Nepal's total energy consumption in 2010 was about 428 PJ (10,220 ktoe). New renewable energy sources (excluding large hydropower) such as biogas, micro hydro and solar energy contributed about 0.7% to the national balance in 2008/09 altogether. Although the share is still small, it has increased by 40 % since 2005.

^[1]The use of primary energy sources is distributed as follows: ^[2]

Between 2001 and 2009, the total energy consumption was growing at a rate of 2.4 % per year in average. Although there is a considerable lack of efficiency in energy use, Nepal accounts for relatively low CO2 emissions compared to other countries in the region. The reason is the high proportion of renewable energy sources (biomass and hydro power) in primary energy consumption. 43.6 % (2009) of Nepalese population has access to electricity; 81.0 % (2012) depend on traditional fuels (wholly or partially).^[3]

Energy consumption in economic sectors (2010)^[1]

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With about 1 TOE for every $1,000 of GDP, Nepal has the poorest energy intensity among all South Asian countries (IEA, 2012). It thus has very large energy efficiency potential, though the United Nations warns that “energy efficiency efforts in the country are still at its infancy.” The NEA currently pursues a “loss reduction” strategy of rehabilitating 27 feeders and distribution lines, and plans for solar-powered street lamps and replacing incandescent light bulbs with compact fluorescent ones have been discussed, but not fully implemented. Nepal thus has a number of barriers to energy efficiency that it must overcome, including “absence of a legal framework,” “low levels of public awareness,” and “lack of capable human resources.”

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Renewable Energy

[Show/hide] Biomass

[Show/hide] Biogas

[Show/hide]Solar

[Show/hide]Fossil Fuels

[Show/hide]Electricity

[Show/hide]Solar

[Show/hide] Power Shortage & Load-Shedding

The general shortage of electricity is manifesting itself in scheduled power cuts (so-called load-shedding), which became an incremental part of power supply in Nepal within the last years. Especially during dry-season Nepal’s dependence on hydropower becomes obvious, forcing the NEA to cut power in Kathmandu up to 16 hours per day (as in April 2011). The situation has even worsened as only two hydropower plants with an installed capacity of 92 MW are storage types, while the rest are run-off river plants.^[15]

Follwoing figure illustrates the growing gap between electricity demand and supply and corresponds with the appearance of load-shedding. Since 2006/07 the supply gap increased from 105 GWh to 678 GWh in 2009/10, with the temporary peak in 2008/09 with 745 GWh. Furthermore, the figure shows the seasonal fluctuations due to irregular run-off rivers. Due to glacier melt and intensive rainfall during the monsoon season, electricity supply almost matches the demand between June and October. However, during the winter (where precipitation is far less) generation capacity decreases along with diminishing run-off rivers.

Coping with load-shedding is challenging both the industrial and commercial sector. Despite preferential treatment of the industrial sector (which is partly spared from load-shedding), manufacturing suffers hard from the power crisis. Newspapers report, that manufacturing industries have to cut their production between 25 and 80 % in peak times. Small commercial businesses are similarly affected by load-shedding, as many are dependent on power and are thus forced to use generators or backup systems.^[16] The long-term impact of poor power supply is observable as the share of manufacturing sector among GDP declined from 9 to 6 % since 2000/01.^[17]

As the construction period for new power generation projects and new import transmission capacities is very long, a rapid improvement of energy supply cannot be expected. An emergency supply through diesel power plants is unrealistic, because of the high power generation costs associated. Therefore, the power supply crisis affects public life and especially economic development negatively. Electricity provides nearly one fourth of the total industrial energy consumption. It has to be expected that more industrial enterprises and service providers make themselves independent from the unreliable public power supply by using diesel generators. Although this costly practice allows at least profitable companies to maintain their business, it places a huge burden on the national economy as additional fuel imports will be necessary.

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Demand Forecast & Outlook

According to estimations of the NEA energy demand will grow in the next 17 years with an average annual rate of 8.34 %. The current demand of 4430 GWh annually is expected to double until 2018 and exceed 17,400 GWh by 2027. Along with the growing demand it is projected that system peak load will increase with similar annual growth rates, reaching 3679 MW in 2027.^[9]

These estimations require an immense increase in the exploitation of the vast hydropower resources in Nepal. Of the 42,000 MW of economically feasible hydropower resources only the relatively small share of 1.7 % is tapped.^[15] Despite long term development plans targeting to reach 10,000 MW of installed capacity by 2020 (according to the 10-years hydropower development plan), current development of the sector draw a rather different picture.

Currently, projects with a total capacity of 547 MW are under construction. NEA projects account for the major share (500 MW) of it. Planned and proposed projects would furthermore increase the capacity by 1422 MW. But considering the relatively slow deployment of new projects in Nepal, it seems unlikely that until 2020 more than 7000 MW of capacity will be contributed by projects that even have not been proposed until now.

Though, actions to upgrade generation capacity within the next ten years were taken, the current situation of load-shedding is likely to persist and may even get worse in the near future. Chamelia and Kulekhani-III with a capacity of 30 and 14 MW respectively are expected to be completed in 2011. However, the first one is situated in the Far-Western region and is thus unable to contribute to the major demand in the central and eastern part of the country. If at all, relief can be expected when the Upper Tamakoshi project is connected to the national grid. With a total capacity of 456 MW it is expected to contribute 2281.2 GWh annually. Developed as a PPP it is scheduled to start production in 2013/14.^[9] Considering the estimated growth of energy demand, capacity will hardly meet peak demand even after completion of the three above mentioned projects. Especially, in the dry seasons plants will operate far below their maximum capacity, resulting in load-shedding or an immense increase of power imports from India.

As all projects that are currently under construction are run-off-river types, the Nepalese power sector will be even more dependent on seasonal fluctuations of river flows. Furthermore, it is unclear how climate change will affect water security in Nepal. Linked to many uncertainties, climate change affects run-off rivers by (a) glacier retreat and (b) changes in rainfall intensity and patterns. Projections estimate that run-off could be reduced by 14 % due to climate change, reducing both generation capacity and economically feasible hydropower potential.^[18]

Limited financing: Inabilities to procure financing and foreign investment are major barriers. One assessment calculated that if you take all of the available capital in Nepali markets - this for everything, not just energy - and directed it solely at building hydropower projects, you would not even have enough for 200 MW. UNDP surveyed key lenders in the sector and noted that commercial banks and financial institutions are “generally not interested” in investing in energy. A separate evaluation commented that Nepal lacked “long-term debt financing” for energy projects and that the major lenders, the Agricultural Development Bank and National Commercial Bank, have already “maxed out” their lending for microhydro, solar PV, and biogas. A third study remarked that in Nepal, “financial institutions are not readily motivated to invest in renewable energy technologies because of the immature business models, market insecurity and implementation and usage risks.”^[3]

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Electricity Demand and Supply in the Household Sector

NEA provides approximately 1.5 million households with electricity. The subscriber growth rate was about 10% per year in recent years. Private households account for 43.4 % of national electricity consumption. The average daily household consumption is about 2 kWh which is used mainly for lighting. The other uses being running radios, TVs and to some extent cooking and water heating.

The electricity tariffs for households with 4 to 10 NRs / kWh (approx. 0.04 - 0.10 EUR / kWh) are low to moderate in international comparison. However, because of the high fixed monthly minimum rate households are not motivated to save electricity.

The electricity supply crises leads to cut offs that affect particularly large numbers of consumers, especially during evening peak load hours. The households are disadvantaged in two ways. They have to pay a high monthly minimum rate for an unreliable supply and moreover, they have additional expenses on lighting alternatives such as kerosene lamps, candles or battery lighting. The increasing use of electrical appliances such as refrigerators, water pumps, rice cookers and water heaters lead to power supply overload. Due to the lack of minimum standards for energy efficient appliances and a lack of labeling of the devices regarding their electricity consumption, private households can make no conscious purchase decisions with regard to operation costs of the appliances. Inefficient domestic appliances are usually cheaper than those with a higher energy-efficiency. Therefore, costumers who have no access to information about the operating costs usually buy the cheaper but inefficient appliances. As a consequence, households have to bear high operation costs, and the energy service companies have to make higher power generation capacities available.

A social norm against collecting revenue for electricity further inhibits the profitability of hydro schemes. Many believe hydroelectric facilities should serve the community for free, and that poor families should not have to pay for electricity. The problem with this view is that it creates social opposition to charging rural households for hydroelectricity.^[3]

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Rural electrification in Nepal is very expensive due to the topographical conditions and at the same time the purchasing power of the consumers very low. This unfortunate combination of obstacles is documented in the hard fact that 56.7 % of the Nepalese population has no access to electricity. In rural arears of Nepal, 17 million peole are without electricity. ^[3]

State funds are insufficient to cope with the problem at hand, therefore in 2003/04 GoN adopted a policy and created the Community Electrification Program to accelerate the electrification process. The model is that communities buy power in bulk from NEA and manage/operate the local system through village organizations called Community Rural Electrification Entities (CREE).The price the CREEs pay for the bulk power is lower than the lowest consumer tariff. The revenue can be spend for operation and maintenance of the system.

230 communities positively responded to this initiative and have deposited 5 % (as a pre-condition to be part of the program) of the anticipated costs to the Community Rural Electrification Department of NEA. Another 188 agreements have already been signed, and additional 444 community applications have been registered. 116 communities have already got access to electricity under this arrangement (20 % local contribution, 80 % grants from GoN). Among the 230 communities having paid 5 % already, a large number will not be able to comply with their obligation to come up with the remaining 15 %. In addition, the communities usually lack the necessary management and technical skills to operate and manage the system properly.

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Several ministries have mandates affecting energy policy issues and the use of energy. These are the Ministry of Energy (MoE), the Ministry of Environment, Science & Technology (MoEST) and the Ministry of Industry. The Ministry of Forest and Soil Conservation (MoFSC) plays a role in the biomass sector and the Ministry of Housing (MoH) in the building sector. The Ministry of Commerce and Supplies is responsible for questions regarding the use of fossil fuels.

The Nepal Electricity Authority (NEA), the state-owned utility, dominates the electricity sector and is responsible for all planning, construction, and operation of electricity supply. The NEA also acts as the sole buyer of electricity from all IPPs, and it acts as the agent for all power purchase agreements for energy exchanges with India. The Ministry of Water Resources has the responsibility for all public and private activities related to hydroelectricity supply. The Nepal Oil Corporation has a monopoly to sell and distribute all petroleum products throughout the country. Apart from these three main actors, the Ministry of Energy was recently created in 2009 to “manage Nepal’s energy sector” and “develop energy resources to accelerate development,” including activities such as policy design, planning, regulation, and research. It has within it a Department of Energy Development which is supposed to ensure transparent energy regulations and facilitate private sector involvement. The Ministry of Environment enforces all environmental impact assessments, and coordinates climate change adaptation and mitigation programs. The National Development Council issues macroeconomic policy directives to the National Planning Commission for the development of annual and five-year plans. A Water and Energy Commission, Water Resources Development Council, and Environmental Protection Council all enforce regulations relating to either water resources and permitting or environmental permitting. The Department of Industry, lastly, plays a minor role and has been tasked with overseeing energy efficiency audits and efforts in the industrial sector. Though not an independent, high-level ministry, the Alternative Energy Promotion Center (AEPC), established under the Ministry of Environment, Science, and Technology, gets special mention as it is the “nodal” agency for the promotion and dissemination of all renewable energy in the country, as well as all major off-grid electrification programs.^[1]

Civil unrest lasted 11 years and stopped with the formal end of the monarchy in Nepal and the establishment of the “People’s Republic of Nepal” in 2006. as of November 2011, the government was still in “crisis” without an elected Prime Minister. As a result, experts have noted that “for the past three months, the economy has come to a grinding halt, nothing is happening, no funds have been allocated to Nepal Electricity Authority or to energy.” Although the new budget published in November 2010 allocated 16.69 billion Nepalese Rupees to power generation and transmission systems, the Independent Power Producers of Nepal already stated that it is insufficient to bring any projects online.^[3]

UNDP has noted that “no single institution” could “provide the horizontal alignment and necessary focus on linkages between energy poverty” and give “overall direction to a collective pro-poor energy strategy”. UNDP also documented a lack of
centralized energy planning, duplication of efforts resulting from lack of coordination, and disputes between local and national institutions over energy planning.^[3]

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Nepal Electricity Authority (NEA)

The state-owned utility NEA was founded in 1985. Its task is the generation, transmission and distribution of electricity and the development and operation of the electricity grid. Furthermore, the NEA is co-responsible in the preparation of energy planning and in education and training of professionals in the field of power generation, transmission and distribution.

The NEA cannot decide on electricity tariffs, but depends on the decisions of the “Electricity Tariff Fixation Commission” (EFTC). The revenues from electricity tariffs are not cost covering. The last tariff adjustment was approved in 2001. According to its own data, the total indebtedness of the NEA amounted to 7.1 billion NRs (about 700 million EUR) at the end of the financial year 2007/2008.

The NEA is affiliated with the MoE. It is headed by a Board of Directors, whose Chairman is the Minister of Energy. Further members include the Secretary of Finance, the Managing Director of the NEA, two representatives from the industrial / banking / trade and consumer protection sector as well as two energy experts.

Due to the daily power cuts, the NEA is publically criticized. It tries to bridge the gap between electricity demand and supply by importing electricity from India. Therefore, a contract for the provision of 150 MW was stipulated. However, due to technical problems during transmission this capacity currently cannot be retrieved.

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Alternative Energy Promotion Center (AEPC)

The Alternative Energy Promotion Center (AEPC) was founded in 1996 to promote the development and deployment of renewable energies and alternative energy technologies in Nepal. It is a semi-autonomous institution formally attached to the Ministry of Environment. AEPC acts as an intermediary institution between the operational level NGOs / private promoters of renewable energy and the policy decision levels in relevant ministries. It`s activities include renewable energy policy formulation, planning and facilitating the implementation of the policies/plans. It also responsible for the delivery of subsidies and financial assistance for off-grid Rural Electrification and also monitoring, evaluation and quality control during the process of electrification projects. Beyond that, AEPC is responsible for the standardization, quality assurance and monitoring of RE programs

The highest body is a board with representatives from government sector, industry sector and non-governmental organizations. . An executive director leads the operational business. AEPC mainly focuses its activities on rural areas. For that purpose it operates so-called “District Energy and Environment Units” in currently 32 districts of Nepal.

AEPC receives basic funding from the Nepalese government. Moreover, it is financed to a large extend by international cooperation projects. Perhaps the most important project is the implementation of the Energy Sector Assistance Program (ESAP), mainly financed by DANIDA and NORAD. This program aims at improving the rural energy supply (solar home systems, small hydro power plants, biogas plants, efficient stoves). ESAP manages the Rural Energy Fund, which makes the partial financing of investments in rural electrification measures possible. The German KfW is participates in the promotion of SHS with a financial contribution to ESAP. Another important program is the Rural Electrification Development Programme (REDP) by UNDP and World Bank which is supporting the government in implementing the Rural Energy Policy in all districts. The Renewable Energy Project (REP), a joint effort by the European Union and the government of Nepal focuses on the provision of solar energy systems in rural areas. Furthermore, there are additional smaller projects focusing on improved watermills, biogas and climate change adaption strategies.

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Water and Energy Commission Secretariat (WECS)

The Water and Energy Commission (WEC) was founded in 1975 with the aim of advancing the development of energy and water resources in Nepal in an integral way. Six years later, a permanent secretariat (WECS) was established, which is responsible for the formulation of the water and energy strategy and policy of the country as well as for the implementation of planning processes in the water and energy sectors. Originally, WECS was organizationally affiliated with the Ministry of Water Resources (MoWR), which is by now merged into the new established Ministry of Energy (MoE). The Commission consists of state secretaries of almost all ministries and representatives of the Planning Commission, the Federation of Nepalese Chamber of Commerce (FNCCI), the Nepal Engineering Association, a technical university and two experts from NGOs. Chairman is the Minister of the MoE.

The WECS has the following mandates:

• Formulation of policies and strategies in the sectors of water and energy
• Preparation of legislative proposals in these sectors
• Coordination of policy dialogue in these sectors
• Identification of energy projects
• Analysis of the portfolio of bilateral and multilateral development projects in the sectors of energy and water
• Energy planning and preparation of energy demand studies

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Energising Development (EnDev)

Please see the regularly updated web activities of EnDev in Nepal.

Micro Hydropower Debt Fund Component - EnDev Nepal

German Government

Advisory towards energy efficiency, 2009 - 2014 (implemented by GIZ)

Global Sustainable Electricity Partnership (GSEP) ^[19]

Energy for Education Project ^[20]

Project activities:

• Installation of two PV systems and construction of a computer room (including computer) at the local schools in the Matela VDC of Surkhet District in western Nepal and in addition distribution of small solar home systems (clean portable lamps) to students and residents of Matela displace the use of kerosene lamps. Fees for the use of these lanterns and the computers, according to the beneficiary aibility to pay, contribute to the financing of the project.
• Beautiful Nepal Association (BNA), a local NGO, and the Malika U Ma Vi School’s Management Committee are responsible to ensure maintenance and provide supervision to quality and sustainability.

Timeline:

• 10-14th December, 2012, 29 technical training workshop on stand-alone photovoltaic (PV) systems, participants from all over Nepal
• 16 December 2012, groundbreaking ceremony
• 16 April 2013, inauguration ceremony, project completed.

Key objectives:

• To demonstrate the potential of solar energy as a viable power source for improving education in the region.
• To use the energy from photovoltaic system for lighting and to launch a computer program in two rural schools.
• To provide clean portable small solar home systems for students and residents of rural Matela, significantly reducing the emission of toxic gases from the current use of kerosene lamps.

Distribution of Solar Home Systems within SE4ALL initiative^[21]

GSEP, in partnership with the Global BrightLight Foundation (GBLF), distributes already (status 03 February 2014) 5000 solar home systems across Nepal within the SE4ALL initiative.

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Policy Framework, Laws and Regulations

Poverty Reduction Strategy

Up to now the development policy of the Nepalese government has been codified in five-year plans. The last plan 2002/03 - 2006/07, which was also a Poverty Reduction Strategy Paper (PRSP), mentioned the following main objectives:

• poverty alleviation as the overarching goal
• economic growth
• improvement of social indicators
• market-based regulatory policy and
• good governance as a basic orientation.

The realization of those development plans suffered from implementation weaknesses, financial constraints and too ambitious goals in detail.

A major constraint for the implementation of the development strategy is still the fragile political and security situation.

-> Click on the link to download the PRSP

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To date, there is no “National Energy Strategy” for Nepal. A draft forwarded to the parliament is not approved, yet. Up to now, the energy policy objectives are set up as a part of the general 5-Year Plans by the National Planning Commission. The energy policy of the current 3-Year Interim Plan (2007/08 – 2009/10) deals exclusively with electricity, and therefore development budgets are allocated exclusively to the development of the electricity sector. Targets for the sustainable use of energy from biomass (as the most important primary energy source) or the efficient use of commercial energy sources are not discussed. Likewise, no opportunities to understand the consumer side as the addressee of an energy policy are considered.

The objectives regarding electricity and energy in the Interim Plan are:

• creation of an environment conductive to investment in the development of hydropower
• ensure reliable and easily accessible electricity services for the majority of the people in rural areas
• completion of ongoing hydropower projects adding 105 MW generation capacity (85 MW by public sector, 20 MW by private sector)
• initiation of construction of new hydropower projects with an additional capacity of 2,115 MW with the objective to abandon the practice of load-shedding in 2013/14
• provision of electricity to additional 10 % of the population (in total, 58.5 %) in 500 additional VDCs through extension of the national grid
• expansion of per captia consumption to 100 KWh

The realization of these objectives is delayed.

The tariffs and prices for electricity and petroleum products are politically determined. They are geared to the lower limit of acquisition costs or not cost covering at all. Tariff increase has been denied to the Nepal Electricity Authority (NEA) since 2001. Therefore, the electricity sale is in deficit and has to be balanced by the state budget. In December 2011 the Nepalese Government finally decided to hike electricity prices and from 15th of January 2012 a 20% increase in power tariffs will be in effect. However, the minimum tariff of 80 NPR per 20 kWh per month will be left unchanged.

From 2008 to 2010, the “Water and Energy Commission Secretariat” (WECS) worked on a “National Energy Strategy”, in whose regard a broad consultation process was undergoing. The budget provided for this by the government was approximately 150,000 EUR. Furthermore, according to statements by the WECS, the formulation of a “National Energy Policy” shall follow after the adoption of the “National Energy Strategy”.

The 10th five-year plan (2002/03 - 2006/07) aimed strongly towards poverty reduction. The objectives derived for the energy sector development were limited to the electricity sector as well. They provided for the grid extension to rural areas and for the expansion of hydro power capacity. A confrontation of quantitative key targets with the realized outcome is disillusioning.

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References