much more. |
| Startup|Energy Accelerator | No | No | Startups registered in sub-Saharan Africa which have a mature product or business idea and/or a first prototype that targets the decentralized energy market in sub-Saharan Africa can apply to be part of the startup community. The accelerator program offers long-term support through continuous, high-quality coaching and building and maintaining a thriving Sub-Saharan startup community. |
| Diagnostic tool for effective gender integration (ICRW and Acumen) | No | Yes | Based on the study of seven case studies from different industries and geographies, the report “Women and social enterprises: how gender integration can boost entrepreneurial solutions to poverty” (source) contains a new framework that outlines the ways in which gender can influence key business decisions. This framework can be applied as a diagnostic tool to uncover opportunities to more effectively integrate gender in ways that will support the business and social goals of these companies. |
Case Study
This case study about LiteDey Standalone Solar Solution describes a lease-to-own business model developed by CREEDS, specifically targeting MSMEs in peri-urban and urban areas. You can find and download the case study here.
Bibliography
- ↑ 1.0 1.1 USAID. (2019). NPSP Nigeria Off-Grid Energy Market Intelligence Report. https://pdf.usaid.gov/pdf_docs/PA00XGH7.pdf
- ↑ AFDB. (2020). Green Mini-Grid Developers Help Desk. Greenminigrid.Afdb.Org. https://greenminigrid.afdb.org
- ↑ REAN. (2022). Demand Side Subsidy Framework & Consumer Financing For Renewable Energy Affordability. Renewable Energy Association of Nigeria. https://rean.org.ng/media/img/DEMAND_SIDE_SUBSIDY_PDF.pdf
- ↑ 4.0 4.1 Bellanca, R., & Garside, B. (2013). An approach to designing energy delivery models that work for people living in poverty. https://pubs.iied.org/16551iied
- ↑ Mukoro, V., Sharmina, M., & Gallego-Schmid, A. (2022). A review of business models for access to affordable and clean energy in Africa: Do they deliver social, economic, and environmental value? Energy Research & Social Science, 88. https://doi.org/10.1016/j.erss.2022.102530
- ↑ Pedersen, M. B., Wehrmeyer, W., & Nygaard, I. (2020). Commercial yet social: The practices and logics of bringing mini-grid electricity to rural villages in Kenya. Energy Research & Social Science, 68. https://doi.org/10.1016/j.erss.2020.101588
- ↑ Osterwalder, A., & Pigneur, Y. (2010). Business Model Generation: A Handbook for Visionaries, Game Changers, and Challengers. John Wiley & Sons.
- ↑ Gradl, C., & Knoblauch, C. (2011). Energize the BoP! - Energy Business Generator for Low-Income Markets. endeva. https://endeva.org/publication/energize-the-bop-energy-business-generator-for-low-income-markets
- ↑ CGAP. (2021). PAYGo PERFORM Data Collection Tool. https://www.cgap.org/research/data/paygo-perform-data-collection-tool
- ↑ CORE. (2022). Resources. Core-Initiative.Org. https://core-initiative.org/resources/
