Brent oil, TTF gas...

Brent oil futures for the Front Month in the ICE market began the...

European electricity prices rise...

During the fourth week of November, average electricity prices in most major European...

European electricity demand trends:...

During the week of November 25, electricity demand increased in both the Italian...

Europe: Solar and wind...

During the week of November 25, solar photovoltaic energy production increased across most...
Supported byClarion Energy banner
HomeNews Serbia EnergyWind parks, grid...

Wind parks, grid connection and balancing responsibility in Serbia RES projects

The development of wind parks in Serbia, along with their grid connection and the balancing of energy production and consumption in renewable energy (RES) projects, is governed by a range of regulatory, technical and financial frameworks. Here’s a comprehensive overview of these elements.

1. Grid connection for wind parks in Serbia

The grid connection process for wind parks in Serbia is essential for their effective integration into the electricity network. This process involves multiple stages, from planning and obtaining permits to ensuring technical compliance and operational integration.

Key steps for grid connection:

  • Initial application and feasibility study: Developers submit a request to the Transmission System Operator (EMS) or the Electric Power Industry of Serbia (EPS) for grid connection. The grid operator conducts a feasibility study to evaluate the impact of the wind park on existing grid infrastructure and its capacity to absorb additional energy.
  • Grid connection agreement: Upon successful completion of the feasibility study, a connection agreement is established between the developer and the grid operator. This agreement outlines technical requirements, grid reinforcement costs and the timeline for connection, specifying the connection point at either the transmission or distribution level.
  • Grid compliance and testing: Compliance with Serbian grid codes is required, which includes power quality tests, harmonic distortion assessments, fault ride-through capabilities and voltage/reactive power control requirements. Testing must be carried out by accredited organizations to ensure the wind park operates without compromising grid stability.
  • Physical connection and commissioning: Once all compliance tests are satisfactorily completed, the wind park is physically connected to the grid. Commissioning tests are conducted to ensure proper operation of the wind turbines when synchronized with the grid.

Documentation required:

2. Balancing responsibility in wind parks

Balancing responsibility is vital for integrating variable renewable energy sources like wind into the grid. In Serbia, this responsibility is established under the framework of the Transmission System Operator (EMS) and the Regulatory Agency for Energy (AERS).

Understanding balancing responsibility: Balancing responsibility entails ensuring that the electricity generated by the wind park aligns with the electricity consumed or injected into the grid over a specific timeframe. Given the variability of wind energy, maintaining this balance necessitates careful planning, forecasting, and coordination with the grid operator.

Key components of balancing:

  • Balancing Group: Wind park developers typically join a Balancing Group, which manages deviations between forecasted and actual electricity production. A designated Balance Responsible Party (BRP) is tasked with minimizing imbalances and is accountable for imbalance costs if actual production diverges from forecasts.
  • Forecasting and scheduling: Operators must provide production forecasts to the BRP and grid operator, submitted on a day-ahead and intra-day basis. Accurate forecasting mitigates imbalance penalties and facilitates better grid management.
  • Imbalance settlement: Deviations between actual production and forecasts incur imbalance charges. If production falls short, the BRP must purchase the deficit from the balancing market, and vice versa for overproduction.
  • Financial responsibility: The BRP or wind park operator is responsible for covering costs related to balancing the grid. These costs can be reduced through precise forecasting, energy storage solutions, or participation in flexibility services.

Balancing market: Serbia has a balancing market where producers and consumers can buy and sell energy to maintain equilibrium between supply and demand. Wind parks participate in this market through their BRP to address forecast deviations.

3. Regulatory framework for RES projects in Serbia

Renewable energy projects, including wind parks, in Serbia benefit from various laws and incentives designed to promote clean energy while ensuring power system stability. Key regulatory frameworks include:

  • Law on Energy: This law regulates the energy market, including RES projects, governing grid access, energy production, and market participation, while defining the roles of market participants.
  • Regulatory Agency for Energy (AERS): AERS oversees Serbia’s energy sector, setting tariffs, regulating grid access, and ensuring compliance with market rules. It establishes the balancing and market participation rules for RES projects.
  • Grid Code: The Grid Code outlines the technical requirements for all energy producers, including wind parks, ensuring they comply with standards necessary for grid connection and operation.
  • Feed-in Tariffs and auctions: Serbia previously operated a Feed-in Tariff (FiT) system, which guaranteed a fixed price for renewable electricity. The country is transitioning to a market-based auction system, aligning with EU directives, where developers bid for contracts based on the lowest price per kWh.

4. Challenges and solutions in balancing RES projects

Wind parks face several challenges in balancing output with demand, including:

Challenges:

  • Intermittency: The variable nature of wind energy makes it challenging to maintain consistent output.
  • Forecasting accuracy: Inaccurate forecasts can lead to substantial imbalance charges for operators.
  • Grid stability: High levels of intermittent energy can impact grid frequency and voltage stability.

Solutions:

  • Improved forecasting models: Utilizing advanced forecasting models can help enhance prediction accuracy, reducing imbalances.
  • Energy storage systems: Installing batteries or other storage solutions enables wind parks to manage excess energy during overproduction and supply energy during shortages.
  • Demand response programs: Coordinating with consumers to adjust electricity consumption during low production periods helps balance supply and demand.
  • Flexible Power Purchase Agreements (PPAs): PPAs with flexibility clauses can assist in managing risks linked to variable wind energy production.

5. Future outlook for wind parks and balancing in Serbia

Serbia is committed to increasing its renewable energy share under the Energy Community Treaty and aligning with EU energy policies. As wind energy capacity expands, efficient grid connection and balancing will become increasingly crucial for maintaining electricity network stability.

  • Integration of more RES: Plans are underway to integrate additional renewable energy sources, particularly wind and solar, requiring ongoing grid infrastructure upgrades and enhanced balancing mechanisms.
  • Increased role of balancing markets: The balancing market will be essential for ensuring that wind parks and other RES projects can efficiently participate in Serbia’s energy landscape.
  • Investment in grid infrastructure: Upgrading transmission and distribution networks is vital for accommodating a growing share of RES and enhancing grid management of variable energy sources.

In summary, grid connection and balancing responsibility are fundamental components for integrating wind parks into Serbia’s energy system. Developers must navigate complex regulatory frameworks, comply with grid codes, and effectively manage challenges associated with variable production through accurate forecasting and participation in balancing markets. As Serbia advances its renewable energy capacity, the efficiency of these processes will be critical for achieving national energy objectives and ensuring grid stability.

Powered by
www.clarion.energy
www.owners.engineer

Supported byOwner's Engineer banner

Recent News

Supported byspot_img
Supported byspot_img

Latest News

Supported byspot_img
Supported bySEE Energy News

Related News

European electricity prices rise in late November: Forecasts for December trends

During the fourth week of November, average electricity prices in most major European markets rose compared to the previous week. The only exception was the Nord Pool market in the Nordic countries, which saw a 21% drop. The MIBEL...

European electricity demand trends: November 2024 overview and December forecasts

During the week of November 25, electricity demand increased in both the Italian and Spanish markets for the fourth consecutive week. The Italian market saw a rise of 0.6%, while the Spanish market experienced a larger increase of 2.2%....

Europe: Solar and wind energy production trends in November 2024

During the week of November 25, solar photovoltaic energy production increased across most European electricity markets compared to the previous week. The German market saw the largest rise, with an increase of 46%, while the Spanish market recorded the...
Supported bySEE Mining News
error: Content is protected !!