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Mongolia

Official Name:
Mongolia
Region:

National Designated Entity

Type of organisation:
Government/Ministry
Name:
Ms. Narangaravuu Altangerel
Position:
Climate Change Officer
Phone:
+976 51266288

Energy profile

Type: 
Energy profile
Energy profile
Extent of network

There are three separate electricity systems in Mongolia:the Central Energy System, which serves Ulan Bator and surrounding areas, represents the vast majority of all Mongolian electricity supply and is comprised of five coal powered plants and an interconnection with Russia;the Eastern Energy System, which has one combined heat and power plant; andthe Western Energy System, which relies on the importation of electricity from Russia.Apart the Central (CES), West (WES), East (EES), there are is the  Altai-Uliastai (AUES) autonomous energy systems, Dalanzadgad steam power plant and diesel generators with provisional operations installed at small settlements.In Mongolia there are 678,000 households, and nearly 400,000 households are connected to the grid (60 %). Out of 333 counties of 21 provinces, 318 counties are connected to transmission lines.

Renewable energy potential

A recent study by the US National Renewable Energy Laboratory and the Mongolian National Renewable Energy Centre, estimated that Mongolia has potential to generate 2,600 GW of wind, solar, geothermal and hydropower-based energy. This figure represents approximately 25% of total global electricity demand and encapsulates the vast potential of Mongolia for renewables development.Mongolian President Tsakhiagiin Elbegdorj has been lauded internationally for his eco-friendly policies and for his promotion of renewable energy. At the Northeast Asia Renewable Energy Cooperation Forum in November 2012, the President outlined Mongolia's long term goal of exporting renewable energy to China and Russia.Government rhetoric on renewable energy has been strong with authorities claiming that Mongolia can become "the Saudi Arabia of the East, not for coal but for renewable energy."WindWith regard to wind, good sites can be found throughout the country. The most attractive sites are located the South Gobi region, which is alone estimated to contain 300 GW of high quality wind energy potential. The South Gobi also contains some of Mongolia’s largest mines and is well-situated for exports to China.The first commercial wind farm project in Mongolia – a 50 MW Salkhit wind farm outside of the capital Ulaanbaatar – was connected to the electricity grid in 2013 and is now generating electricity. The European Bank for Reconstruction and Development (EBRD) provided debt and equity funding for the project.HydroMongolia's 3,800 streams and rivers, which are located primarily in the northern and western areas of the country, have the potential for the generation of up to 6.4 GW of hydropower.  Currently, Mongolia has approximately 12 MW of hydropower capacity, with an additional 12 MW under construction.Solar"The land of the blue sky" has, in an average year, 270 to 300 'sunny' days. Accordingly, solar potential in the country is quite high, estimated to be 11 GW. There are three solar PV installations in operation:the Naran Plant (5kW);the Noyon plant (200kW); andthe Tsagaanchuluut plant (1kW).One of Mongolia's most successful renewable energy initiatives has been the Solar Gers Project. Under the project, 100,146 herder families have been provided with portable solar energy systems since 1999. The project is jointly funded by the World Bank and Dutch Government and provides a 50% subsidy on the cost of solar systems. The Gobi Desert has been earmarked as a possible location for a large solar PV or concentrated solar plant.Geothermal40 possible geothermal sites have been identified, with projects at Tsenkher, Khujirt and Shargaljuut in the Khangai region deemed the most feasible. There is potential for 45 MW to 900 MW of geothermal power in Mongolia, however Mongolia has not generated power from geothermal resources yet.BiomassThe biomass potential of the country has not been extensively researched, however production from animal manures, particularly in rural areas, is deemed to have potential. There are currently no biofuels or biomass facilities in Mongolia.

Energy framework

On 9 June 2005, the Parliament of Mongolia approved “A National Renewable Energy Programme” for the period 2005-2020, to facilitate the wider use of renewable energy in Mongolia. The Programme’s goals include: a total installed capacity generated by renewable energy power sources of 3-5% by 2010 and 20-25% by 2020 of the total energy production; and a programme for increased decentralised electrification of remote rural villages to provide electricity to 100,000 households by 2010 and all rural families by 2020.A Renewable Energy Law was adopted in 2007. This law sets forth feed-in tariff ranges for renewable energy, categorised by type. Pursuant to the framework established by the Renewable Energy Law, ERA developed and approved the first long term Power Purchase Agreement to be signed between the “Central Regional Electricity Transmission Network” State Owned Stock Company and private investor “Newcom” Co., LTd. Approval of this agreement was the first step to encourage private sector participation in the energy sector.Mongolia ratified the Kyoto Protocol to the United Nations Framework Convention on Climate Change in 1999.The “Building Energy Efficiency Project” (BEEP) started in 2009 to support the Government of Mongolia in enhancing energy efficiency in the wider Mongolian building sector by removing the barriers, including noncompliant and outdated building codes, norms and standards (BCNS). The project is funded by the Global Environment Facility (GEF), the Korean Energy Management Corporation (KEMCO) and UNDP Mongolia. Its goal is the reduction in the annual growth rate of GHG emissions from the buildings sector. BEEP will contribute to the reduction of greenhouse gas emissions through the transformation of the Mongolian buildings market towards more energy-efficient building technologies and services, sustainable private house insulation and energy efficiency financing mechanisms.Furthermore, the project is intended to widen the scope of the current EE programs of the GoM (Government of Mongolia) through the Ministry of Roads, Transportation, Construction and Urban Development (MRTCUD) by addressing all the pertinent aspects of improving and further introducing EE concepts in the buildings sector in Mongolia.100,000 Solar Houses (Gers) - National Programme for Providing Rural Areas with Electricity through the Utilization of Renewable Energy (2000-2012).The main goals of the programme were:Electrification of all households in rural areas through Solar Home Systems (SHS).Development of Solar-Wind-Hydro-Diesel power hybrid system to meet electricity demand of livestock herdsmen’s households, villages, rural schools, hospitals, tourist camps, frontier posts, etc.The SHS were subsidised through contributions from various bilateral donors over the course of its lifetime (2000-2012). More than 30,000 subsidised SHS were sold to herder families by 2004. Over 40,000 SHS were distributed to herder families financed by the Mongolian National Budget in 2006-2007. After the inclusion of the World Bank in 2006, 27,000 more subsidised SHS were sold. The programme has also improved electricity distribution systems in 30 soums (districts), and installed hybrid systems to reduce the use of costly diesel in 15 soums. It has increased the electrification rate among nomadic herders from zero to 70%.

Source
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  • Type: 
    Publication
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    The goal of this report is to provide an understanding of global non-ferrous metal scrap flows in the context of non-ferrous industry developments over the 2000 to 2011 period. The focus of this study is on copper and aluminium as the two largest non-ferrous metals in terms of both material tonnages and market value. The report consists of four chapters. The first chapter, presented here, provides a brief backdrop to the analysis on non-ferrous scrap flows. It outlines growth in metal demand and the underlying reasons for this growth.

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    Publication
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    This report provides historical and projected estimates of emissions of non-carbon-dioxide greenhouse gas (GHG) emissions from anthropogenic sources. It provides a consistent and comprehensive estimate for 92 individual countries and 8 regions. The analysis provides information that can be used to understand national contributions of GHG emissions, historical progress on reductions and mitigation opportunities. Although this document is being published by the U.S.

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    Communities have coped for millennia through extremes of flood and drought by cooperatively managing shared natural resources, and by cultivating a variety of robust, indigenous crop types that can survive a range of conditions. Knowledge and use of diverse plant types - either planted or foraged - could be key to survival as climate extremes widen. Pasture degradation is very serious and widespread in Mongolia. The problem has been aggravated by three severe winters (1999-2001) characterized by heavy accumulations of snow or ice crusts on pastures.

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    Publication
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    Freely available climate and climate-related data is essential to catalyze the changes in policies, investments and technologies that will be needed if we are to move towards a climate-smart future. The Climate Change Knowledge Portal is a central hub of information, data and reports about climate change around the world. With this portal you can query, map, compare, chart and summarize key climate and climate-related information. Open data: all of the climate data featured on the Climate Change Knowledge Portal has been published as open data resources.

  • Type: 
    Organisation
    Country of registration:
    Bangladesh
    Relation to CTCN:
    Network Member

    Bangladesh Centre for Advanced studies (BCAS) is an independent, non-government, non-profit, research and policy institute institution established in 1986 with the mission to provide guidance and practical solutions to promote sustainable development, eradicate poverty, improve access of the poor to resources and ensure social justice. It specializes in policy analysis, action research and project implementation for sustainable development at local, national, regional and global levels.  

  • Type: 
    Organisation
    Country of registration:
    Germany
    Relation to CTCN:
    Network Member

    Wuppertal Institute for Climate, Environment and Energy  is a research and academic organization established in 1991 with the mission to undertake research and develops models, strategies and instruments for transitions to a sustainable development at local, national and international level. Sustainability research at the Wuppertal Institute focuses on the resources, climate and energy related challenges and their relation to economy and society. Special emphasis is put on analysing and stimulating innovations that decouple economic growth and wealth from natural resource use. 

  • Type: 
    Organisation
    Country of registration:
    Israel
    Relation to CTCN:
    Network Member

    Natural Resources and Environmental Research Center (NRERC), University of Haifa is a resaerch and academic institution established in 1985  with the mission to  carry out interdisciplinary research in the area of natural resource and environmental resource management, pioneering this academic research field in Israel. NRERC is chosen, by the Israeli Ministry of Environmental Protection, to lead "The Israeli Center for Climate Change" (ICCIC).

  • Type: 
    Organisation
    Knowledge partner
    Country of registration:
    Iraq
    Relation to CTCN:
    Network Member
    Knowledge Partner

    Kirkuk Technical College is a research and academic institution established in 1998, by the Government of Republic of Iraq with the mission to provide advanced technical education and create mechanisms for constant scientific, technical and moral evolutions of people so as to ensure continual development of the society. It conducts research studies and assessments on range of topics and develops knowledge products.

  • Type: 
    Organisation
    Country of registration:
    Nepal
    Relation to CTCN:
    Network Member
    Sector(s) of expertise:

    ICIMOD is a regional intergovernmental institution established in 1983 with the mission to serve the HKH region through information and knowledge generation and sharing to find solutions to critical mountain problems. ICIMOD bridges science with policies and on-the-ground practices. It provides a regional platform where policy makers, experts, planners, and practitioners can exchange ideas and perspectives towards the achievement of sustainable mountain development.

  • Type: 
    Organisation
    Country of registration:
    Thailand
    Relation to CTCN:
    Network Member
    Sector(s) of expertise:

    IIEC is a non‐governmental (NGO), not‐for‐profit organization, established in 1984, with a mission to apply global knowledge base and experience to customize local sustainable solutions that are replicable & adaptable, to make a global mainstream impact toward sustainable development and greenhouse gas emissions reduction.  IIEC designs policies, implements programs, and supports institutions that mainstream energy efficiency in the entire value chain of energy systems and use.