Difference between revisions of "North Macedonia Energy Situation"

From energypedia
***** (***** | *****)
m
Tag: 2017 source edit
***** (***** | *****)
Line 7: Line 7:
 
}}
 
}}
  
= Introduction =
+
== Introduction ==
 +
North Macedonia is a landlocked country in Southeast Europe. It is bordered by Greece to the south, Albania to the west, Bulgaria to the east, Kosovo to the northwest and Serbia to the north. Skopje, the capital and largest city, is home to a quarter of the country's population of 1.83 million.<ref>https://en.wikipedia.org/wiki/North_Macedonia</ref>
 +
 
 +
== Energy Situation ==
 +
In the year 2022, the primary source of energy in Kosovo, as reflected in the country's total energy supply, was oil, accounting for 45% of the total. This was followed by coal, which constituted 32% of the total energy supply. Coal accounted for 47% of electricity generation, followed by hydropower with 23% and natural gas (17%).<ref name=":0">[https://www.iea.org/countries/north-macedonia IEA country overview North-Macedonia], retrieved on 29 October 2024</ref>
 +
 
 +
In North Macedonia, the proportion of modern renewable energy sources in final energy consumption was close to 20% in 2021. In terms of electricity generation, 27% of the electricity is generated from renewables, predominantly from hydropower.<ref name=":0" />
 +
 
 
North Macedonia has shown an increasing interest in renewable energy sources to diversify its energy mix, reduce dependence on fossil fuels, and meet environmental targets. The government has implemented various policies and initiatives to promote the development of renewable energy projects.
 
North Macedonia has shown an increasing interest in renewable energy sources to diversify its energy mix, reduce dependence on fossil fuels, and meet environmental targets. The government has implemented various policies and initiatives to promote the development of renewable energy projects.
  
 
North Macedonia has historically relied on hydropower for a significant portion of its electricity generation. The country has utilized its rivers to develop hydropower plants. There have been also efforts to harness wind energy, and several wind projects have been proposed or are under development. Solar energy projects, particularly solar photovoltaic (PV) installations, have gained attention. The government has implemented programs to incentivize the adoption of solar technologies.Biomass and biogas have been explored as potential sources of renewable energy.  
 
North Macedonia has historically relied on hydropower for a significant portion of its electricity generation. The country has utilized its rivers to develop hydropower plants. There have been also efforts to harness wind energy, and several wind projects have been proposed or are under development. Solar energy projects, particularly solar photovoltaic (PV) installations, have gained attention. The government has implemented programs to incentivize the adoption of solar technologies.Biomass and biogas have been explored as potential sources of renewable energy.  
 
= Energy Situation =
 
  
 
=== Installed electricity capacity (MW) by Technology, Grid connection and Year ===
 
=== Installed electricity capacity (MW) by Technology, Grid connection and Year ===
Line 111: Line 116:
 
|}
 
|}
  
=== Energy Loses ===
+
=== Energy Losses ===
 
{| class="wikitable"
 
{| class="wikitable"
 
|+
 
|+
Line 127: Line 132:
 
|}
 
|}
  
=== Transmission network ===
+
=== Transmission Network ===
 
{| class="wikitable"
 
{| class="wikitable"
 
|+
 
|+
Line 143: Line 148:
 
|}
 
|}
  
=== No of consummers ===
+
=== No of Consumers ===
 
{| class="wikitable"
 
{| class="wikitable"
 
|+
 
|+
Line 179: Line 184:
 
|}
 
|}
  
= Renewable Energy Potential=
+
== Renewable Energy Potential==
 
{| class="wikitable"
 
{| class="wikitable"
 
|+
 
|+
Line 287: Line 292:
 
</div>
 
</div>
 
</div>
 
</div>
As we can see, if North Macedonia would use its entire technical potential,ti would increase the generating power by 321%, and would be more than autoefficent of the WB6.
+
As we can see, if North Macedonia would use its entire technical potential,it would increase the generating power by 321%.
  
=Fossil Fuels=
+
==Fossil Fuels==
  
== Greenhouse gas emissions ==
+
== Greenhouse Gas Emissions ==
 
North Macedonia has calculated a potential emission reduction of 30% by 2030.
 
North Macedonia has calculated a potential emission reduction of 30% by 2030.
  
Line 316: Line 321:
 
</div>
 
</div>
  
=Key Problems of the Energy Sector=
+
==Key Problems of the Energy Sector==
  
=== Challenges on increasing the RES share ===
+
=== Challenges on Increasing the RES Share ===
 
While North Macedonia has significant renewable energy potential, there are challenges associated with increasing the share of renewable energy in the country's energy mix. Some of the challenges include:  
 
While North Macedonia has significant renewable energy potential, there are challenges associated with increasing the share of renewable energy in the country's energy mix. Some of the challenges include:  
 
{| class="wikitable"
 
{| class="wikitable"
Line 365: Line 370:
 
|}
 
|}
  
=Policy Framework, Laws and Regulations=
+
==Policy Framework, Laws and Regulations==
  
=Institutional Set up in the Energy Sector=
+
==Institutional Set up and Key Actors in the Energy Sector==
  
=Other Key Actors / Activities of Donors, Implementing Agencies, Civil Society Organisations=
+
==Further Information==
  
=Further Information=
+
* https://www.iea.org/countries/north-macedonia
 +
* [https://ndcpartnership.org/country/mkd NDC partnership North-Macedonia]
 +
*
  
=References=
+
==References==
  
 
* IRENA, Renewables Readiness Assessment: North Macedonia, 2021
 
* IRENA, Renewables Readiness Assessment: North Macedonia, 2021
* IRENA, Renewable Energy Prospects for Central and South-Eastern Europe Energy Connectivity (CESEC), 2020
+
* [https://www.irena.org/Publications/2020/Oct/Renewable-Energy-Prospects-for-Central-and-South-Eastern-Europe-Energy-Connectivity-CESEC IRENA, Renewable Energy Prospects for Central and South-Eastern Europe Energy Connectivity (CESEC), 2020]
* IRENA, Cost-competitive renewable power generation: Potential across South East Europe, 2017
+
* [https://www.irena.org/publications/2017/Jan/Cost-competitive-renewable-power-generation-Potential-across-South-East-Europe IRENA, Cost-competitive renewable power generation: Potential across South East Europe, 2017]
* LEGAL SOURCES ON RENEWABLE ENERGY res-legal.eu  
+
* LEGAL SOURCES ON RENEWABLE ENERGY res-legal.eu
* Energy Community, North Macedonia  
+
* [https://www.energy-community.org/implementation/report/North_Macedonia.html Energy Community, North Macedonia]
  
 
[[Category:Europe and Central Asia]]
 
[[Category:Europe and Central Asia]]

Revision as of 14:03, 29 October 2024


North Macedonia
Flag of North Macedonia.png
Location _______.png

Capital:

Skopje

Region:

Coordinates:

41.6000° N, 21.7000° E

Total Area (km²): It includes a country's total area, including areas under inland bodies of water and some coastal waterways.

25,710

Population: It is based on the de facto definition of population, which counts all residents regardless of legal status or citizenship--except for refugees not permanently settled in the country of asylum, who are generally considered part of the population of their country of origin.

1,811,980 (2023)

Rural Population (% of total population): It refers to people living in rural areas as defined by national statistical offices. It is calculated as the difference between total population and urban population.

41 (2023)

GDP (current US$): It is the sum of gross value added by all resident producers in the economy plus any product taxes and minus any subsidies not included in the value of the products. It is calculated without making deductions for depreciation of fabricated assets or for depletion and degradation of natural resources.

14,761,237,042 (2023)

GDP Per Capita (current US$): It is gross domestic product divided by midyear population

8,146.47 (2023)

Access to Electricity (% of population): It is the percentage of population with access to electricity.

100.00 (2022)

Energy Imports Net (% of energy use): It is estimated as energy use less production, both measured in oil equivalents. A negative value indicates that the country is a net exporter. Energy use refers to use of primary energy before transformation to other end-use fuels, which is equal to indigenous production plus imports and stock changes, minus exports and fuels supplied to ships and aircraft engaged in international transport.

51.77 (2014)

Fossil Fuel Energy Consumption (% of total): It comprises coal, oil, petroleum, and natural gas products.

79.43 (2014)

Source: World Bank



Introduction

North Macedonia is a landlocked country in Southeast Europe. It is bordered by Greece to the south, Albania to the west, Bulgaria to the east, Kosovo to the northwest and Serbia to the north. Skopje, the capital and largest city, is home to a quarter of the country's population of 1.83 million.[1]

Energy Situation

In the year 2022, the primary source of energy in Kosovo, as reflected in the country's total energy supply, was oil, accounting for 45% of the total. This was followed by coal, which constituted 32% of the total energy supply. Coal accounted for 47% of electricity generation, followed by hydropower with 23% and natural gas (17%).[2]

In North Macedonia, the proportion of modern renewable energy sources in final energy consumption was close to 20% in 2021. In terms of electricity generation, 27% of the electricity is generated from renewables, predominantly from hydropower.[2]

North Macedonia has shown an increasing interest in renewable energy sources to diversify its energy mix, reduce dependence on fossil fuels, and meet environmental targets. The government has implemented various policies and initiatives to promote the development of renewable energy projects.

North Macedonia has historically relied on hydropower for a significant portion of its electricity generation. The country has utilized its rivers to develop hydropower plants. There have been also efforts to harness wind energy, and several wind projects have been proposed or are under development. Solar energy projects, particularly solar photovoltaic (PV) installations, have gained attention. The government has implemented programs to incentivize the adoption of solar technologies.Biomass and biogas have been explored as potential sources of renewable energy.

Installed electricity capacity (MW) by Technology, Grid connection and Year

Total Installed Capacity by the end of year 2022 is 1,925.52 MW
Technology Grid Connection Year Capacity (MW)
Solar photovoltaic On-grid 2022 84.93
Onshore wind energy On-grid 2022 37.00
Renewable hydropower On-grid 2022 689.19
Solid biofuels On-grid 2022 2.40
Biogas On-grid 2022 8.00
Coal and peat On-grid 2022 824.00
Oil On-grid 2022 29.00
Natural gas On-grid 2022 251.00
Installed Electricity Capacity in Percentage - Macedonia

Fig 1: Installed Electricity Capacity in Percentage

Energy Generation and Consumption

Description of data [unit] 2020 2021
Electricity production [GWh] 5.127 5.285
Gross electricity consumption [GWh] 7.748 8.172
Consumption structure [GWh] / industrial, transport, services and other 3.285 3.548
Consumption structure [GWh] / households (residential customers) 3.191 3.317

Net Import & Net Export

Description of data [unit] 2020 2021
Net imports [GWh] 2.341 4.724
Net exports [GWh] 1.011 2.134

Energy Losses

Description of data [unit] 2020 2021
Losses in transmission [%] 1.2% 1.30%
Losses in distribution [%] 13,4% 13,40%

Transmission Network

Description of data [unit] 2.367 2.35
Horizontal transmission network [km] 2.367 2.35
Horizontal transmission network [km] / substation capacity [MVA] 2.7 2.7

No of Consumers

Description of data [unit] 2020 2021
Electricity customers / total 876.466 888.998
Electricity customers / non-households 101.531 101.007
Eligible customers under national legislation 876.466 888.998

Internal Market

Description of data [unit] 2020 2021
Internal market / electricity supplied to active eligible customers [MWh] 2.913.592 3.176.265
Horizontal transmission network [km] / substation capacity [MVA] 45% 46%

Renewable Energy Potential

Unit Reference Case 2030 Remap 2030
Total installed power generation capacity MW 2,226.00 3,311.00
Renewable capacity MW 1,139.00 2,791.00
Hydropower MW 824.00 824.00
Wind - onshoore MW 200.00 589.00
Biofuels (solid, liquid, gaseous) MW 30.00 247.00
Solar PV MW 75.00 1,121.00
Geothermal MW 10.00 10.00
Non-renewable capacity MW 1,087.00 520.00
Coal MW 800.00 233.00
Gas MW 287.00 287.00
Technologies Technical Potential MW
Solar PV 1,479.6
Wind 4,940.4
Hydro 1,636.0
≤ 10 MW 255.0
> 10 MW 1,381.0
Pumping
Biomass 50.0
Biogas 20.0
Solid Biomass 20.0
Biowaste 10.0
Geothermal el. 10.0
Total 8,116.0
Technical Potential Capacity in Percentage - Macedonia
Fig 2: Technical potential Capacity in Percentage

As we can see, if North Macedonia would use its entire technical potential,it would increase the generating power by 321%.

Fossil Fuels

Greenhouse Gas Emissions

North Macedonia has calculated a potential emission reduction of 30% by 2030.

Unit Reference Case 2030 Remap 2030
Energy-related CO2 emissions [Mt CO2 /yr] 9.2 6

Greenhouse gas emissions in N. Macedonia are in 2016 around 11Mtons of CO2 and in energy sector 7,66Mtons of CO2 equivalent.
Sources of Greenhouse Gases - Macedonia
Fig 3: Sources of GreenHouse gases

Key Problems of the Energy Sector

Challenges on Increasing the RES Share

While North Macedonia has significant renewable energy potential, there are challenges associated with increasing the share of renewable energy in the country's energy mix. Some of the challenges include:

Policy & Regulatory Framework Inadequate or inconsistent policies and regulations can hinder the development of renewable energy projects.
Investment and Funding: Insufficient financial resources and investment opportunities may slow down the growth of renewable energy infrastructure.
Grid Integration: Integrating renewable energy into the existing power grid can be challenging, especially if the grid infrastructure is outdated or incompatible.
Storage Technologies: Lack of advanced energy storage solutions can make it difficult to store and manage intermittent renewable energy sources like solar and wind.
Technological Innovation: Limited research and development in renewable energy technologies may impede progress in adopting more efficient and cost-effective solutions.
Public Awareness and Education: A lack of public awareness and understanding of the benefits of renewable energy can lead to resistance or lack of support.
Land Use and Environmental Concerns: Balancing the need for renewable energy projects with environmental and land-use concerns can be a delicate issue.
Infrastructure Development: Inadequate infrastructure, such as transmission lines and transportation, can pose challenges to the development and distribution of renewable energy.
Political Stability: Political instability and changes in government can impact long-term renewable energy projects and policies.
Capacity Building: A shortage of skilled professionals in the renewable energy sector may slow down project implementation and maintenance.
Interconnection with Neighboring Countries: Developing cross-border interconnections for energy exchange can face political, technical, and regulatory challenges.
Energy Market Structure: The existing energy market structure may not be conducive to the integration of renewable energy, affecting market dynamics.
Social Acceptance: Local communities may resist renewable energy projects due to concerns about visual impact, noise, or changes in the landscape.
Subsidies and Incentives: The absence of or changes in subsidies and incentives can affect the economic viability of renewable energy projects.

Policy Framework, Laws and Regulations

Institutional Set up and Key Actors in the Energy Sector

Further Information

References