Difference between revisions of "Future scenarios of energy access"

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*IEA,[http://www.iea.org/publications/freepublications/publication/WEO2017SpecialReport_EnergyAccessOutlook.pdf World Energy Outlook 2017 Special Report], Energy Access Outlook, 2017  
 
*IEA,[http://www.iea.org/publications/freepublications/publication/WEO2017SpecialReport_EnergyAccessOutlook.pdf World Energy Outlook 2017 Special Report], Energy Access Outlook, 2017  
 
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Written by: [http://fsr.eui.eu/people/pia-lovengreen-alessi/ Pia Lovengreen Alessi], [http://fsr.eui.eu/universal-access-energy/ Florence School of Regulation]&nbsp;and [http://www.wame2015.org/ World Access to Modern Energy].
 
Written by: [http://fsr.eui.eu/people/pia-lovengreen-alessi/ Pia Lovengreen Alessi], [http://fsr.eui.eu/universal-access-energy/ Florence School of Regulation]&nbsp;and [http://www.wame2015.org/ World Access to Modern Energy].
  
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Revision as of 19:23, 30 April 2018

Future scenarios

When looking at future scenarios of energy access there is one chief source of reliable data: the International Energy Agency, with its special report on Energy Access Outlook published in 2017, a supplement to the Annual Energy Outlook publication.[1]

Here we find reference to two scenarios for energy access by 2030. First, “The New Policies Scenario”, which aims to provide a quantitative assessment of where existing policies, as well as announced policy intentions, will lead the energy sector. Second, “The Energy for All Case”, which highlights what more needs to be done to put the world on course to achieve the Sustainable Development Goal 7.1 of providing universal access to affordable, reliable and modern energy services by 2030.

Please find a brief overview of the two EIA scenarios below.

Current electricity status

According to the IEA, efforts to promote electricity access are having a positive impact in all regions and the pace of progress has accelerated. Their analysis shows that the number of people without access to electricity fell to 1.1 billion people for the first time in 2016, with nearly 1.2 billion people having gained access since 2000. 

Great progress has been made especially in developing Asia, where the number of those who lack access to electricity fell from over one billion in 2000 to fewer than half a billion in 2016. China and India in particular have seen tremendous progress: China achieved universal electricity access in 2015 and half a billion people gained access to electricity in India since 2000.

There is also a positive trend in sub-Saharan Africa, where electrification efforts have been outpacing population growth since 2014. Progress is uneven, however, and there are still more people without electricity today (588 million) than there were in 2000 (518 million).

In Latin America, 97% of the population now has access to electricity. Most of the population (17 million people) who lack access live in rural areas, often in isolated communities far from the grid and in difficult terrain.


Population without access to electricity by region.png

Population without access to electricity by region, IEA 2017[1]

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Trends

Although there has been no one-size-fits-all strategy for increasing access to electricity in recent years, which reflects the broad diversity of energy resources, infrastructure, technologies, institutions and geography across countries, some noteworthy trends have emerged.

  1. The number of people gaining electricity access each year has accelerated, from 62 million between 2000 and 2012, to over 100 million since 2012.
  2. The percentage of people gaining access from renewable sources (from both grid connections and decentralized systems) is slowly increasing; from 28% in 2000 – 2012, to 34% since 2012. This has been driven by sub-Saharan Africa, where hydropower, geothermal and solar PV accounted for 70% of new electricity access since 2012.

Looking forward, decentralised electrification is expected to play an increasingly dominant role in rural and dispersed communities because of rapidly declining costs of solar PV, battery technologies and energy efficient appliances. It will be supported by changing government policies, market conditions and new business models, as well.

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Future projections for electricity: The “NEW POLICIES” Scenario

For the purposes of projection, electricity access in the IEA report is defined as referring to a household having an electricity supply connection, with a minimum level of consumption of 250 kilowatt-hours (kWh) per year for a rural household and 500 kWh for an urban household, which increases over time to reach the national average.

The country-by-country analysis of policies, investment and technologies that underpins the New Policies Scenario shows an overall electrification rate in developing countries that will increase from 82% today to 90% in 2030, with countries such as India and other Asian countries getting very close to closing the gap. The pace of progress is expected to slow somewhat when compared to the last few years, with only 44 million people gaining access each year, rather than the 92 million needed to meet universal access by 2030.

Focus needs to be put on sub-Saharan Africa, as this is where 90% of the 674 million people still without access to electricity in 2030 will live. While the access rate in sub-Saharan Africa is expected to grow from 42% today to 59% in 2030, overall progress will struggle to keep pace with continuing population growth, leaving around the same amount of people without access in 2030 as there are today.

Centralized grid electrification continues to be the primary means of electrification because it is the least-cost option per Kwh for the majority of the people gaining access. However, its relative importance is decreasing since these people will represent only half of the total population gaining access in the years to 2030. In rural areas where centralized grid access is more expensive, two-thirds of the population gaining access is expected to do so with some form of decentralised system as this is the least-cost solution in such areas. 

While fossil fuels will continue to play a role in providing access via the grid, their share will decline substantially: 40% of those who gain access over the period to 2030 do so with fossil fuels, down 30 percentage points from the figure for 2000-15. 60% of those who gain access by 2030 will do so through generation from renewables, mostly solar and hydro. 

Average investment costs are $24 billion per year to 2030, 1.5% of the annual global energy investment. The total investment for electricity access is roughly one-third each for on-grid access, mini-grids (generation and distribution) and for off-grid. Almost 90% of all investment in generation is for renewables, particularly for solar PV.

New Policies Scenario.png

New Policies Scenario[1]
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Future projections for electricity: The “ENERGY FOR ALL” Case

In the Energy for All Case, where universal access to electricity is achieved by 2030, the greatest challenge is to provide access to people living in the most remote areas in sub-Saharan Africa. New geospatial analysis shows that decentralised systems are expected to be the least-cost option to supply electricity for nearly three-quarters of those concerned, but that grid expansion also has an important part to play. The analysis also shows that almost 90% of those gaining access over and above the projections in the New Policies Scenario, do so through generation from renewables, with almost 90% provided by off-grid solar PV systems given their modular nature.

The additional annual investment cost is $28 billion per year until 2030, equivalent to 1.7% of total global energy investment with a vast majority going to decentralised power systems.

Additional 674 million people gaining access to electricity.png

Additional 674 million people gaining access to electricity[1]

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Current Clean Cooking Status 

Today around 2.8 billion people – 38% of the global population and almost 50% of the population in developing countries – lack access to clean cooking. Some progress on access to clean cooking has been observed in recent years, mainly in Asia, as a result of targeted policies focusing on the use of LPG in urban areas. Despite these efforts, the number of people without clean cooking access has remained flat since 2000, with population growth outstripping progress in many countries. In sub-Saharan Africa, there were 240 million more people relying on biomass for cooking in 2015 compared to 2000, a trend that is unfortunately expected to continue.

For the purpose of projections, the IEA defines “access to clean cooking” as a household primarily relying on cooking facilities, which are used without harm to the health of those in the household, and which are more environmentally sustainable and energy efficient than biomass cook stoves and the three-stone fires currently used in developing countries.

Future projections for clean cooking: The “NEW POLICIES” Scenario

The world is far from being on track to achieving universal access to clean cooking facilities. In the New Policies Scenario, 2.3 billion people are projected to remain without access to clean cooking facilities in 2030.

New Policies Scenario for 2030.png

New Policies Scenario for 2030[1]


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Future projections for clean cooking: The “ENERGY FOR ALL” Case

The Energy for All Case sets out what would be needed to provide universal access to clean cooking for an additional 2.3 billion people by 2030 relative to the New Policies Scenario, with more than 80% of people living in rural areas. For those who gain access in urban areas, LPG, natural gas and electricity are the main solutions. The path to clean cooking access for the more than 1.8 billion people who gain access in rural areas is distributed among improved and advanced cook stoves, LPG and biogas. A cumulative $42 billion investment is needed to ensure universal clean cooking access, relative to the New Policies Scenario.

Populations relying on fuels for cooking in developing countries. The Energy for All Case depicts the change in energy sources..png

Populations relying on fuels for cooking in developing countries. The Energy for All Case depicts the change in energy sources.[1]

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Conclusion

Currently, we are not on the right course to achieve the SDG 7.1 of providing universal access to affordable, reliable and modern energy services by 2030.Trends in electricity access are looking rather positive as the technologies needed to reach the goal are available, while new and innovative business models and funding partnerships are appearing and will hopefully provide the extra funds needed to upscale electricity access. Sub-Saharan Africa stands out as the only area where a substantial access gap will most likely remain in 2030. In the rest of the world, much has been achieved already. However, there is still room for progress from policy makers and regulatory institutions in establishing the best possible framework to ensure the necessary funds are channelled to electrification, especially of the most dispersed and less populated rural areas. The challenges facing universal access to clean cooking are many and the outlook remains unfavourable. The investment cost is low compared to the resulting benefits and to the size of overall investment levels in the energy sector. It is, therefore, fundamental to cultivate local markets and foster cultural change so that access to clean cooking becomes a reality for all by 2030.

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Further Information

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References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 IEA, World Energy Outlook 2017 Special Report, Energy Access Outlook, 2017 http://www.iea.org/publications/freepublications/publication/WEO2017SpecialReport_EnergyAccessOutlook.pdf



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This article is part of the Energy Access Portal which is a joint collaboration between energypedia UG and the “World Access to Modern Energy (WAME)". WAME is managed by the Museo Nazionale della Scienza e Tecnologia Leonardo da Vinci (MuST), the Fondazione AEM and the Florence School of Regulation (FSR) and it is supported by Fondazione CARIPLO.


Written by: Pia Lovengreen Alessi, Florence School of Regulation and World Access to Modern Energy.