Energy in Common

Energy in Common
(also known as energyincommon.org)
Founded 2009
Focus Economic development
Location
Area served
World-wide
Method Microcredit
Key people
Website www.energyincommon.org

Energy in Common (EIC) is a not-for-profit organization, which is the first to enable microloans specifically and only for renewable energy technologies. EIC was founded by Hugh Whalan and Scott Tudman in 2009 (website launch 2010). It has the very ambitious goal of delivering renewable energy to 15 million people in the next five years, while fighting poverty by empowering developing world entrepreneurs through microloans.[1] EIC represents one of the most promising contenders in the growing green microfinance sector.

EIC operates very similarly to Kiva. In the case of Kiva, lenders provide funds with zero return expected to developing world entrepreneurs to invest in their businesses (typical loans are for things like seeds for farming). EIC does this as well, but specifically focuses on purchasing renewable energy systems like solar photovoltaic panels.

What makes EIC particularly unique in the microfinance non-profit sector is that they have created a model to measure the greenhouse gas emission reductions that are created by their loans. The EIC model helps provide funding to developing world entrepreneurs for energy solutions and also helps to channel additional funding into mitigating climate change.

Method of operation

  1. EIC enables individuals to lend money to poor entrepreneurs in the developing world via website using a Kiva-like model that connects individual lenders and borrowers. Upon choosing a borrower the lender can decide how much to lend - either a fraction or the entire loan requested by the borrower. The minimum loan is set at $25 for the standard microloans and $5 for their innovative nanoloans (discussed below). The total of a given range is usually found between $40 and a thousand dollars. When enough individual lenders have provided the fractional loans to a borrower and the total amount required has been reached, the loan is dispersed by the EIC. All of the EIC loans are meant to directly alleviate poverty and mitigate greenhouse gas (GHG) emissions.
  2. EIC has partnered with several microfinance institutions (MFI)s. The MFIs provide EIC with lists of potential borrowers, which are screened by the EIC before any individual borrower is profiled. MFIs are responsible for disbursing the loan directly to the borrower and all maintenance and support services to the borrower after the energy product is purchased. To cover the expenses related to this responsibility, the MFIs receives all of the interest charged to the customer for the loan. For their part, the EIC helps their MFIs partners with sourcing reliable energy technologies. Currently, EIC works with four MFIs all based in Sub-Saharan Africa, but has plans to expand into other regions.[2]
  3. When a loan is repaid, funds are deposited back into the lender's account and EIC calculates the individual project's GHG emission reductions. These GHG emission reductions can be used by a lender to offset their carbon emissions through a tax deductible donation to EIC. Presumably the carbon credits may also be sold to third parties. The total carbon emission offsets are determined for a project by subtracting the carbon emissions before and after the energy loan was provided.

Appropriate technologies funded by EIC

The following list of primarily renewable energy technologies:[3]

Biodigesters

Biodigesters convert organic wastes such as food waste, human waste and animal waste into nutrient rich liquid fertilizer and biogas (thus a renewable fuel made up primarily of methane). A biodigester is made up of a bag or tank that holds the organic 'wastes' over a period in which bacteria breaks down the organic matter and produces biogas. Biogas is used as a replacement for kerosene, firewood, or any other combustible fuel source used in the developing world such as cow dung. Biodegesters thus produce renewable energy, cut down on odors and pathogens in organic materials, reduce surface and groundwater contamination, improve indoor air quality and provide a source of high quality organic fertilizer as a byproduct—that has been shown to improve crop yields and decrease fertilizer costs.

Clean burning stoves

Clean burning stoves improve the fuel utilization over common stoves. There are several types but the ones funded often burn propane instead of less efficient fuels such as wood, charcoal, or dung. This is somewhat controversial as currently this allows for economic savings although clearly there is a potential to have negative effects of becoming dependent on a non-renewable energy source, which in many cases needs to be imported. Less controversial, is a clean burning stove that uses wood, charcoal, or dung, but burns more efficiently. These stoves funded by EIC are designed to increase the airflow to the fuel source, creating a better flame and reducing the amount of fuel required to provide a given amount of heat to the target (e.g. it takes less fuel wood to cook dinner). Both types of clean burning stoves reduce the costs associated with fuel use and improve the indoor air quality within the homes of the users.

Solar powered LED lighting

The LED lamps combine a small solar photovoltaic panel with a rechargeable battery and an array of LED lights into an effective lighting system, which is used to replace dangerous (indoor air quality, GHG emitting, and fire hazard) kerosene lamps. LED lights are known to be very efficient, which prolongs illumination time on the charging made available by the PV.

Solar photovoltaic home systems

A typical solar photovoltaic home system funded by EIC consists of a small solar panel (both pole or roof mounted) connected to a charge controller and a small battery. The stored solar electricity can be used both in the day and after dark to power lights and an electrical socket for other electrical equipment (e.g. cell phone charger, OLPC, radio, TV, or computer).

Carbon offsets

EIC creates carbon offsets from emission reductions that have occurred over the loan term and only once the loan term has finished. In this way, lenders and those that make donations to retire carbon credits can be sure that all emission reductions have already happened.[4] They do this by providing a detailed questionnaires before, during and after the loan, and in-depth field surveys conducted by both by EIC and independent auditing firms in order to sell the carbon offsets. The particularly clever part is that loaners may then buy the carbon credits and get a tax credit from EIC.

Nanoloans

In order to overcome the initial investment barrier that many people have when considering microfinance EIC developed the "Nanoloan" concept. For most microfinance institutions (e.g. Kiva) the minimum loan is $25 and the average time until repayment is about 18 months. This can put a lot of well-intentioned people off of the concept. EIC Nanoloans are a limited run of $5 loans, specifically designed to be repaid in just 60 days.[5] The object of offering nanoloans is to introduce new lenders to the entire microlending process fast.

EIC impact

EIC has been covered extensively in the green alternative press including The Huffington Post,[6] Mother Nature Network,[7] GreenBiz, the Next Billion[8] and the standard press such as CNN.[9]

Theoretical support

P2P banking and financing has been proposed as a method to accelerate the development renewable energy projects while more equitably distributing the return on investment.[10] These concepts have now been instituted by Energy in Common and Kiva in their green fund.

Suspension of lending activities

Energy in Common announced on its Facebook page on September 19, 2013 that all lending activities had been suspended and that loan recovery from delinquent borrowers were underway. Subsequent replies on Facebook by lenders have gone unaddressed [11] and there have been other reports of concerns being reported without reply.[12] There has been no activity on its Twitter feed since June 26, 2012.[13]

See also

References

  1. M. Popova. Energy In Common: New Microfinance Venture Fights Poverty with Clean Energy. The Huffington Post. April 19, 2010. http://www.huffingtonpost.com/maria-popova/energy-in-common-new-micr_b_542278.html
  2. http://www.nextbillion.net/blog/energy-in-common
  3. Energy Technologies. EIC. Available: http://www.energyincommon.org/about/energytechnologies.cfm visited Jan 4, 2010.
  4. http://www.energyincommon.org/about/glossary.cfm#carbonprocess
  5. http://www.energyincommon.org/nanoloans/index.cfm
  6. M. Popova. Energy In Common: New Microfinance Venture Fights Poverty with Clean Energy. The Huffington Post. April 19, 2010. http://www.huffingtonpost.com/maria-popova/energy-in-common-new-micr_b_542278.html
  7. S. Gunther. Energy In Common: It's like Kiva, but greener. Mother Nature Network. April 26, 2010. Available: http://www.mnn.com/earth-matters/energy/blogs/energy-in-common-its-like-kiva-but-greener
  8. M. Bueno. Pushing Forward Energy Microfinance: Energy in Common. Next Billion. June 8, 2010. http://www.nextbillion.net/blog/energy-in-common
  9. http://cnn.com/video/?/video/bestoftv/2010/10/09/nat.energy.in.common.cnn
  10. K. Branker, E. Shackles, J. M. Pearce, “Peer-to-Peer Financing Mechanisms to Accelerate Renewable Energy DeploymentThe Journal of Sustainable Finance & Investment 1(2), pp. 138-155 (2011).
  11. https://www.facebook.com/energyincommon/posts/575473849180769
  12. http://greatnonprofits.org/org/energy-in-common-inc
  13. https://twitter.com/EnergyinCommon

External links

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