Electricity sector in Honduras

Last updated
Electricity sector of Honduras
Data
Electricity coverage (2006)69% (total), 94% (urban), 45% (rural); (LAC total average in 2005: 92%)
Installed capacity (2006)1.54 GW
Share of fossil energy 62%
Share of renewable energy 38% (including hydro)
GHG emissions from electricity generation (2003)1.51 MtCO2
Average electricity use (2005)4376 kWh per connection
Distribution losses (2006)21%; (LAC average in 2005: 13.6%)
Consumption by sector
(% of total)
Residential42.5%
Industrial53.3% (inc. commercial)
Tariffs and financing
Average residential tariff
(US$/kW·h, 2006)
00.058; (LAC average in 2005: 0.115)
Average industrial tariff
(US$/kW·h, 2006)
0.1053(medium voltage), 0.0934 (high voltage); (LAC average in 2005: 0.107)
Average commercial tariff
(US$/kW·h, 2006)
0.133
Annual investment in electricity4.01 US$ per capita
Services
Sector unbundlingPartial
Share of private sector in generation62%
Share of private sector in distribution0%
Competitive supply to large usersNo
Competitive supply to residential usersNo
Institutions
No. of service providersOne (ENEE)
Responsibility for transmissionIntegrated utility (Empresa Nacional de Energía Eléctrica)
Responsibility for regulationNational, single-sector regulator
Responsibility for policy-settingEnergy Cabinet
Responsibility for the environmentMinistry of Environment (SERNA)
Electricity sector lawYes (1994)
Renewable energy lawYes (2007)
CDM transactions related to the electricity sector19 registered CDM projects; 221,730 t CO2e annual emissions reductions

The electricity sector in Honduras has been shaped by the dominance of a vertically integrated utility; an incomplete attempt in the early 1990s to reform the sector; the increasing share of thermal generation over the past two decades; the poor financial health of the state utility Empresa Nacional de Energía Eléctrica (ENEE); the high technical and commercial losses in transmission and distribution; and the low electric coverage in rural areas

Contents

The key challenges in the sector include financing investments in generation and transmission in the absence of either a financially healthy utility or of concessionary funds by external donors. Tariffs need to be re-balanced, arrears need to be cut and commercial losses, including electricity theft, need to be reduced without fostering social unrest. In addition, the government must reconcile environmental concerns with its objective to build two new large dams and associated hydroelectric plants. Access to electricity in rural areas needs to be improved.

In June 2007, the president of Honduras, Manuel Zelaya, declared an "energia emergencia". An Intervention Board (Junta Interventoria), headed by the Minister of Defence and the Minister of Finance, was temporarily put in charge of ENEE to address the crisis. The mandate of this board has recently been extended until October 2022

Electricity supply and demand

Honduras electricity production by source Honduras electricity production.svg
Honduras electricity production by source

Installed capacity and expansion plans

With an installed generation capacity of 1,568 MW (2007), [1] Honduras relies on a thermal-based power system (accounting for nearly two-thirds of its total installed capacity), which is very vulnerable to high and volatile international oil prices. [2] [ full citation needed ] The generation mix is as follows: [1]

SourceInstalled capacity(MW)Installed capacity(%)
State owned58938
Hydroelectric46430
Thermal1258
Diesel motors926
Gas turbines332
Privately owned97962
Hydroelectric553
Thermal92459
Diesel motors81652
Gas turbines403
Biomass684
TOTAL1,568100

Firm electricity generation capacity is substantially lower than installed capacity due to seasonality (i.e. the natural uncertainty affecting hydroelectric generation), the old age of some of the plants, and mothballing of thermal capacity.

Demand

Total electricity sold in 2007 was 4,932 GWh. [1] In 2005, electricity sold by connection was 4,376 kWh, [3] which was much higher than in the neighboring countries of Guatemala (2,337 kWh per connection), Nicaragua (2,931 kWh per connection) and El Salvador (3,109 kWh per connection). It is, however, much lower than in the more developed Central American countries, such as Costa Rica (7,969 kWh) and Panama (7,574 kWh).

In 2007, the percentages of electricity sold by consumer type were: [1]

Demand projections

Peak demand has grown over seven percent annually in recent years, reaching 1,088 MW in 2006. [2] [ full citation needed ] For the period 2006–2010, the expected annual growth rate of energy demand is expected to be around six percent, while peak demand could increase at around seven percent. [2] [ full citation needed ] The actual growth rate will depend on whether electricity tariffs are increased, the success of a current program to decrease electricity theft and whether technical distribution losses can be reduced.

While peak demand in 2006 was below total installed capacity, it lay slightly above firm capacity. According to supply and demand projections by the World Bank, new generation capacity to be commissioned in the period between 2007–2010 will not be enough to meet demand growth, which means that an energy shortfall is likely to happen in the near future. [2] [ full citation needed ]

Interconnection with neighboring countries

The Honduran electricity grid is interconnected with the grids of its neighbors Nicaragua, El Salvador and Guatemala. However, the capacity of the interconnections is limited. It is expected to be expanded as part of the Central American Electric Interconnection System (SIEPAC) through a 230 kV transmission line with a capacity of 300 MW. (See Regional integration, the SIEPAC project below)

In 2002, Honduras imported about 420 GW·h of electricity (more than 10% of its consumption) without any exports, thus making it a net importer of electricity. [4]

Access to electricity

The overall electricity coverage is 69%. In rural areas it reaches only 45%, which contrast with the 94% coverage in urban areas (2006). [2] [ full citation needed ] The table below presents the access data per number of households and consumers.

Population %No. of Households %No. of Customers %Access Rate (%)
Urban3,350,08145.5%700,50749.0%661,58266.9%94.4%
Rural4,016,94054.5%729,61151.0%327,11433.1%44.8%
TOTAL7,367,021100%1,430,118100%988,696100%69.1%

Source: World Bank, 2007

The Electricity Coverage Index by department shows great disparities. Cortes and Islas de Bahia enjoy almost a 100% household coverage, while Lempira and Intibuca only have 24.6% and 36.2% coverage respectively. [2] [ full citation needed ]

Electrification was programmed under the 1994 Electricity Law for the Electricity Sector through the creation of the Social Fund for Electricity Development (FOSODE). The Government has set a target to increase national electricity coverage to 80% by 2015, giving equal priority to urban and rural. So far, the outcome has been positive, with an increase in national coverage from 43% in 1994 to 69% in 2006. [2] [ full citation needed ]

400,000 new connections are expected to be made by 2015. However, lack of financing has slowed grid development, causing it to lag behind demand. [2] [ full citation needed ]

Service quality

Interruption frequency and duration

Power outage duration is a measure of the reliability of supply to the distribution networks. This measure decreased for most regions in Honduras from 2001. However, in 2005, a general increase in the interruption duration occurred. The total duration of interruptions per connection (36 hours per year in 2005, compared to 24 hours in 2004, but 135 hours in 1999 in the aftermath of Hurricane Mitch) is about twice as high as the average for Latin America and the Caribbean (14 hours per connection in 2005). However, the frequency of such interruptions has been higher in other countries, meaning that Honduras has a few long outages, while other countries have more frequent shorter ones. [2] [ full citation needed ]

Distribution and transmission losses

In the period 2001-2006, electricity losses increased from about 20% to 25%, compared to 8% in Chile and almost 30% in Nicaragua. This relatively high level of losses is due mostly to theft, fraud, and illegal connections. A recent study estimated that technical losses are about 10%, which implies that current commercial losses are about 15%, 30% of which correspond to fraud, 29% to illegal settlements and 29% to billing errors. [2] [ full citation needed ]

Transmission and sub-transmission investments keep being delayed due to financial constraints. This situation, if further sustained, would increase the frequency of blackouts and would make it hard to reduce operating costs and technical losses. [2] [ full citation needed ]

Loss-reduction programs implemented during 2007 brought total losses down to 21.2%, 3.5% in transmission and 17.7% in distribution. [1]

(See Distributional losses for comparison with the rest of LAC).

Responsibilities in the electricity sector

Policy and regulation

De jure situation

The Electricity Law of 1994 assigns the policymaking function to an Energy Cabinet chaired by the President of the Republic with the Ministry of Natural Resources and Environment (Secretaria de Recursos Naturales y Ambiente, SERNA) as its secretary and coordinator. A regulatory agency, the Comisión Nacional de Energía (CNE), was created to take charge of, among other functions:

  • Supervise power sales agreements to be signed by distribution companies;
  • Approve standards related to service quality, reliability and safety;
  • Monitor and enforce laws and standards;
  • Approve tariffs and propose Average Short-Term Marginal costs;
  • Approve system expansion programs;
  • Submit for approval to the Ministry of Environment power purchase and sales agreements that ENEE intends to sign. [5]

De facto situation

The Energy Cabinet has met less than once a year since its creation. Also, SERNA has not been proactive in its role as the Cabinet’s secretary and coordinator to set the agenda and to supply the technical groundwork for decisions. CNE has had a marginal role due to a lack of political support and resources. As a result of this void at the cabinet level, the national utility Empresa Nacional de Energía Eléctrica (ENEE) has become the default point for energy expertise, sought by the government even in matters of policymaking and regulation, which contributes to a weak separation of roles among utility, regulatory agency and the ministry. [2] [ full citation needed ]

ENEE is governed by a board of directors, which is formed by: the Minister of Natural Resources and the Environment (SERNA), who chairs the board, the Minister of Public Works, Transportation and Housing, the Minister of Finance, the Minister of Industry and Commerce, the Minister of Foreign Cooperation, and a representative of the Honduran Council of Private Enterprise (COHEP). The board appoints a general manager, who acts as its secretary but has no vote. [2] [ full citation needed ]

Generation

Under the 1994 Electricity Law, generation may be undertaken by state, mixed ownership, or private entities. These entities are entitled to sell power to large consumers or to ENEE. As a result, private investors will mainly embark on new generation projects, including hydropower and alternative energy. [2] [ full citation needed ]

Every two years, ENEE must submit to the Regulator system expansion plans (i.e. procurement of new generation capacity and transmission expansion), which are to be approved by the Energy Cabinet. [2] [ full citation needed ]

By law, ENEE has a mandate to prioritize renewable-based generation when determining the optimal expansion plan. The condition is that the net present value of sequence including renewable-based generation must not exceed by more than 10% that of the least-cost expansion plan. [2] [ full citation needed ]

Private electricity generators using renewable energy have formed a National Association—Associación de Productores de Energía Renovable de Honduras (APERH)—to promote the use of renewable energy.

Transmission

By law, transmission networks are subject to an "open access" rule. They can be built and owned by public, private, or mixed ownership operating enterprises. However, in practice Empresa Nacional de Energía Eléctrica (ENEE) is responsible for transmission and system operations through its dispatch center, which determines the system’s hourly marginal cost of generation.

In the case of isolated systems, the main generator is responsible for operating the transmission system and handling dispatch.

Distribution

De jure situation

The 1994 Law mandated ENEE to divide its distribution network by regions. The partition, which was to be approved by ENEE, would be followed by the sale of those networks to cooperatives, municipalities, workers' associations, other similar types of groups, or to private companies, always subject to approval by the National Congress. The Law established that electricity distribution was to be carried out "in priority" by private companies under a concession regime. Distributors need to have a valid supply contract with generators for at least five years duration (however, the law does not mandate a minimum quantity). [2] [ full citation needed ]

EEH private distribution entity

The 18th of February EEH, an international consortium, signed a contract assuming responsibility for the operation and maintenance of the electrical distribution network, the commercial operation and its optimization, reduction and control of technical and non-technical losses, and for the collection of payments with the users.

Power frequency and voltage

In Honduras the residential power plugs and sockets are of type A and B. The standard voltage is 120 V and the standard frequency is 60 Hz.

Renewable energy

Honduras renewable electricity production.svg

In Honduras, there is great potential in untapped indigenous renewable energy resources. Due to the likely long-term trend of high oil prices, such resources could be developed at competitive prices. However, except for the large hydro projects, the potential for the development of renewable energy has yet to be explored. [2] [ full citation needed ]

Energy efficiency

Honduras has a very large potential to develop energy efficiency programs. Large improvements could be made in the areas of air conditioning for both the residential and commercial sectors, where the implementation of measures in the area of demand management and the rational use of energy could prevent unplanned blackouts. [2] [ full citation needed ]

Some progress has been made recently under the Generación Autónoma y Uso Racional de Energía Eléctrica (GAUREE) project, financed by the European Union between 2000 and 2007. The GAUREE 2 project aims at increasing the use of energy-efficient Compact fluorescent lamps (CFLs), lowering the consumption of energy by 50 million kW·h per year. The plan of action includes giving away, in a three-phased operation, a free 20 W CFL bulb to 800,000 households (the majority of Honduran households still use inefficient 60 W, 75 W, and 100 W bulbs). [2] [ full citation needed ]

The Inter-Institutional Group for the Efficient Use of Energy (GIURE) has set out a plan with the objective of reducing national electricity demand by 100 MW in 2008. This would entail an 8% reduction of the maximum demand forecast by ENEE. Some of the main activities included in GIURE's program are: promotion of gas stove use, use of clean development mechanisms (CDM), educational campaigns, efficiency in the industrial and commercial sectors, etc. [2] [ full citation needed ]

History

Early monopoly and hydro-based expansion

ENEE was created in 1957 by Decree 48, the Ley Constitutiva de la Empresa Nacional de Energía Eléctrica—the Constitutive Law. Its mandate was to promote the country’s electrification through the study, construction and operation of electrification works, government representation in any company in which the government was a shareholder, and to provide assistance to any private generator or distributor that required it. [2] [ full citation needed ]

In its initial two and a half decades, the expansion of ENEE was boosted by the technical and financial support of international financial organizations. Hydroelectric projects abounded and the transmission network expanded to incorporate all economically active areas of the country into the national grid, which was interconnected with Nicaragua (1976), Costa Rica (1982) and Panama (1986). The largest project, the hydroelectric plant of El Cajón (300 MW) on the Rio Comayagua in Central Honduras was commissioned in 1985. At that time Honduras had an installed capacity of 560 MW and a peak demand of only 220 MW. [6]

The demand growth projections did not materialize, which left the country with a large excess capacity and ENEE with a heavy debt burden. As a result, the existing thermal power plants were not well maintained. When demand eventually caught up and a severe drought occurred, many of the thermal plants were inoperative, leading to a severe energy crisis in 1993. [2] [ full citation needed ]

1994 Electricity Law and the resurgence of fossil fuels

The 1994 new Electricity Law, passed under the administration of President Carlos Roberto Reina, was born as a response to the crisis. It contained provisions for the establishment of a competitive power market (vertical unbundling, freedom of entry to all sector activities, open access to transmission and distribution networks, and freedom of choice for large users); the separation of the roles of policy making, regulation, and provision of electricity services; application of cost-recovery tariffs and targeted subsidies; and private provision of electricity services. [2] [ full citation needed ]

The establishment of the new competitive market failed: the distribution networks were not un-bundled and privatized, and ENEE continued operating as a vertically integrated state-owned enterprise that maintained its central role in energy planning and policy making. In addition, the principles of cost covering tariffs and targeted subsidies were not properly implemented due both to inadequate political commitment and to an important dependency on imported oil for power generation. This led to high and volatile generation prices that were not passed on to retail tariffs. [2] [ full citation needed ]

In the 1990s, thermoelectric generation has come to lead a system that was dominated by hydropower: Hydropower plant capacity has gone from 90% to only 30%. The reasons for this shift are twofold. First, hydroelectric development became more expensive when funding through interest-free loans for its development from International financial institutions was cut. Second, the lower risks and shorter maturity of thermal generation projects, as perceived by private investors, directed generation expansion towards the use of heavy fuel oil and medium speed diesels.

In addition, it is worth mentioning the close relationships between oil importers, power generating companies and certain government officers, which through the last decade have been accused by the Honduran media of artificially containing the investment in renewable energy sources, favoring oil imports and the extension of very expensive and less than transparent electricity generation contracts.

The emergence of Independent Power Producers

Power Purchase Agreements (PPAs) that ENEE has signed with independent power producers (IPP) running fossil fuel power plants now account for the majority of energy generation in Honduras. According to the Interamerican Development Bank, these PPAs were "expensive and with clauses that made them very inflexible". [7]

As early as in 1993, during the government of Rafael Leonardo Callejas (1990–1994), ENEE signed its first PPA with an IPP for the provision of thermal energy. The contract was signed with Electricidad de Cortés (Elcosa) for a period of 17 years. One year later, Carlos Roberto Reina (1994–1998) approved two giant 10-year contracts for Empresa de Mantenimiento, Construcción y Electricidad (EMCE), which itself belongs to the Honduran Terra group, and the Honduran energy company Luz y Fuerza de San Lorenzo (Lufussa). EMCE and Lufussa managed to sign new contracts with the government of Carlos Flores (1998–2002), which included tax exemptions for up to five years and the payment of fixed and variable charges, the former independently of whether energy was actually being produced, as it is typically the case in PPAs.

The government of Ricardo Maduro (2002–2006) signed two more 12-year contracts with Enersa - partners of EMCE - and Lufussa. [8] However, in November 2002, it quickly signed another 12-year contract for US$477 million with the Honduran subsidiary of AES Corporation, under which AES Honduras was to supply some 200 megawatts of power. In September 2003 ENEE canceled that contract as well, because the provider allegedly failed to fulfill certain clauses and was behind schedule. [9]

Renewable energy promotion and a comeback of hydropower

Under the Presidency of Carlos Flores, decrees No. 85-98 and 267-98 were approved in 1998 by the Honduras Congress with the aim of promoting the development of renewable energy-generating plants. The new legislation included tax breaks to developers and a secure buyer arrangement for energy at prices equivalent to the system’s short-term marginal cost. ENEE, which is the default buyer, must pay a premium (10% of the same short-run marginal cost) for the electricity generated when the installed capacity is below 50 MW. This framework has facilitated the negotiation of about 30 public-private partnerships with ENEE for small renewable energy plants. In addition, Decree No. 85-98 also established tax exemptions in favor of developers: import and sales taxes on equipment, and a five-year income tax holiday. [2] [ full citation needed ]

The government considers renewable resources a vital element of its strategy to diversify energy supply, reduce vulnerability to external shocks, and mitigate the environmental impacts of energy production. [2] [ full citation needed ] The development of large hydropower projects and the provision of further incentives for grid-connected renewable projects are the present priorities of the government in the renewable energy sector. The penetration of renewable energy technologies into rural electrification programs is still limited and most rural electrification activities are grid extensions. [2] [ full citation needed ]

According to the World Bank, the potential for the development of off-grid and small renewable sources is largely unexploited due to a lack of incentives and a clear and consistent policy framework. [2] [ full citation needed ]

Regional integration, the SIEPAC project

In 1995, after almost a decade of preliminary studies, the Central American governments, the government of Spain and the Inter-American Development Bank agreed to the execution of the SIEPAC project. This project aims at the electric integration of the region. Feasibility studies showed that the creation of a regional transmission system would be very positive for the region and lead to a reduction in electricity costs and to improvements in the continuity and reliability of supply. In 1996, the six countries—Panama, Honduras, Guatemala, Costa Rica, Nicaragua and El Salvador—signed the Framework Treaty for the Electricity Market in Central America. [10]

The design of the Regional Electricity Market (MER) was done in 1997 and approved in 2000. MER is an additional market superimposed on the existing six national markets, with a regional regulation, in which the agents authorized by the Regional Operational Body (EOR) carry out international electricity transactions in the region. As for the infrastructure, EPR (Empresa Propietaria de la Red S.A.) is in charge of the design, engineering, and construction of about 1,800 km (1,100 mi) of 230kV transmission lines. [10] The project is expected to be operational by the end of 2008. [11]

Operation scissor, declaration of emergency, and tariff increase

In February 2007, ENEE initiated a program to reduce arrears and commercial losses under the heading Operación Tijera (Operation Scissor). It entails coordinated action from all ministries and government agencies aiming to cut service (a) to delinquent clients, and (b) to any users detected during the operation with irregular service connections or with meters that have been tampered with. According to press reports, the operation has led to an instantaneous increase in collections. [12]

In June 2007, President Manuel Zelaya declared an "energy emergency" in order to buy additional electricity and to overcome the country's energy crisis. The Minister of Defense is charged with resolving the crisis, and together with the Minister of Finance, was put at the head of an Intervention Board of ENEE. The mandate of the Intervention Board has been extended until October 2008.

In an attempt to address ENEE's delicate financial situation, the government intends to raise tariffs for certain consumers, those whose bills are the highest. This increase, which will bring tariffs closer to costs, would not affect residential users whose consumption is below 100 kWh. [13] A 16% tariff increase for fuel adjustment was already applied in January 2008. According to the new manager of ENEE, an additional 11% adjustment will be applied in May. The overall target, established in the "Financial Plan for the Strengthening of ENEE" is for tariffs to have increased by 27% at the end of 2008. [14]

Tariffs, cost recovery and subsidies

According to the law, a tariff reflecting generation and transmission costs would be the regulated power price for distributors. The tariff, to be published in the official Gazette in order to become effective, had to be calculated yearly by the generators and approved by the regulator, who would also decide on any subsequent adjustments to it. However, ENEE has failed to apply this 1994 Law’s provision for the calculation and implementation of cost-covering tariffs and of localized subsidies. [2] [ full citation needed ]

Residential, commercial and industrial tariffs

Average tariffs for industrial and commercial consumers already cover economic costs and are some of the highest in the region. However, the average tariff for the residential category is 60% of the economic cost of supply, and only 54% after deducting the Government's direct subsidy. [2] [ full citation needed ]

Households consuming less than 100 kW·h per month pay a tariff which only covers 22% of the cost, while those consuming between 0 and 300 kW·h—84% of all residential clients—only pay 395 percent of the cost. Even clients consuming more than 500 kW·h per month pay only 82% of the cost of supply. Tariffs for municipalities are equivalent to about 77% of the cost. The table below shows the average cost of supply and the current final price (after direct subsidy) for the different users: [2] [ full citation needed ]

Average Cost of Supply (kW·h)Current final price (after direct subsidy) ($/kW·h)No. of Users
Residential Block (kW·h/month)
0-500.2240.039174,338
51-1000.1580.04132,804
101-1500.1470.047128,361
151-3000.1410.066242,723
301-5000.1370.08983,368
501-0.1340.10943,747
Industrial medium voltage0.1070.105134
Commercial0.130.13359,700

Source: World Bank, 2007

By way of comparison, the weighted average residential tariff in Latin America and the Caribbean at the end of 2005 was US$0.115 per kW·h, while the industrial weighted average was US$0.107 per kW·h. Clearly, residential tariffs in Honduras are below the regional average. [3]

Cost recovery

The overall result of the distortions in the tariff structure is that just 81% of economic costs of supply are covered, leading to a financial situation that is unsustainable in the short term and could lead the country to face a severe energy crisis by 2010. [2] [ full citation needed ]

Direct subsidies and cross subsidies

A direct subsidy was established in 1994 to compensate for any tariff increase to eligible residential users (those that consume less than 300 kW·h per month). In the period (2001–2005), the Government paid about US$75.6 million in direct tariff subsidies to residential consumers. [2] [ full citation needed ]

The explicit cross-subsidy incorporated in the current tariff does not respect the caps set by the 1994 Electricity Law as it has benefited most residential consumers, making the compensatory surcharges to other consumer categories (i.e. commercial and industrial) also exceed the mandated limits. Also, the generalized subsidy and the direct subsidy paid by the Government are poorly targeted and regressive. Non-poor consumers (i.e. those consuming above 150 kW·h/month), have been benefited most by the cross-subsidy as they currently pay between 50% and 80% of economic costs. This has resulted in one of the lowest residential tariffs in the region and also in high consumption—about 200 kW·h per month in residential use. This figure doubles the average residential use in El Salvador and Guatemala, whose per capita income is more than double that of Honduras. Inefficient interfuel substitution is another result of low electricity prices, particularly for cooking and water heating, since electricity, although a more inefficient and economically expensive option, is cheaper for the consumer than, for instance, liquefied petroleum gas (LPG). [2] [ full citation needed ]

Investment and financing

Investments in the sector are carried out by ENEE, the Social Electrification Fund FOSODE and the private sector. ENEE has no self-financing capacity and virtually no capacity to take on new debt or other financial obligations such as those arising from PPAs. ENEE's poor financial health casts doubt on its ability to finance the planned major investments in new generation capacity.

Investment by sub-sector

In the period 1997-2006, ENEE has invested about US$189 million in its activities. The areas that have received the largest funding have been distribution and transmission. [15]

Financing

Private developers

Between 1994 and 2006, private developers have invested some US$600 million in about 800 MW of medium speed diesel and gas turbine capacity. Private investors have also invested about US$70 million in 110 MW of small hydro- and bagasse-fired capacity. Reliance on the private sector has become the norm for generation capacity expansion. [2] [ full citation needed ]

Short-term credit

Distribution and transmission investment by ENEE has been partially financed with expensive revolving loans from local banks and credits from thermal generators on the payment of energy purchases that amounted to US$124 million in 2003–05. Debt service coverage and contribution to investments have been negative during the past five years. [2] [ full citation needed ]

Concessionary funding

As explained in more detail in the section on external assistance further below, concessionary funding by international donors is currently directed only at rural electrification, new renewable energy technologies and energy efficiency.

The largest investments in rural electrification have been made by FOSODE, which has been successful in raising international aid funds (both concessionary loans and grants), which complement the budgetary resources that the Government provides every year as required by law. The Fund receives additional financing from fees that municipalities impose on electricity companies in their jurisdiction. Between 1995 and 2006, FOSODE invested US$91.4 million in rural electrification. [2] [ full citation needed ]

Tax exemptions

The electricity sector enjoys several tax exemptions: import tax exemptions for fuels used by ENEE and other power companies for electricity generation, import and sales taxes on equipment and materials for rural electrification projects, import taxes on equipment and materials for power plants using renewable energy sources, and sales tax on electricity sales. According to the World Bank, the total average annual tax exemptions are estimated at about US$108 million, mostly fuel taxes (US$64.8 million) and sales taxes on electricity consumption (US$37.8 million). [2] [ full citation needed ]

Summary of private participation in the electricity sector

Although the 1994 Electricity Law contained provisions for the establishment of a competitive power market—vertical unbundling, freedom of entry to all sector activities, open access to transmission and distribution networks, and freedom of choice for large users—ENEE has continued operating as a vertically integrated state-owned enterprise with total control over transmission and distribution.

As for generation, IPPs started to sign PPAs with ENEE as early as 1993. Today, IPPs account for over 60% of generation capacity, most of it thermal, in Honduras.

Electricity sector and the environment

Responsibility for the environment

SERNA, the Ministry of Natural Resources and Environment, holds the responsibility in environmental issues, including climate change. This government agency is in a weak position due, among other things, to limited budgets and to the weakness of the civil service system. Also, ministry staff faces a total turnover whenever a new government takes over (i.e. every four years), which slows down its operations. [2] [ full citation needed ]

Greenhouse gas emissions

OLADE (Organización Latinoamericana de Energía) estimates that CO2 emissions from electricity production in 2003 were 1.51 million tons of CO2, which represents 24% of total emissions from the energy sector [16]

Other data (2004) report emissions of 6.04 MtCO2 from consumption and flaring of fossil fuels, which corresponds to 0.86 tCO2 per capita (Central and South America average: 2.35 tons). [17] [ failed verification ]

Clean Development Mechanism projects in electricity

According to its promoter, Finnder, the small hydropower project Rio Blanco (50 MW) was the first small Clean Development Mechanism (CDM) registered in the World, with the first Certified Emission Reductions awarded in October 2005. [18] Currently, there are eleven CDM-registered projects related to electricity generation in Honduras. Nine of those projects are hydro plants, which represent 80% (177,636 tCO2e) of the total estimated annual emissions reductions. The two remaining projects are for cogeneration and biogas recovery and electricity generation. [19]

External assistance

Concessionary loans and grants from international financial institutions and bilateral donors in the Honduran energy sector are focused on rural electrification, energy efficiency and new renewable energy. This type of financing is limited. None of the current donor-funded projects supports large hydropower development, expansion of fossil energy generation or major investments in transmission, which are necessary to ensure that supply keeps up with demand and to maintain service quality.

World Bank

Currently,[ when? ] the World Bank is contributing funds and assistance through three projects related to the energy sector in Honduras:

Inter-American Development Bank

Currently, the Inter-American Development Bank is contributing funds and assistance to the following projects in the energy sector in Honduras:

The IDB has also financed an advanced pre-feasibility study for the Patuca 3 large hydroelectric project. [20]

European Union

Between 2000 and 2007, the European Union (EU) has financed the Generación Autónoma y Uso Racional de Energía Eléctrica (GAUREE) project, which aims at increasing the use of energy-efficient CFLs. The total cost of the project is Euro 6.68 million (US$9.06 million), with a total contribution from the EU of Euro 5 million (US$6.785 million) [21]

Others

Electrification projects have also been carried out with resources from the Central American Bank for Economic Integration (Banco Centroamericano de Integración Económica), and with cooperation from countries like Finland, Japan, Korea, and Norway. In addition, there is an agreement in place with the Fondo Cafetero Nacional (FCN) for the electrification of coffee-producing regions. [2] [ full citation needed ]

The president of the CBEI announced in July 2007 that the Bank would provide "strong" financing, consisting of a "first disbursement" of US$100 million. The funds would be invested in transmission lines which, according to the CBEI president, would generate sufficient cash flow to repay the loan. [22]

See also

Sources

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India is the third largest producer of electricity in the world. During the fiscal year (FY) 2022–23, the total electricity generation in the country was 1,844 TWh, of which 1,618 TWh was generated by utilities.

<span class="mw-page-title-main">Solar power in India</span>

India's solar power installed capacity was 72.31 GWAC as of 30 November 2023.

For solar power, South Asia has the ideal combination of both high solar insolation and a high density of potential customers.

Financial incentives for photovoltaics are incentives offered to electricity consumers to install and operate solar-electric generating systems, also known as photovoltaics (PV).

<span class="mw-page-title-main">Renewable energy in Honduras</span> Overview of the use of renewable energy in Honduras

In Honduras, there is an important potential of untapped indigenous renewable energy resources. Due to the variability of high oil prices and declining renewable infrastructure costs, such resources could be developed at competitive prices.

<span class="mw-page-title-main">Electricity sector in Colombia</span>

The electricity sector in Colombia is dominated by large hydropower generation (65%) and thermal generation (35%). Despite the country's large potential for new renewable energy technologies, this potential has been barely tapped. A 2001 law designed to promote alternative energies lacks certain key provisions to achieve this objective, such as feed-in tariffs, and has had little impact so far. Large hydropower and thermal plants dominate the current expansion plans. The construction of a transmission line with Panama, which will link Colombia with Central America, is underway.

<span class="mw-page-title-main">Electricity sector in Bolivia</span>

The electricity sector in Bolivia is dominated by the state-owned ENDE Corporation, although the private Bolivian Power Company is also a major producer of electricity. ENDE had been unbundled into generation, transmission and distribution and privatized in the 1990s, but most of the sector was re-nationalized in 2010 (generation) and 2012.

The electricity sector in Argentina constitutes the third largest power market in Latin America. It relies mostly on thermal generation and hydropower generation (36%). The prevailing natural gas-fired thermal generation is at risk due to the uncertainty about future gas supply.

As of August 2020 Chile had diverse sources of electric power: for the National Electric System, providing over 99% of the county's electric power, hydropower represented around 26.7% of its installed capacity, biomass 1.8%, wind power 8.8%, solar 12.1%, geothermal 0.2%, natural gas 18.9%, coal 20.3%, and petroleum-based capacity 11.3%. Prior to that time, faced with natural gas shortages, Chile began in 2007 to build its first liquefied natural gas terminal and re-gasification plant at Quintero near the capital city of Santiago to secure supply for its existing and upcoming gas-fired thermal plants. In addition, it had engaged in the construction of several new hydropower and coal-fired thermal plants. But by July 2020 91% of the new capacity under construction was of renewable power, 46.8% of the total solar and 25.6% wind, with most of the remainder hydro.

As required by the Constitution, the electricity sector is federally owned, with the Federal Electricity Commission essentially controlling the whole sector; private participation and foreign companies are allowed to operate in the country only through specific service contracts. Attempts to reform the sector have traditionally faced strong political and social resistance in Mexico, where subsidies for residential consumers absorb substantial fiscal resources.

The electricity sector in Peru has experienced large improvements in the past 15 years. Access to electricity has increased from 45% in 1990 to 96.4% in 2018, while service quality and efficiency of service provision improved. These improvements were made possible through privatizations following reforms initiated in 1992. At the same time, electricity tariffs have remained in line with the average for Latin America.

<span class="mw-page-title-main">Electricity sector in Nicaragua</span>

Nicaragua is the country in Central America with the lowest electricity generation, as well as the lowest percentage of population with access to electricity. The unbundling and privatization process of the 1990s did not achieve the expected objectives, resulting in very little generation capacity added to the system. This, together with its high dependence on oil for electricity generation, led to an energy crisis in 2006 from which the country has not fully recovered yet.

<span class="mw-page-title-main">Electricity sector in El Salvador</span>

El Salvador's energy sector is largerly focused on renewables. El Salvador is the largest producer of geothermal energy in Central America. Except for hydroelectric generation, which is almost totally owned and operated by the public company CEL, the rest of the generation capacity is in private hands. With demand expected to grow at a rate of 5% in the coming years, the Government's 2007 National Energy Strategy identified several hydroelectric and geothermal projects as the best option to meet demand in the future and to diversify the country's energy mix.

The largely government owned electricity sector in Haiti referred to as Électricité d'Haïti (ED'H for "Haiti Electric Utility", faced a deep crisis characterized by dramatic shortages and the lowest coverage of electricity in the Western Hemisphere in 2006. with only about 38.5% of the population having regular access to electricity. In addition, Haiti's large share of thermal generation makes the country especially vulnerable to rising and unstable oil prices.

<span class="mw-page-title-main">Electricity sector in the Dominican Republic</span>

The power sector in the Dominican Republic has traditionally been, and still is, a bottleneck to the country's economic growth. A prolonged electricity crisis and ineffective remedial measures have led to a vicious cycle of regular blackouts, high operating costs of the distribution companies, large losses including electricity theft through illegal connections, high retail tariffs to cover these inefficiencies, low bill collection rates, a significant fiscal burden for the government through direct and indirect subsidies, and very high costs for consumers as many of them have to rely on expensive alternative self-generated electricity. According to the World Bank, the revitalization of the Dominican economy depends greatly on a sound reform of the sector.

Brazil has the largest electricity sector in Latin America. Its capacity at the end of 2021 was 181,532 MW. The installed capacity grew from 11,000 MW in 1970 with an average yearly growth of 5.8% per year. Brazil has the largest capacity for water storage in the world, being dependent on hydroelectricity generation capacity, which meets over 60% of its electricity demand. The national grid runs at 60 Hz and is powered 83% from renewable sources. This dependence on hydropower makes Brazil vulnerable to power supply shortages in drought years, as was demonstrated by the 2001–2002 energy crisis.

Paraguay is one of the few countries in Latin America that has maintained an integrated public monopoly on electricity. Hydropower comprises nearly 100 percent of electricity in Paraguay; 90 percent of generated energy is exported, with neighboring Argentina and Brazil receiving the majority. Paraguay is one of the world's largest electricity net exporters.

The electricity sector in Guyana is dominated by Guyana Power and Light (GPL), the state-owned vertically integrated utility. Although the country has a large potential for hydroelectric and bagasse-fueled power generation, most of its 226 MW of installed capacity correspond to thermoelectric diesel-engine driven generators.

There is a large array of stakeholders that provide services through electricity generation, transmission, distribution and marketing for industrial, commercial, public and residential customers in the United States. It also includes many public institutions that regulate the sector. In 1996, there were 3,195 electric utilities in the United States, of which fewer than 1,000 were engaged in power generation. This leaves a large number of mostly smaller utilities engaged only in power distribution. There were also 65 power marketers. Of all utilities, 2,020 were publicly owned, 932 were rural electric cooperatives, and 243 were investor-owned utilities. The electricity transmission network is controlled by Independent System Operators or Regional Transmission Organizations, which are not-for-profit organizations that are obliged to provide indiscriminate access to various suppliers to promote competition.

<span class="mw-page-title-main">Electricity sector in Uruguay</span>

The electricity sector of Uruguay has traditionally been based on domestic hydropower along with thermal power plants, and reliant on imports from Argentina and Brazil at times of peak demand. Over the last 10 years, investments in renewable energy sources such as wind power and solar power allowed the country to cover in early 2016 94.5% of its electricity needs with renewable energy sources.

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