Difference between revisions of "Mini-grid Policy Toolkit"
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Africa has progressed in building its energy infrastructure. However, according to the [http://www.worldenergyoutlook.org/ World Energy Outlook], 22 million people in Sub-Saharan Africa live without access to electricity. Extension of national grids is only viable to a certain extent considering geography and technology. Mini-grids, isolated networks, have become a viable alternative to advancing national grids – thanks to recent technological developments. Thus, mini-grids can contribute significantly to meeting the growing energy needs. Yet, only very few such mini grids have been deployed in Africa so far.<br/> | Africa has progressed in building its energy infrastructure. However, according to the [http://www.worldenergyoutlook.org/ World Energy Outlook], 22 million people in Sub-Saharan Africa live without access to electricity. Extension of national grids is only viable to a certain extent considering geography and technology. Mini-grids, isolated networks, have become a viable alternative to advancing national grids – thanks to recent technological developments. Thus, mini-grids can contribute significantly to meeting the growing energy needs. Yet, only very few such mini grids have been deployed in Africa so far.<br/> | ||
− | The EU Energy Initiative-Partnership Dialogue Facility ([http://www.euei-pdf.org/ EUEI-PDF]) together with the Alliance for Rural Electrification ([http://www.ruralelec.org/ ARE]) and [http://www.ren21.net/ REN 21] published the [http://euei-pdf.org/thematic-studies/mini-grid-policy-toolkit Mini-grid Policy Toolkit] ("Policy and Business Frameworks for Successful Mini-grid Roll-outs”) to provide guidance on how African policy-makers can develop a sustainable mini-grid policy. The goal of the Mini-grid Policy Toolkit is to foster electricity access as well as economic activity based on secure and ideally clean electricity over the long-term.<br/><br/> | + | The EU Energy Initiative-Partnership Dialogue Facility ([http://www.euei-pdf.org/ EUEI-PDF]) together with the Alliance for Rural Electrification ([http://www.ruralelec.org/ ARE]) and [http://www.ren21.net/ REN 21] published the [http://euei-pdf.org/thematic-studies/mini-grid-policy-toolkit Mini-grid Policy Toolkit] ("Policy and Business Frameworks for Successful Mini-grid Roll-outs”) to provide guidance on how African policy-makers can develop a sustainable mini-grid policy. The goal of the '''Mini-grid Policy Toolkit''' is to foster electricity access as well as economic activity based on secure and ideally clean electricity over the long-term.<br/> |
+ | |||
+ | Next to the publication the Mini-grid Policy Toolkit also makes available useful [http://www.minigridpolicytoolkit.euei-pdf.org/support-tools support tools] for desiging mini-grids on its website, such as a financing tool.<br/><br/> | ||
= Problem<br/> = | = Problem<br/> = | ||
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From an Energy/Agriculture Nexus perspective, it is particularly relevant to take a closer look at agricultural and productive loads. According to the FAO (<ref>FAO, 2012. “Energy-smart” Food for People and Climate.</ref>), energy is used in agriculture for the production and scattering of fertilizers and pesticides, for the irrigation of crops, for the processing of food such as drying, packaging, storing, transporting and cooling and for the general running of agricultural machinery and appliances such as pumps, lights and fans. Agriculture is not only essential for the direct feeding and nutrition of the farmers and their surroundings: the agricultural sector often contributes significantly to a country`s GDP, particularly in developing countries.<br/> | From an Energy/Agriculture Nexus perspective, it is particularly relevant to take a closer look at agricultural and productive loads. According to the FAO (<ref>FAO, 2012. “Energy-smart” Food for People and Climate.</ref>), energy is used in agriculture for the production and scattering of fertilizers and pesticides, for the irrigation of crops, for the processing of food such as drying, packaging, storing, transporting and cooling and for the general running of agricultural machinery and appliances such as pumps, lights and fans. Agriculture is not only essential for the direct feeding and nutrition of the farmers and their surroundings: the agricultural sector often contributes significantly to a country`s GDP, particularly in developing countries.<br/> | ||
− | The extension of national grids into remote areas can thus bring social and economic benefits connected with an increase of agricultural productivity. However, the connection of isolated regions to the main electricity grid is often costly and difficult. Off-grid solutions such as mini-grids proof to be a very useful way to provide those territories with energy, thereby increasing agricultural productivity, development and livign standards. | + | The extension of national grids into remote areas can thus bring social and economic benefits connected with an increase of agricultural productivity. However, the connection of isolated regions to the main electricity grid is often costly and difficult. Off-grid solutions such as mini-grids proof to be a very useful way to provide those territories with energy, thereby increasing agricultural productivity, development and livign standards. Renewable energy sources can play a significant role in mini-grids as prcies have decreased considerably within the last years - leading ot the fact that in Africa, nowadays renewable energy and hybrid solutions have a lower [http://www.eia.gov/forecasts/aeo/electricity_generation.cfm Levelised Cost of Electricity] than diesel generators.<br/> |
<br/> | <br/> | ||
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= Mini-grids<br/> = | = Mini-grids<br/> = | ||
− | One alternative is to construct '''mini-grids '''in areas outside the reach of central grids. EUEI-PDF defines a mini grid as "a power system where the produced electricity is fed intp a small distribution network that provides a number of end-users with electricity in their premises. Mini-grids are typically off-grid, less than 1 MW in capacity, and utilize diesel, renewable (+battery) or hybrid (combined) fuel sources to produce power."<ref name="EUEI-PDF, 2013.">EU Energy Initiative – Partnership Dialogue Facility (EUEI-PDF), 2013. "The Mini-Grid Policy Toolkit: Rationale, Approach, Content Highlights".fckLRhttps://sustainabledevelopment.un.org/content/documents/4908franz2.pdf</ref><br/>These mini–grids generate electricity on a small scale, usually 10 KW to 10 MW. Another possibility is to build '''stand-alone systems '''operating with solar energy on small scale. These tools can be [[PicoPV_Database|PicoPV Database]] or [[Solar_Home_Systems_(SHS)|Solar Home Systems]] that usually operate with one or two solar panels feeding electric devices.<br/>Mini-grid technologies have shown a sufficient track record. Operated with renewable energy technologies mini-grids can provide electricity at a lower cost than fossil fuel-based power generation in many cases. The International Energy Agency ([http://www.iea.org/ IEA]) anticipates that more than 50% of the rural population currently without energy access are best supplied with electricity via mini-grids. Important to the successful implementation of these mini-grids are the right policies.<br/>Case studies of significant improvements in electric supply triggered by mini-grids are known from Kenya, Mali, Senegal and Tanzania.<br/><br/> | + | One alternative is to construct '''mini-grids '''in areas outside the reach of central grids. EUEI-PDF defines a mini grid as "a power system where the produced electricity is fed intp a small distribution network that provides a number of end-users with electricity in their premises. Mini-grids are typically off-grid, less than 1 MW in capacity, and utilize diesel, renewable (+battery) or hybrid (combined) fuel sources to produce power."<ref name="EUEI-PDF, 2013.">EU Energy Initiative – Partnership Dialogue Facility (EUEI-PDF), 2013. "The Mini-Grid Policy Toolkit: Rationale, Approach, Content Highlights".fckLRhttps://sustainabledevelopment.un.org/content/documents/4908franz2.pdf</ref><br/> |
+ | |||
+ | These mini–grids generate electricity on a small scale, usually 10 KW to 10 MW. Another possibility is to build '''stand-alone systems '''operating with solar energy on small scale. These tools can be [[PicoPV_Database|PicoPV Database]] or [[Solar_Home_Systems_(SHS)|Solar Home Systems]] that usually operate with one or two solar panels feeding electric devices.<br/> | ||
+ | |||
+ | Mini-grid technologies have shown a sufficient track record. Operated with renewable energy technologies mini-grids can provide electricity at a lower cost than fossil fuel-based power generation in many cases. The International Energy Agency ([http://www.iea.org/ IEA]) anticipates that more than 50% of the rural population currently without energy access are best supplied with electricity via mini-grids. Important to the successful implementation of these mini-grids are the right policies.<br/> | ||
+ | |||
+ | Case studies of significant improvements in electric supply triggered by mini-grids are known from Kenya, Mali, Senegal and Tanzania.<br/><br/> | ||
= Mini Grid Operator Models<br/> = | = Mini Grid Operator Models<br/> = | ||
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These factors fuel private investors' perception of mini-grids being high-risk and low-return investments. A reliable forecast of cash flows is often hard to make. However, private capital is crucial against the background of limited public funds. Possible investors are local banks who often know the local market dynamics, mezzanine financiers or - to a much smaller extent - crowdfunding initiatives.<br/> | These factors fuel private investors' perception of mini-grids being high-risk and low-return investments. A reliable forecast of cash flows is often hard to make. However, private capital is crucial against the background of limited public funds. Possible investors are local banks who often know the local market dynamics, mezzanine financiers or - to a much smaller extent - crowdfunding initiatives.<br/> | ||
− | The published Mini-grid Policy Toolkit provides advice on how to develop accurate predictions of electricity demand - which is particularly difficult in rural areas where there is little experience with personal access to electricity. Further, the Toolkit | + | The published Mini-grid Policy Toolkit provides advice on how to develop accurate predictions of electricity demand - which is particularly difficult in rural areas where there is little experience with personal access to electricity. Further, the Toolkit offers a [http://www.minigridpolicytoolkit.euei-pdf.org/support-tools financing tool] to support the calculation of cash-flows.<br/> |
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</div></div></div><br/> | </div></div></div><br/> | ||
= Mini-grid Policy Toolkit<br/> = | = Mini-grid Policy Toolkit<br/> = | ||
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<references /> | <references /> | ||
+ | [[Category:Mini-grid]] | ||
+ | [[Category:Fossil_Fuel]] | ||
+ | [[Category:Tanzania]] | ||
+ | [[Category:Biomass]] | ||
+ | [[Category:Renewable_Energy]] | ||
+ | [[Category:Sub-Saharan_Africa]] | ||
+ | [[Category:Solar]] | ||
+ | [[Category:Powering_Agriculture]] | ||
[[Category:Africa]] | [[Category:Africa]] | ||
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Revision as of 10:24, 23 March 2015
Overview
Africa has progressed in building its energy infrastructure. However, according to the World Energy Outlook, 22 million people in Sub-Saharan Africa live without access to electricity. Extension of national grids is only viable to a certain extent considering geography and technology. Mini-grids, isolated networks, have become a viable alternative to advancing national grids – thanks to recent technological developments. Thus, mini-grids can contribute significantly to meeting the growing energy needs. Yet, only very few such mini grids have been deployed in Africa so far.
The EU Energy Initiative-Partnership Dialogue Facility (EUEI-PDF) together with the Alliance for Rural Electrification (ARE) and REN 21 published the Mini-grid Policy Toolkit ("Policy and Business Frameworks for Successful Mini-grid Roll-outs”) to provide guidance on how African policy-makers can develop a sustainable mini-grid policy. The goal of the Mini-grid Policy Toolkit is to foster electricity access as well as economic activity based on secure and ideally clean electricity over the long-term.
Next to the publication the Mini-grid Policy Toolkit also makes available useful support tools for desiging mini-grids on its website, such as a financing tool.
Problem
Energy is a vital component for production processes. customers of energy can be grouped into different categories:
- Agricultural Loads (e.g. irrigation pumps)
- Productive Loads (e.g. milling, rice de-husking, oil pressing, wood/metal workshops)
- Commercial Loads (e.g. shops, bars, ice-makers, battery charging and renting, lantern renting)
- Anchor loads (e.g. telecom towers, mines, greenhouses, hotels, loggias)
From an Energy/Agriculture Nexus perspective, it is particularly relevant to take a closer look at agricultural and productive loads. According to the FAO ([1]), energy is used in agriculture for the production and scattering of fertilizers and pesticides, for the irrigation of crops, for the processing of food such as drying, packaging, storing, transporting and cooling and for the general running of agricultural machinery and appliances such as pumps, lights and fans. Agriculture is not only essential for the direct feeding and nutrition of the farmers and their surroundings: the agricultural sector often contributes significantly to a country`s GDP, particularly in developing countries.
The extension of national grids into remote areas can thus bring social and economic benefits connected with an increase of agricultural productivity. However, the connection of isolated regions to the main electricity grid is often costly and difficult. Off-grid solutions such as mini-grids proof to be a very useful way to provide those territories with energy, thereby increasing agricultural productivity, development and livign standards. Renewable energy sources can play a significant role in mini-grids as prcies have decreased considerably within the last years - leading ot the fact that in Africa, nowadays renewable energy and hybrid solutions have a lower Levelised Cost of Electricity than diesel generators.
Mini-grids
One alternative is to construct mini-grids in areas outside the reach of central grids. EUEI-PDF defines a mini grid as "a power system where the produced electricity is fed intp a small distribution network that provides a number of end-users with electricity in their premises. Mini-grids are typically off-grid, less than 1 MW in capacity, and utilize diesel, renewable (+battery) or hybrid (combined) fuel sources to produce power."[2]
These mini–grids generate electricity on a small scale, usually 10 KW to 10 MW. Another possibility is to build stand-alone systems operating with solar energy on small scale. These tools can be PicoPV Database or Solar Home Systems that usually operate with one or two solar panels feeding electric devices.
Mini-grid technologies have shown a sufficient track record. Operated with renewable energy technologies mini-grids can provide electricity at a lower cost than fossil fuel-based power generation in many cases. The International Energy Agency (IEA) anticipates that more than 50% of the rural population currently without energy access are best supplied with electricity via mini-grids. Important to the successful implementation of these mini-grids are the right policies.
Case studies of significant improvements in electric supply triggered by mini-grids are known from Kenya, Mali, Senegal and Tanzania.
Mini Grid Operator Models
Mini-grids differ in terms of technical asset possession, operation and maintaining of the system and relations to the customers. The successful deployment of the different mini-grid operator models depends on many parameters such as the natural environment, the socio-economic framework as well as the policy and regulatory context.
The correct policy for mini-grids depends upon the operation model of the mini-grid. Choosing an operatior model depends again upon national, social and political circumstances and on the dimensions and structures of the mini–grids. There are mainly four different operator models, i.e. operation by:
- utilities
- private companies
- community-based organizations
- or hybrid operated systems
Utility Operator Models: a utility is responsible for all mini-grid operations. Funding is usually secured by public funds. Operation of those mini-grids works parallel to the operation of the national grid. The power supply tariffs are usually cross-subsidized by the utility to offer affordable power. The utilities could make use of their potential to install mini-grids on a large scale; however, mostly they view mini-grids as not being their core business.
Private Operator Models: mini-grids are planned, installed and operated by a private entity. The systems are financed by private equity donors, commercial loans, public support or a mix of these. Private entities proved to be able to manage small-scale grids more efficiently; however, they have to manage the task of receiving only little revenues while facing substantial managing costs. The private entities often try to secure deals with large-scale customers to ensure regular cash flows or use economies of scale by managing multiple mini-grids under one management. User tariffs are usually freely negotiated,.
Community based Models: owned and operated by local communities and financed by a high share of grants. Technical tasks are often carried out by third parties due to the lack of expertise of the local communities. Small-scale mini-grids depend upon social structures to work well; bigger grid-systems are usually organized more professionally.
Hybrid Operator Models are defined by the fact that investment, ownership and operation of grid-systems is carried out by multiple actors. Separation of tasks can be executed in form of overall separation between production and distribution of power or by separating between building, owning, operating and maintaining the system. The political framework usually conveys or impedes the becoming of hybrid operated grids.
Barriers
Major barriers for mini-grid systems are not related to technology: There are no significant technology barriers that hinder mini-grids whether powered by diesel generators, renewable energy or hybrid systems. Rather, financial sustainability is the key challenge since supply to remote villages with low income is not economically viable. Another barrier is the issues that there is no “one-size-fits-all” solution. Further barriers are (Mini-Grid Policy Toolkit, p. 29):
- "Scarce and inaccurate data, in particular over or underestimated electricity demand;
- Non-inclusion of transaction, management, and risk mitigation costs into tariff calculation
- No flexibility in tariff structures for cost coverage;
- Supply-chain failure to provide spare parts;
- Mismanagement, including a lack of provision for operations and maintenance;
- Donor-based projects with a 4-year cycle – what happens afterwards?
- Long registration/permitting/licensing processes;
- Inadequate human capacities (managers, operators, technicians);
- Insufficient policy and regulatory framework - pilot projects fall through the regulatory cracks – upscaling however requires a sound legal basis"
Nevertheless, case studies have shown that these challenges can be overcome, in particular through business driven approaches.
Case Studies
- In Kenya, off-grid areas are traditionally supplied by mini-grids with energy. The National Rural Electrification Authority plans and develops mini-grid sites throughout the country. High costs for fossil fuels result in the increased use of so-called hybrid mini-grids, which generate energy out of fossil fuels as well as renewable energies. At the moment, there are 7 hybrid mini-grids and 12 hybrid mini-grids and 27 new PV and wind green mini-grids projected (IED, DFID, 2013).
- In Mali, mini-grids are widely spread, over 200 small scale grids running on fossil fuels can be found, 60 of those are privately run and many grids are to be modified to run both on fossil and renewable fuels. The Renewable Energy Agency of Mali AMADER supports the installing of new grids to a significant extent by giving initial capital cost subsidies of about 570 Euro per new connection to Mini-grid operators. Mini-grids can act as valuable pre-stage solutions until more extensive supply of power is installed: examples of seven mini-grid sites in Mali (which have been reached by the extended national grid) have shown that due to the high-tariffs in mini-grids, the roll-out of the national grid can sometimes be accelerated.. For mini-grid operators, who want to maintain the independence of their installations from national power sources, it is important to build their grids far enough from the main grid.
- In Tanzania, the Rural Energy Agency has founded the Tanzania Energy Development and Access Project (TEDAP), which acts as a financial intermediary and distributes funds of the World Bank to grid-tied and mini-grid projects. Such projects benefit from subsidies, preferential interest rates and technical assistance. TEDAP was set up to support projects in their first stages and does so by paying a fixed amount in form of a matching grant or payments of up to 80% of the transmission and distribution costs. In the year 2010, there were 17 MW of off-grid projects based on renewable energies installed, planned or were in process.
A further example from Tansania is a project by Camco Advisory Services installing 50 agro-processing centers and village mini-grids capable of producing between 10 and 50kW of electricity for homes, social services, and businesses. It is anticipated that the VIP Plants will service more than 5,000 agrarian families. This clean energy solution will contribute agricultural development and low-carbon economic growth that improves food security, financial stability, environmental sustainability, and women’s empowerment through new entrepreneurship opportunities.
- In Senegal, electric power is provided by different providers. Responsible for large areas are companies shaped like utilities. They conduct electrification in a mixed-form of both grid extension and off-grid roll-out. In addition to these companies there are "Locally Initiated Rural Electrification" projects, operating stand-alone mini-grids for individual remote communities. In Senegal, there are many private operators active, with 30 systems in operation and several hundred mini-grid projects planned. Operators of mini-grids can apply for a so-called renewable contract which will permit them to sale electricity for the next 15 years and to distribute electricity for the next 25 years. The contracts are issued by the Senegalese Ministry of Energy and the Development of Renewable Energies. Individually determined tariffs allow comparatively high Internal Rates of Return of up to 12% of the private investment.
Mini-grid Economics
The costs of mini-grids can be separated into fixed and variable costs. Fixed costs are costs for generation and distribution hardware as well as investments in project development, project implementation and project financing (incl. interest), variable costs are those needed to finance operation, management and maintenance.
Revenues originate from connection fees, electricity sales as well as subsidies or grants. The primer two (ans sometimes also subsidies) depend on:
- the number of potential customers
- their electricity demand
- their willingness to pay
Assessing the demand accurately and matching this demand with the electricity supply is key to ensure stable revenues. Electricity demand can depend on income patterns of villagers, seasonal influences and crop cycles. Often, the margins of return of mini-grid systems are rather low, making it difficult to even cover the initial investment. Generally speaking, it is particular challenging to collect sufficient revenues in rural areas due to the average lower demand and lower ability to pay.
These factors fuel private investors' perception of mini-grids being high-risk and low-return investments. A reliable forecast of cash flows is often hard to make. However, private capital is crucial against the background of limited public funds. Possible investors are local banks who often know the local market dynamics, mezzanine financiers or - to a much smaller extent - crowdfunding initiatives.
The published Mini-grid Policy Toolkit provides advice on how to develop accurate predictions of electricity demand - which is particularly difficult in rural areas where there is little experience with personal access to electricity. Further, the Toolkit offers a financing tool to support the calculation of cash-flows.
Mini-grid Policy Toolkit
The Mini-grid Policy Toolkit presents different electrification options for rural areas, the benefits of mini-grids, the four operator models for mini-grids, insights into the economics and financing aspects of mini-grids, as well as an overview of relevant stakeholders. The Toolkit offers a vertical analysis of all aspects required for a sound mini-grids policy and regulatory framework. It breaks down the framework to specific policy instruments such as energy and electricity policy, economic and fiscal policy, licenses and contract regulations, financial support schemes as well as technical assistance and splits them into “essential” and “supportive”.
The Toolkit also opens up the discussion of mini-grids deployment for rural electrification from a business point of view: it clearly links the different operator models and the respective financial issues and required policies and regulations. It thereby sheds light on the specific requirements for deploying the operator models, and provides hands-on guidance on how to meet them. Furthermore, it provides guidance for the process of designing and implementing mini-grid policy and the regulation framework, sources and links for further reading as well as case studies illustrating practical experiences.
Mini-grids and Agriculture
Mini-grids can represent a very effective alternative to fossil fuels when using energy for the production of edibles. Lacking access to energy services can slow down the adoption of modern production techniques which ends up in lagging food production and small economic growth. The tight linkage between fossil fuel and the production of food results in a linkage between the fuel price and the price of food. Therefore, the pricing of food becomes somewhat unpredictable. Camco Advisory Services in Cooperation with the Powering Agriculture Initative installed pilot mini-grid projects in some 50 communities in Benin Tanzania. These pilot projects, rolled out in the next 3 years, are based on biomass-exploitation and supply mutliple households with energy, independently from fossil fuels. In the short and medium run, mini-grid-systems cannot only be financed through private investors, but they need public subsidies as well. The quality of subsidy schemes decides whether rural electrification projects will be successful or not. It is not an easy task to find the correct way of subsidizing mini-grids, nor to manage the public investment or to attract private co-financiers for long term and efficient operation of mini-grid-systems. The mini-grid policy toolkit advises public personnel and offers them information with which they can make good decisions. To design mini-grid policies and regulations some major decisions have to be taken, e.g. - whether to include mini-grids in rural electrification at all, - which general approach to adopt (centralised vs. decentralised), - how to finance it up front (government vs. private), - how to set tariffs (cross-subsidised vs. cost-covering tariffs).
Mini Grids and Agriculture
Mini-grids can represent a very effective alternative to fossil fuels when using energy for the production of edibles. Lacking access to energy services can slow down the adoption of modern production techniques which ends up in lagging food production and small economic growth. The tight linkage between fossil fuel and the production of food results in a linkage between the fuel price and the price of food. Therefore, the pricing of food becomes somewhat unpredictable. Camco Advisory Services in Cooperation with the Powering Agriculture Initative installed pilot mini-grid projects in some 50 communities in Benin Tanzania. These pilot projects, rolled out in the next 3 years, are based on biomass-exploitation.
Further Information
- Download tools of the mini-grid support toolkit
- Energy Needs in Smallholder Agriculture
- Grid portal on energypedia
- Mini Grids
- Camco Advisory Services
- Winner Project from Camco Advisory Services on poweringag.org
- Basic Energy Services - Stand Alone/Off Grid Energy Systems