January 22, 2026
by in News

Renewables account for 99% of Turkey’s net electricity capacity additions

Electricity capacity in Turkey reached 122 GW in 2025, of which 62% was from renewable sources, according to the SHURA Energy Transition Center. Photovoltaics grew by 4.9 GW, compared to 1.7 GW in the wind power segment. Renewables made up 99% of the net additions, amounting to 6.3 GW, the think tank calculated. This year, however, the first unit of the Akkuyu nuclear power plant is scheduled to come online, adding 1.2 GW.

Gross electricity production in Turkey increased 2% last year, to 360 TWh, the SHURA Energy Transition Center estimated in a new report. The share of renewables dropped to 44.1% from 46%. Namely, hydropower output is on a downward trajectory, due to droughts. Wind, solar and geothermal power rallied to 24.6%, though. Photovoltaics and wind power together surpassed 20%.

Renewables continue to dominate the sector’s development, accounting for 99% of the overall 6.3 GW in net additions, the think tank calculated. The total reached 122 GW. Renewable sources made up 62%, compared to 59.7% in 2024.

Solar power surged by 4.9 GW and the wind power capacity jumped by 1.7 GW, while the natural gas item declined by 684 MW.

Importantly, the picture is about to change, as the first, 1.2 GW reactor in Akkuyu, Turkey’s first nuclear power plant, is scheduled to be commissioned this year. Coal plant projects remain dormant and uncertain.

Race to 2035 targets

Daily power consumption reached an all-time high of 1,244 GWh on July 29. SHURA attributed the record to cooling demand caused by rising temperatures.

To reach the 2035 targets, an average of 8 GW of combined solar and wind capacity must be commissioned each year. The high momentum is expected to continue in 2026, the report reads. The government aims to hit 120 GW altogether from the two technologies, against the current 40 GW.

However, grid constraints for self-consumption units (formally, unlicensed power plants) may slow solar energy growth, the authors warned. The plan is to resolve the issue through capacity allocations for the segment. The increasing prevalence of renewable and hybrid power plants with storage will enhance system flexibility, SHURA added.

Electricity decarbonization plan costs USD 15 billion per year

Just transition plans for coal regions are critical, the think tank said. It estimated that decarbonizing the electricity sector by 2053 would require an average annual investment of USD 15 billion.

Decisions regarding fossil fuels made for security of supply reasons must be more carefully balanced with the net zero target, SHURA stressed. Temporary solutions risk creating a permanent deadlock, it underscored.

Focus switching to grid, flexibility

Turkey has reached a critical juncture in its energy transformation, according to the update. The authors commended the rise in capacity and new tenders and investments. Nevertheless, they claim the pace cannot be sustained without strengthening the grid, flexibility and implementation capacity, while implying expansion in storage, electrification and financing.

In the view of SHURA’s Steering Committee Chair Selahattin Hakman, energy transition should no longer be considered solely as a topic of climate policy, but rather in conjunction with geopolitical developments, security and economic resilience. Clean energy investments, particularly in solar and wind power, continue to grow despite increasing global uncertainties, he noted.

“In this new era, energy transition is defined at the intersection of geopolitical independence, economic resilience and social justice. Energy policies have transcended the boundaries of the environment and have become central to foreign policy, industrial strategy and trade policies,” Hakman stated.

Post Views:135
January 22, 2026
by in News

Bulgaria to host renewable electricity plants on Luxembourg’s behalf

Bulgaria joined Finland as a host country for the 2026 call through the EU Renewable Energy Financing Mechanism (RENEWFM). Luxembourg intends to fund renewable energy projects there, which will enable it to statistically attribute 80% of output to itself.

In the European Union, a member state that missed its renewable energy target can arrange a so-called statistical transfer, for a fee, from a fellow country that surpassed its own target. Another way is to fund power plant projects in another member state, via the EU Renewable Energy Financing Mechanism (RENEWFM).

In the first round, Finland agreed to host seven solar parks on behalf of Luxembourg. The grants amounted to EUR 27.5 million. Next time, also for Luxembourg, it got seven photovoltaic projects and Estonia got two for wind power. The beneficiaries won EUR 52 million in total.

This year, Bulgaria decided to participate with Finland, again on behalf of Luxembourg. Conveniently, the plan is for photovoltaic plants with battery storage in the country’s coal regions in transition: Pernik, Kyustendil and Stara Zagora. The investments are aimed at ensuring long-term employment and energy security. They complement the so-called territorial just transition plans (TJTPs) for a smooth coal phaseout.

The budget for the forthcoming round amounts to EUR 55 million

Bulgaria applied through the call that the European Commission’s Directorate-General for Energy (DG Ener) published. The overall budget is EUR 55 million.

The facilities must operate for at least 15 years. Bulgaria provides land instead of Luxembourg, which gets 80% of the green energy certificates from production.

As for Finland, solar farms are planned again, for the upcoming round.

The European Climate, Infrastructure and Environment Executive Agency (CINEA) is responsible for conducting the calls and monitoring project implementation.

Post Views:133
January 22, 2026
by in News

IRENA: Global daily flexibility needs are quadrupling by 2050

In IRENA’s Planned Energy Scenario at the global level, electricity system flexibility needs on a daily timescale are four times higher in 2050 than in 2019. In the weekly and monthly timescales, the energy required for the purpose grows by three and 2.5 times, respectively. As for the 1.5°C Scenario, implying a much higher share of renewables, the daily flexibility needs jump ten times by mid-century, versus six times for both remaining segments.

Electrification of end-use energy, large-scale deployment of distributed energy resources and the emergence of large new electricity loads from data centres are increasing demand and adding new layers of complexity. It means power systems will need stronger grids and more flexibility to ensure that electricity is available when and where needed and at the lowest possible cost, the International Renewable Energy Agency (IRENA) pointed out in a brief called Flexibility for a secure and affordable power sector transformation.

Aside from buildings and transportation, new demand is coming from the growing adoption of artificial intelligence (AI), driving the expansion of data center capacity. In 2024, data centers consumed 1.5% of electricity. The International Energy Agency expects the share to double by 2030.

The share of variable renewable energy is increasing – wind and solar power in particular. Demand patterns become more complex, so the potential for mismatches between supply and demand is likely to grow, becoming more frequent and significant. It highlights the increasing importance of system flexibility. It is the capacity to respond to expected and unexpected fluctuations in the demand for and supply of electricity in a cost-effective manner.

Some forms of flexibility act automatically to keep the system stable, while others can be scheduled and operate over hours, days or even seasons

Insufficient system flexibility can result in excessive curtailment or, in market-based systems, negative electricity prices. It can also result in shortages, jeopardising the reliable supply of electricity.

System flexibility is needed by the power system to adjust to the variability of generation and demand patterns across different timescales. Some forms of flexibility act automatically within seconds to keep the system stable, while others can be scheduled in anticipation and operate over hours, days or even seasons, through market adjustments and operational and resource planning.

Network flexibility, which isn’t covered in IRENA’s brief, is different. It is the capacity to adjust for grid availability by means of preventing or solving congestion or voltage issues.

Required flexibility depends on numerous factors

In the timescale of seconds to minutes, flexibility is needed to maintain the balance during sudden changes in demand or supply, such as the
disconnection of an interconnector or a major load or generator. The hours and days timescale has daily ups and downs of solar and wind generation alongside the peaks and troughs in demand throughout the day.

In the weeks and seasons segment, flexibility enables covering longer weather patterns caused by changes in the season or low-wind periods. In power systems mainly supplied by renewables, flexibility is also needed at inter-annual timescales. The main factors are climate-driven variations in resource availability. It especially concerns hydrology, but also wind and solar, as well as year-to-year differences in seasonal heating and cooling demand.

In power systems mainly supplied by renewables, flexibility is also needed at inter-annual timescales

Flexibility is not a single asset or function; instead it corresponds to a capability provided by a portfolio of different technologies, operational practices and market mechanisms. The required level of flexibility in a power system depends on, among other factors, the prevailing generation mix, geography, power sector structure and affected timescales.

Storage, demand-side management (DSM), interconnections and dispatchable resources each contribute differently.

Advances in forecasting and the introduction of shorter dispatch intervals, scheduled closer to real-time operation, allow more frequent and precise adjustments of generation and demand before electricity is delivered. One example are intraday markets complementing day-ahead markets.

Electricity must become main energy carrier by mid-century to keep global warming in check

In IRENA’s 1.5°C Scenario, the energy transition will be driven by the deployment of renewable energy, improvements in energy efficiency and the electrification of end-use sectors. The aim is to limit global warming to 1.5 degrees Celsius by 2100.

Electricity would need to become the main energy carrier by 2050. It would account for over half of total final energy consumption. The 2022 level was 23%.

Global electricity generation is projected to be 36% higher in 2030 and three times higher in 2050 than in 2023. Renewable resources would supply 68% of electricity in 2030 and 91% in 2050. Renewables would account for 77% of total installed power capacity in 2030 and 94% in 2050.

In the same setting, 70% of electricity generated in 2050 comes from wind and photovoltaics, taken together. In IRENA’s Planned Energy Scenario, not projecting full decarbonization, the level is 53%.

In IRENA’s 1.5°C Scenario, the share of electricity in total final energy consumption more than doubles by 2050, surpassing 50%

Flexibility needs are calculated as total cumulated annual energy deviation from the average net load (which excludes variable renewable energy generation).

In the 1.5°C Scenario, the power sector requires ten times more flexibility in 2050 than in 2019 to manage the daily variability of net load. In terms of share of annual electricity demand, the authors observed a surge to 30% from 7%. Flexibility needs for managing the variability in weekly and monthly timescales are both six times higher.

In IRENA’s Planned Energy Scenario, daily flexibility needs in 2050 are four times higher. In the weekly timescale, the level triples from 2019, and the monthly item is 2.5 times higher.

IRENA Global daily flexibility needs quadrupling by 2050
Photo: The height of bars indicates flexibility requirements in terawatt-hours per year. Purple horizontal markers show flexibility needs as a percentage of annual electricity demand. (IRENA)

Batteries perform best in daily segment

Battery energy storage is the most effective in addressing daily flexibility needs, the report finds. It is only 24% as effective at meeting weekly needs and 12% as effective for monthly needs.

Interconnections and LDES are effective on the weekly and monthly scales

Interconnections are the most effective in addressing weekly flexibility needs, but also 98% as effective for monthly needs. As for the daily segment, the coverage is just 28%.

The numbers for long-duration energy storage (LDES) solutions are similar. Compared with addressing weekly flexibility needs, LDES is 90% as effective for monthly needs and 34% as effective in the daily item.

Post Views:97
January 20, 2026
by in News

IRENA: Global daily flexibility needs are quadrupling by 2050

In IRENA’s Planned Energy Scenario at the global level, electricity system flexibility needs on a daily timescale are four times higher in 2050 than in 2019. In the weekly and monthly timescales, the energy required for the purpose grows by three and 2.5 times, respectively. As for the 1.5°C Scenario, implying a much higher share of renewables, the daily flexibility needs jump ten times by mid-century, versus six times for both remaining segments.

Electrification of end-use energy, large-scale deployment of distributed energy resources and the emergence of large new electricity loads from data centres are increasing demand and adding new layers of complexity. It means power systems will need stronger grids and more flexibility to ensure that electricity is available when and where needed and at the lowest possible cost, the International Renewable Energy Agency (IRENA) pointed out in a brief called Flexibility for a secure and affordable power sector transformation.

Aside from buildings and transportation, new demand is coming from the growing adoption of artificial intelligence (AI), driving the expansion of data center capacity. In 2024, data centers consumed 1.5% of electricity. The International Energy Agency expects the share to double by 2030.

The share of variable renewable energy is increasing – wind and solar power in particular. Demand patterns become more complex, so the potential for mismatches between supply and demand is likely to grow, becoming more frequent and significant. It highlights the increasing importance of system flexibility. It is the capacity to respond to expected and unexpected fluctuations in the demand for and supply of electricity in a cost-effective manner.

Some forms of flexibility act automatically to keep the system stable, while others can be scheduled and operate over hours, days or even seasons

Insufficient system flexibility can result in excessive curtailment or, in market-based systems, negative electricity prices. It can also result in shortages, jeopardising the reliable supply of electricity.

System flexibility is needed by the power system to adjust to the variability of generation and demand patterns across different timescales. Some forms of flexibility act automatically within seconds to keep the system stable, while others can be scheduled in anticipation and operate over hours, days or even seasons, through market adjustments and operational and resource planning.

Network flexibility, which isn’t covered in IRENA’s brief, is different. It is the capacity to adjust for grid availability by means of preventing or solving congestion or voltage issues.

Required flexibility depends on numerous factors

In the timescale of seconds to minutes, flexibility is needed to maintain the balance during sudden changes in demand or supply, such as the
disconnection of an interconnector or a major load or generator. The hours and days timescale has daily ups and downs of solar and wind generation alongside the peaks and troughs in demand throughout the day.

In the weeks and seasons segment, flexibility enables covering longer weather patterns caused by changes in the season or low-wind periods. In power systems mainly supplied by renewables, flexibility is also needed at inter-annual timescales. The main factors are climate-driven variations in resource availability. It especially concerns hydrology, but also wind and solar, as well as year-to-year differences in seasonal heating and cooling demand.

In power systems mainly supplied by renewables, flexibility is also needed at inter-annual timescales

Flexibility is not a single asset or function; instead it corresponds to a capability provided by a portfolio of different technologies, operational practices and market mechanisms. The required level of flexibility in a power system depends on, among other factors, the prevailing generation mix, geography, power sector structure and affected timescales.

Storage, demand-side management (DSM), interconnections and dispatchable resources each contribute differently.

Advances in forecasting and the introduction of shorter dispatch intervals, scheduled closer to real-time operation, allow more frequent and precise adjustments of generation and demand before electricity is delivered. One example are intraday markets complementing day-ahead markets.

Electricity must become main energy carrier by mid-century to keep global warming in check

In IRENA’s 1.5°C Scenario, the energy transition will be driven by the deployment of renewable energy, improvements in energy efficiency and the electrification of end-use sectors. The aim is to limit global warming to 1.5 degrees Celsius by 2100.

Electricity would need to become the main energy carrier by 2050. It would account for over half of total final energy consumption. The 2022 level was 23%.

Global electricity generation is projected to be 36% higher in 2030 and three times higher in 2050 than in 2023. Renewable resources would supply 68% of electricity in 2030 and 91% in 2050. Renewables would account for 77% of total installed power capacity in 2030 and 94% in 2050.

In the same setting, 70% of electricity generated in 2050 comes from wind and photovoltaics, taken together. In IRENA’s Planned Energy Scenario, not projecting full decarbonization, the level is 53%.

In IRENA’s 1.5°C Scenario, the share of electricity in total final energy consumption more than doubles by 2050, surpassing 50%

Flexibility needs are calculated as total cumulated annual energy deviation from the average net load (which excludes variable renewable energy generation).

In the 1.5°C Scenario, the power sector requires ten times more flexibility in 2050 than in 2019 to manage the daily variability of net load. In terms of share of annual electricity demand, the authors observed a surge to 30% from 7%. Flexibility needs for managing the variability in weekly and monthly timescales are both six times higher.

In IRENA’s Planned Energy Scenario, daily flexibility needs in 2050 are four times higher. In the weekly timescale, the level triples from 2019, and the monthly item is 2.5 times higher.

IRENA Global daily flexibility needs quadrupling by 2050
Photo: The height of bars indicates flexibility requirements in terawatt-hours per year. Purple horizontal markers show flexibility needs as a percentage of annual electricity demand. (IRENA)

Batteries perform best in daily segment

Battery energy storage is the most effective in addressing daily flexibility needs, the report finds. It is only 24% as effective at meeting weekly needs and 12% as effective for monthly needs.

Interconnections and LDES are effective on the weekly and monthly scales

Interconnections are the most effective in addressing weekly flexibility needs, but also 98% as effective for monthly needs. As for the daily segment, the coverage is just 28%.

The numbers for long-duration energy storage (LDES) solutions are similar. Compared with addressing weekly flexibility needs, LDES is 90% as effective for monthly needs and 34% as effective in the daily item.

Post Views:61
January 20, 2026
by in News

Renewables account for 99% of Turkey’s net electricity capacity additions

Electricity capacity in Turkey reached 122 GW in 2025, of which 62% was from renewable sources, according to the SHURA Energy Transition Center. Photovoltaics grew by 4.9 GW, compared to 1.7 GW in the wind power segment. Renewables made up 99% of the net additions, amounting to 6.3 GW, the think tank calculated. This year, however, the first unit of the Akkuyu nuclear power plant is scheduled to come online, adding 1.2 GW.

Gross electricity production in Turkey increased 2% last year, to 360 TWh, the SHURA Energy Transition Center estimated in a new report. The share of renewables dropped to 44.1% from 46%. Namely, hydropower output is on a downward trajectory, due to droughts. Wind, solar and geothermal power rallied to 24.6%, though. Photovoltaics and wind power together surpassed 20%.

Renewables continue to dominate the sector’s development, accounting for 99% of the overall 6.3 GW in net additions, the think tank calculated. The total reached 122 GW. Renewable sources made up 62%, compared to 59.7% in 2024.

Solar power surged by 4.9 GW and the wind power capacity jumped by 1.7 GW, while the natural gas item declined by 684 MW.

Importantly, the picture is about to change, as the first, 1.2 GW reactor in Akkuyu, Turkey’s first nuclear power plant, is scheduled to be commissioned this year. Coal plant projects remain dormant and uncertain.

Race to 2035 targets

Daily power consumption reached an all-time high of 1,244 GWh on July 29. SHURA attributed the record to cooling demand caused by rising temperatures.

To reach the 2035 targets, an average of 8 GW of combined solar and wind capacity must be commissioned each year. The high momentum is expected to continue in 2026, the report reads. The government aims to hit 120 GW altogether from the two technologies, against the current 40 GW.

However, grid constraints for self-consumption units (formally, unlicensed power plants) may slow solar energy growth, the authors warned. The plan is to resolve the issue through capacity allocations for the segment. The increasing prevalence of renewable and hybrid power plants with storage will enhance system flexibility, SHURA added.

Electricity decarbonization plan costs USD 15 billion per year

Just transition plans for coal regions are critical, the think tank said. It estimated that decarbonizing the electricity sector by 2053 would require an average annual investment of USD 15 billion.

Decisions regarding fossil fuels made for security of supply reasons must be more carefully balanced with the net zero target, SHURA stressed. Temporary solutions risk creating a permanent deadlock, it underscored.

Focus switching to grid, flexibility

Turkey has reached a critical juncture in its energy transformation, according to the update. The authors commended the rise in capacity and new tenders and investments. Nevertheless, they claim the pace cannot be sustained without strengthening the grid, flexibility and implementation capacity, while implying expansion in storage, electrification and financing.

In the view of SHURA’s Steering Committee Chair Selahattin Hakman, energy transition should no longer be considered solely as a topic of climate policy, but rather in conjunction with geopolitical developments, security and economic resilience. Clean energy investments, particularly in solar and wind power, continue to grow despite increasing global uncertainties, he noted.

“In this new era, energy transition is defined at the intersection of geopolitical independence, economic resilience and social justice. Energy policies have transcended the boundaries of the environment and have become central to foreign policy, industrial strategy and trade policies,” Hakman stated.

Post Views:97
January 20, 2026
by in News

Bulgaria to host renewable electricity plants on Luxembourg’s behalf

Bulgaria joined Finland as a host country for the 2026 call through the EU Renewable Energy Financing Mechanism (RENEWFM). Luxembourg intends to fund renewable energy projects there, which will enable it to statistically attribute 80% of output to itself.

In the European Union, a member state that missed its renewable energy target can arrange a so-called statistical transfer, for a fee, from a fellow country that surpassed its own target. Another way is to fund power plant projects in another member state, via the EU Renewable Energy Financing Mechanism (RENEWFM).

In the first round, Finland agreed to host seven solar parks on behalf of Luxembourg. The grants amounted to EUR 27.5 million. Next time, also for Luxembourg, it got seven photovoltaic projects and Estonia got two for wind power. The beneficiaries won EUR 52 million in total.

This year, Bulgaria decided to participate with Finland, again on behalf of Luxembourg. Conveniently, the plan is for photovoltaic plants with battery storage in the country’s coal regions in transition: Pernik, Kyustendil and Stara Zagora. The investments are aimed at ensuring long-term employment and energy security. They complement the so-called territorial just transition plans (TJTPs) for a smooth coal phaseout.

The budget for the forthcoming round amounts to EUR 55 million

Bulgaria applied through the call that the European Commission’s Directorate-General for Energy (DG Ener) published. The overall budget is EUR 55 million.

The facilities must operate for at least 15 years. Bulgaria provides land instead of Luxembourg, which gets 80% of the green energy certificates from production.

As for Finland, solar farms are planned again, for the upcoming round.

The European Climate, Infrastructure and Environment Executive Agency (CINEA) is responsible for conducting the calls and monitoring project implementation.

Post Views:97
January 16, 2026
by in News

Montenegro to renew first solar power auction call as soon as possible

After rejecting all bids within its first auction for market premiums for solar power projects, the Ministry of Energy and Mining of Montenegro vowed to tackle the shortcomings in the conditions for participation and renew the public call as soon as possible. The country intends to hold the competitive bidding process by the end of the first quarter, followed by a wind power auction in the third quarter.

Montenegro’s Ministry of Energy and Mining declined, in mid-December, all four bids in the country’s first solar power auction, for a quota of 250 MW. A report that the government adopted three weeks ago revealed that 11 entities have expressed interest by purchasing the tender documentation.

The failures in fulfilling the conditions included submitting documents that were too old and not meeting the requirements for spatial planning and grid connections, the ministry said. On the other hand, it acknowledged shortcomings regarding the auction qualification terms, vowing to tackle them and issue another call as soon as possible.

Namely, the main obligatory documents can’t be older than the public call itself. They are the urban planning and technical conditions, which the government issues, and the grid connection contract, but they are signed only once, becoming acquired legal rights.

Winners can sign 12-year CfDs

The call to auction was published in July. Under Montenegro’s legal framework, auction participants compete for market premiums in the form of 12-year contracts for difference (CfDs) for their projects.

The beneficiary has a guaranteed price, approved through the auction. When the firm sells electricity in the market at a higher price, it must return the difference. And vice versa: when the beneficiary gets less per megawatt-hour than the contract price, it is reimbursed.

Eligible projects don’t or didn’t benefit from government incentives. They can participate if construction works haven’t begun and the developers haven’t secured financing for their completion.

The lowest bids win, and the maximum allowed price was EUR 65 per MWh.

First successful projects from auctions seen for completion in 2028

Per the official plan, the solar power auction needs to be held in the first quarter of this year, followed by a wind power round, for 200 MW. Minister Admir Šahmanović earlier said that he expected the power plants to come online from 2028 to 2030.

Conducting renewable electricity auctions is one of the commitments toward the European Union that were defined by the Reform Agenda of Montenegro 2024-2027. It contains the conditions for the approval of up to EUR 383 million from the Growth Plan for the Western Balkans and the Reform and Growth Facility (RGF).

Post Views:82
January 16, 2026
by in News

Eurowind Energy presents solar-wind hybrid project in Romania

Eurowind Energy plans to build its Siminoc hybrid power plant in southeastern Romania by 2028. It would consist of 24.8 MW of wind power and a matching photovoltaic capacity. The company is considering battery storage as well.

Danish renewable energy developer and operator Eurowind Energy unveiled a EUR 65 million investment in Romania. The Siminoc wind and photovoltaic park project is for 49.6 MW in total.

The site for the hybrid power plant is in Constanța county in Dobruja (Dobrogea). The historical region is Romania’s wind power hub.

Eurowind Energy said it has obtained state support for the project through the country’s contracts-for-difference (CfD) mechanism.

Annual production estimated at 120 GWh

The wind and solar power segments of the future facility in the country’s southeast would each have 24.8 MW in capacity. Siminoc’s annual output is estimated at 120 GWh, equivalent to the consumption of over 50,000 households, the company said.

The company also plans to configure a BESS unit

In its portfolio, Eurowind Energy has wind, battery storage, solar, power-to-heat, hydrogen, biogas and hybrid power plants. Founded twenty years ago, it employs 700 people and is active in 16 markets in Europe, including Bulgaria, and the United States.

Completion date clings on grid connection

According to the schedule for Siminoc, it needs to obtain the construction permit in the first half of this year, and the start of works is planned for 2027. The hybrid power plant would be commissioned in 2028, though adjustments are possible, depending on administrative procedures and the grid connection.

Importantly, Eurowind Energy revealed that it would configure battery energy storage system (BESS) equipment at the procurement phase, when it also needs to select wind turbines and solar panels.

“Siminoc is our first hybrid park in Romania and marks an important step in the evolution of the local portfolio. We no longer view projects as mere production capacities, but as assets that provide real flexibility to the energy system. Combining wind with photovoltaics and, most likely, battery storage allows us to align production to demand, reduce local variability and contribute responsibly to the safe integration of renewable energies,” Country Manager Adrian Dobre said.

Eurowind Energy Romania began its activities in 2011. It has four operational solar parks – Hălchiu, Măgurele, Pufești and Teiuș. The project pipeline amounts to 7.5 GW in various stages of development. The company expects operational capacity to reach 124 MW by mid-year.

Post Views:37
January 16, 2026
by in News

Eurowind Energy presents solar-wind hybrid project in Romania

Eurowind Energy plans to build its Siminoc hybrid power plant in southeastern Romania by 2028. It would consist of 24.8 MW of wind power and a matching photovoltaic capacity. The company is considering battery storage as well.

Danish renewable energy developer and operator Eurowind Energy unveiled a EUR 65 million investment in Romania. The Siminoc wind and photovoltaic park project is for 49.6 MW in total.

The site for the hybrid power plant is in Constanța county in Dobruja (Dobrogea). The historical region is Romania’s wind power hub.

Eurowind Energy said it has obtained state support for the project through the country’s contracts-for-difference (CfD) mechanism.

Annual production estimated at 120 GWh

The wind and solar power segments of the future facility in the country’s southeast would each have 24.8 MW in capacity. Siminoc’s annual output is estimated at 120 GWh, equivalent to the consumption of over 50,000 households, the company said.

The company also plans to configure a BESS unit

In its portfolio, Eurowind Energy has wind, battery storage, solar, power-to-heat, hydrogen, biogas and hybrid power plants. Founded twenty years ago, it employs 700 people and is active in 16 markets in Europe, including Bulgaria, and the United States.

Completion date clings on grid connection

According to the schedule for Siminoc, it needs to obtain the construction permit in the first half of this year, and the start of works is planned for 2027. The hybrid power plant would be commissioned in 2028, though adjustments are possible, depending on administrative procedures and the grid connection.

Importantly, Eurowind Energy revealed that it would configure battery energy storage system (BESS) equipment at the procurement phase, when it also needs to select wind turbines and solar panels.

“Siminoc is our first hybrid park in Romania and marks an important step in the evolution of the local portfolio. We no longer view projects as mere production capacities, but as assets that provide real flexibility to the energy system. Combining wind with photovoltaics and, most likely, battery storage allows us to align production to demand, reduce local variability and contribute responsibly to the safe integration of renewable energies,” Country Manager Adrian Dobre said.

Eurowind Energy Romania began its activities in 2011. It has four operational solar parks – Hălchiu, Măgurele, Pufești and Teiuș. The project pipeline amounts to 7.5 GW in various stages of development. The company expects operational capacity to reach 124 MW by mid-year.

Post Views:37
January 15, 2026
by in News

Montenegro to renew first solar power auction call as soon as possible

After rejecting all bids within its first auction for market premiums for solar power projects, the Ministry of Energy and Mining of Montenegro vowed to tackle the shortcomings in the conditions for participation and renew the public call as soon as possible. The country intends to hold the competitive bidding process by the end of the first quarter, followed by a wind power auction in the third quarter.

Montenegro’s Ministry of Energy and Mining declined, in mid-December, all four bids in the country’s first solar power auction, for a quota of 250 MW. A report that the government adopted three weeks ago revealed that 11 entities have expressed interest by purchasing the tender documentation.

The failures in fulfilling the conditions included submitting documents that were too old and not meeting the requirements for spatial planning and grid connections, the ministry said. On the other hand, it acknowledged shortcomings regarding the auction qualification terms, vowing to tackle them and issue another call as soon as possible.

Namely, the main obligatory documents can’t be older than the public call itself. They are the urban planning and technical conditions, which the government issues, and the grid connection contract, but they are signed only once, becoming acquired legal rights.

Winners can sign 12-year CfDs

The call to auction was published in July. Under Montenegro’s legal framework, auction participants compete for market premiums in the form of 12-year contracts for difference (CfDs) for their projects.

The beneficiary has a guaranteed price, approved through the auction. When the firm sells electricity in the market at a higher price, it must return the difference. And vice versa: when the beneficiary gets less per megawatt-hour than the contract price, it is reimbursed.

Eligible projects don’t or didn’t benefit from government incentives. They can participate if construction works haven’t begun and the developers haven’t secured financing for their completion.

The lowest bids win, and the maximum allowed price was EUR 65 per MWh.

First successful projects from auctions seen for completion in 2028

Per the official plan, the solar power auction needs to be held in the first quarter of this year, followed by a wind power round, for 200 MW. Minister Admir Šahmanović earlier said that he expected the power plants to come online from 2028 to 2030.

Conducting renewable electricity auctions is one of the commitments toward the European Union that were defined by the Reform Agenda of Montenegro 2024-2027. It contains the conditions for the approval of up to EUR 383 million from the Growth Plan for the Western Balkans and the Reform and Growth Facility (RGF).

Post Views:54