Yeah! Your beloved energypedia has a new look and design. We have updated the software so that the new energypedia is responsive and more user-friendly. Have a look at the platform and if you encounter any bugs or page distortions, please send them to us at info@energypedia.info.

Productive Use of Electricity

From energypedia
Revision as of 16:44, 27 August 2010 by ***** (***** | *****)
Productive use of electricity is the basis for long-term sustainable economic development intended by rural electrification programs. The following article will focus on a working definition of the term ‘productive use of electricity’, explore the reasoning for the promotion of productive uses through governments or donor agencies and give an overview on potential interventions to support productive uses.

Defining Productive Use of Electricity

In the general discussion there have been several attempts to come up with a clear definition of the term ‘productive use’. While in some cases productive use is mainly defined through income generating activities that are directly positively affected by the use of electricity, others draw a much broader definition by including the use of electric energy for education and health or other welfare related activities.
A World Bank paper by Kamal Kapadia e.g. employs a broad definition of productive uses of energy as activities “that involve the utilization of energy – both electric, and non-electric energy in the forms of heat, or mechanical energy - for activities that enhance income and welfare. [In rural contexts] these activities are typically in the sectors of agriculture, rural enterprise, health and education.”[1]
Jose Etcheverry takes a similar approach by classing as productive use projects in rural contexts those that “aim at enhancing income generation opportunities and productivity in rural areas […] to improve quality of life and increase local resilience and self-reliance”, with education and health mentioned among the key sectors for productive use of energy in rural contexts.[2]
By contrast, Ron White's paper presented at a GEF-FAO Workshop on Productive Uses of Renewable Energy (2003: 33) suggests a more narrow definition of productive use of energy, taking into account only uses of energy that render outcomes that can be measured in monetary terms: “[activities that ] involve the application of energy […]to create goods and/or services either directly or indirectly for the production of income or value. The production of income or value is understood to be achieved by selling products or services at greater than their cost of production, resulting in an increase in the net income of the enterprise or the entrepreneur." [3]

Why Support Productive Use of Electricity?

In a 1995 review of the World Bank’s rural electrification projects in Asia, the Bank’s Operations Evaluation Department concluded that the “economic returns of rural electrification projects have been considerably lower than expected and a wide range of expected indirect and external benefits have not materialized".[4]. One reason for this fact is that most rural electrification initiatives in the past have mainly focused on household and community needs for lighting. However, if rural electrification is intended as part of a broader development approach, a much higher priority must be given to strategies for promoting productive uses of energy.[2].
The GEF-FAO Workshop on Productive Uses of Renewable Energy in 2002 therefore recommended to broaden the focus of rural energy programmes: “Many rural renewable energy development projects have primarily focused on household lighting using solar home systems (SHS). While such systems provide important social benefits and also may facilitate home-based income generating activities, there are a wide variety of productive-use benefits that can only be captured through applications other than home lighting. These other applications have been neglected in historical development practice”.[3].
A recent paper by ESMAP argues that the most efficient way to deliver effective and lasting impacts when designing a rural electrification scheme is to ensure that such programs have a direct impact on livelihoods and revenue generation, in addition to impacts on standards of living. Increasing revenue generation can be accomplished by improving productivity or reducing production costs in an existing production process. It can also result from the uptake of new lines of productive activities based on electricity use that increase local value-added, generate employment and ultimately enhance local demand.[5].
<span />The rationale behind promotion of productive uses in energy projects is therefore multi-layered: [1]:
  • Productive use can maximize the economic and social benefits of energy access. Energy projects with productive use components are more likely to lead to rural economic development than projects that simply focus on the provision of electricity, or other forms of energy.
  • Incorporating a ‘productive use’ focus into energy projects makes them more likely to help achieve the Millennium Development Goals.
  • Rural electrification projects with a productive use component are more likely to achieve economic sustainability. This is for two distinct reasons:
  1. Enterprises that generate profits through electricity use have a higher ability to pay for energy services than private households who use electricity for purely consumptive purposes.
  2. Obtaining financing for rural energy infrastructure, including Renewable Energy Technologies (RET) and grid extension, may be easier if rural financing agencies see that productive investments materialize from their credits.

How to Support Productive Use of Electricity?

There are several reasons why rural electrification alone does not trigger productive uses or small business development based on energy use. Conversely, specific preconditions and conducive factors can be identified that enhance uptake of productive use. Meaningful approaches for promoting economic development through energy use should seek to strengthen such conducive factors and to clear away hurdles for uptake of productive use of energy by small and micro businesses. Fishbein summarizes the most important preconditions for productive applications of electric energy in developing countries:[6]

<span />• Knowledge and skill by small and micro-business, households and farmers on how to use new-found electrical and motive power for profitable enterprise.
• Technical and financial management capacity of small and micro-business, households and farmers.
• Availability of credit and micro-credit to finance productive tools and equipment.
• A policy and institutional environment conducive to business development, willingness to promote decentralized services, etc.
• Access to markets for additional or new products produced or services offered as a result of new electrical, heat or motive power
• Availability of a minimum of other complementary infrastructure services, such as transport, water supply and ICT services.
Where one or several of these factors are nonexistent, productive use of electricity may be hampered significantly. These requirements therefore provide useful entry points for the design of programmes to promote productive energy use; typical activities under such programmes may include

• support for the dissemination of productive technologies,
• enhancing access to micro credit,
• facilitation of Business Development Services (BDS) and training,
• support the upgrading of infrastructure, or improved market access.[7][8].

Previous experience has shown that good practice in promoting productive use of energy is to involve non-energy sector agencies or organizations to implement respective business development, financing and infrastructure services.[1].

Further Reading



GTZ approaches for the promotion of productive uses of electricity

Mechanical Energy


References

  1. 1.0 1.1 1.2 KAPADIA, K. (2004): Productive Uses of Renewable Energy: A Review of Four Bank-GEF Projects. January 2004 draft version. Washington, D.C.
  2. 2.0 2.1 ETCHEVERRY, J. (2003): Renewable Energy for Productive Uses: Strategies to Enhance Environmental Protection and the Quality of Rural Life. Toronto.
  3. 3.0 3.1 WHITE, R. (2003): GEF-FAO Workshop on Productive Uses of Renewable Energy – Synthesis and Report. Washington, D.C.
  4. World Bank (1995): Rural Electrification: a hard look at costs and benefits. Operations Evaluation Department, Precis Number: 90. Washington, D.C.
  5. Energy Sector Management Assistance Program (ESMAP) (2008): Maximizing the Productive Uses of Electricity to Increase the Impact of Rural Electrification Programs. Washington, D.C.
  6. FISHBEIN, R.E. (2003): Survey of Productive Uses of Electricity in Rural Areas. Washington, D.C.
  7. ALLERDICE, A. &amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp; J.H. ROGERS (2000): Renewable Energy for Microenterprise. Golden.
  8. VEIT, S. (2006): GTZ Experience with Productive Use of Rural Energy. Eschborn.