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EirGrid
EirGrid
EirGrid
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EirGrid plc is the state-owned electric power transmission operator in Ireland. It is a public limited company registered under the Companies Acts; its shares are held by the Minister for Climate, Energy and the Environment. It is one of a number of Irish state-sponsored bodies and is regulated by the Commission for Regulation of Utilities.

Key Information

History

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EirGrid was established under Irish and European laws including the European Communities (Internal Market in Electricity) Regulations, 2000, to enable competition in the Irish power sector. It took over operation of the national power system on 1 July 2006. The ESB (the Electricity Supply Board) currently holds ownership of the physical assets.

The transmission assets constitute 6,500 km of overhead line and underground cable, as well as over 100 bulk substations. The system's significance for competition is that most large independent generators connect to the transmission system and utilise it to transport their power to all regions. EirGrid also operates the wholesale power market.

Role

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EirGrid's primary purposes are the daily management of the Irish national grid, the operation of the wholesale power market, and the development of high voltage infrastructure to serve Ireland's economy. The Irish National Grid is a 3-phase wide area synchronous grid that is not synchronised with the GB's National Grid. The high voltage transmission system has been likened to "motorways for power" or "broadband power" providing electricity in high quality and in bulk to all regions. Transmission is seen as a key factor in facilitating inward investment by bodies like the Industrial Development Authority (IDA) and the development body Forfas. It is also seen as critical to increased renewable energy by organisations like Sustainable Energy Ireland (SEI) and the Irish Wind Energy Association (IWEA). EirGrid is currently developing a large number of major transmission projects. It is working with the regulator in line with Irish Government policy to develop a second major transmission line to Northern Ireland. The 500 MW East–West Interconnector linking the Irish power system to Great Britain[2] was commissioned in 2012.[3] EirGrid will own that interconnector after it is developed, under the Irish Government decision.

EirGrid has its own separate board and is regulated by the Commission for Energy Regulation (the CER) and its shares are held by the Irish Government. EirGrid is responsible for balancing electricity consumption and generation, for the safe, secure and economical operation of the power system, and for the planning and development of the Irish power grid. Under the Single Electricity Market, EirGrid operates the wholesale power market on the island of Ireland with System Operator for Northern Ireland (SONI), which it now owns. More information on the functions of EirGrid, along with graphs of electricity demand/wind generation output updated every 15 minutes, are available on its website. Information on the Single Electricity Market Operator (SEMO) is also at that website.

See also

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References

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EirGrid

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EirGrid plc is the state-owned (TSO) for the , responsible for planning, developing, operating, and maintaining the national high-voltage electricity transmission grid to deliver a secure, reliable, and efficient power supply. Established in 2006 pursuant to EU directives requiring the unbundling of transmission operations from generation and distribution activities previously handled by the Electricity Supply Board (ESB), EirGrid assumed control of grid management to foster competition and investment in the sector. As Ireland pursues ambitious renewable energy targets, EirGrid has prioritized grid enhancements to accommodate variable wind and solar generation, notably through the DS3 Programme, which advanced system stability techniques to enable up to 40% instantaneous non-synchronous renewable penetration without compromising reliability. The organization collaborates with SONI, the TSO for Northern Ireland, under the EirGrid Group to operate the all-island Single Electricity Market, facilitating cross-border power flows and coordinated planning out to 2030. EirGrid's projects, however, have encountered substantial resistance, exemplified by protests against overhead pylons for interconnectors like the North-South line, which highlighted tensions between , visual amenity, and landowner rights, ultimately prompting shifts to underground cabling despite elevated expenses.

Overview

Establishment and Mandate

EirGrid plc, a wholly state-owned , was established in 2006 as the independent (TSO) for the , taking operational control of the national high-voltage grid from the Electricity Supply Board (ESB). This handover, originally planned earlier but delayed by five years, implemented Ireland's commitments under directives, separating transmission operations from generation and supply to promote competition and efficiency. The company was incorporated pursuant to the European Communities (Internal Market in Electricity) Regulations 2000 (S.I. No. 445/2000), which transposed Directive 96/92/EC into Irish law to foster an internal energy market. EirGrid's statutory mandate, designated by the Irish Government and regulated by the Commission for Regulation of Utilities (CRU), centers on developing, managing, and operating the to guarantee secure, reliable, and cost-effective supply across . Key responsibilities include real-time balancing of generation and demand, maintaining grid stability and frequency control, and planning infrastructure expansions to accommodate growing integration, with targets such as 80% by 2030. As Market Operator, it jointly administers the all-island Single Electricity Market (SEM) with SONI Ltd—the TSO for , acquired by EirGrid in 2009—overseeing wholesale trading, capacity auctions, and cross-border flows via interconnectors like the East-West link to . The Government has further designated EirGrid as Transmission Asset Owner (TAO) for Ireland's offshore grid, extending its role to submarine cable projects and interconnections, such as the planned Celtic Interconnector .

Organizational Structure and Governance

EirGrid plc operates as a state-owned , with all shares held by the Irish Government via the Department of the Environment, Climate and Communications. As Ireland's , it functions independently from asset ownership but under strict regulatory oversight by the Commission for Regulation of Utilities (CRU), which approves revenue models, investment plans, and compliance with operational standards through periodic price reviews, such as the Price Review 6 framework for 2026–2030 investments exceeding €14 billion. The governance structure follows the for the Governance of State Bodies (2016), prioritizing board independence, accountability, and risk oversight to align with objectives. The , limited to 10 members and appointed by the Minister for the Environment, and Communications for terms up to eight years, establishes the company's strategic direction, values, and purpose while monitoring the Chief Executive's execution of operations. Predominantly non-executive, the board ensures separation from daily management, approves annual budgets and risk frameworks, and conducts performance evaluations, with conflicts addressed via a Directors' . Supporting the board are dedicated committees: the Audit and Risk Committee supervises financial reporting, internal audits, and ; the Committee sets compensation for the Chief Executive and senior executives in accordance with pay policy; the Grid Projects Committee reviews major transmission developments; the Power System and Markets Development Committee advises on operational and market strategies; and the Offshore Committee focuses on submarine grid initiatives. Executive leadership, led by Chief Executive Marley since his appointment, includes key roles such as Chief Governance Officer and Company Secretary Martin Corrigan, Michael Behan, and heads of operations, planning, and commercial functions, reporting directly to the CEO. The broader organizational structure divides into the EirGrid Group, incorporating wholly-owned subsidiary as Northern Ireland's TSO for all-island coordination, with functional departments spanning finance and legal, and , external affairs, system operations, grid development, and market services to execute transmission and balancing. This setup facilitates independent system operation while enabling regulatory and ministerial accountability, including annual reports to the CRU and scrutiny.

Historical Development

Founding and Early Operations (2000–2010)

EirGrid was established as Ireland's independent (TSO) pursuant to the (Internal Market in Electricity) Regulations 2000 (S.I. No. 445/2000), enacted on 8 December 2000 to transpose EU Directive 96/92/EC into Irish law. These regulations mandated the functional separation of operation from , supply, and asset ownership to promote , non-discriminatory third-party access to , and secure supply. EirGrid plc was incorporated as a state-owned under the Companies Acts to fulfill this role, with statutory obligations including system planning, operation, maintenance coordination, and compliance enforcement. In its initial operations from 2001 onward, EirGrid assumed responsibility for real-time management of the high-voltage transmission network (operating at 400 kV, 220 kV, and 110 kV), previously handled internally by the Electricity Supply Board (ESB). This included dispatch of generation, frequency control, voltage regulation, and emergency response, while ESB retained asset ownership and construction duties under a regulated framework. EirGrid developed and implemented the Irish Grid Code, first published in 2000 and revised iteratively, to standardize technical requirements for grid connection, operation, and metering, ensuring system stability amid growing integration of independent power producers. From 2000 to 2010, EirGrid's activities centered on accommodating Ireland's rapid , with demand increasing by approximately 50% over the decade due to , industrialization, and emergence. Key efforts included annual transmission forecasting statements under Section 38 of the Electricity Regulation Act 1999, identifying reinforcement needs such as new 400 kV lines and substations to alleviate constraints in high-load areas like and the southeast. EirGrid initiated planning for major interconnections, including the North-South 400 kV line (development approved in 2007) and the East-West Interconnector to Britain (construction started 2007, targeting 500 MW capacity). In 2007, it co-launched the all-island Single Market (SEM) with Northern Ireland's SONI, facilitating cross-border wholesale trading and market coupling while maintaining separate system operations. These steps addressed supply security challenges, including variable wind generation integration, which rose from negligible levels to over 1,000 MW connected by 2010.

Expansion and Renewable Focus (2011–2020)

In 2011, EirGrid initiated the implementation phase of its Grid25 strategy, a comprehensive plan to upgrade Ireland's electricity transmission grid through reinforcements, new substations, and high-voltage lines to support and connections. The Grid25 Implementation Programme 2011–2016 prioritized over 100 projects, including the development of 400 kV infrastructure in eastern regions and enhancements to accommodate projected demand increases of up to 50% by 2025. This expansion addressed constraints identified in earlier assessments, such as bottlenecks in the and southeast, where limited capacity hindered generator connections. Concurrently, EirGrid launched the DS3 Programme in , titled "Delivering a Secure Sustainable System," in partnership with SONI to integrate higher levels of variable renewable generation while maintaining grid stability. The initiative responded to Ireland's national target of 40% renewable electricity by 2020, focusing on managing non-synchronous sources like wind through enhanced system services, flexibility requirements for conventional plants, and operational tools. By 2016, interim arrangements for 11 system services were procured, with enduring tariffs and performance scalars implemented by 2018 to incentivize generator participation. The DS3 Programme enabled instantaneous renewable penetration to reach 65% by 2018, a milestone for systems dominated by inverter-based generation, through innovations like faster and management. By 2020, renewable sources accounted for 43% of Ireland's , exceeding the 40% target amid challenges from wind variability and limited interconnections. These efforts, supported by the Transmission Development Plan 2012–2022, reinforced grid capacity for renewables while prioritizing security criteria under the European Grid Code.

Recent Developments and Restructuring (2021–Present)

In November 2021, EirGrid published the Shaping Our Electricity Future roadmap, outlining network, market, and operational transformations required to achieve 80% renewable penetration by 2030, building on prior consultations and evolving from an initial target of 70%. This initiative emphasized grid modernization, including enhanced system operations for high renewable integration, such as advanced forecasting, flexibility markets, and management without synchronous generation. The roadmap has since evolved through biennial updates, with SOEF 1.1 refining strategies for the elevated 80% goal amid increasing demand and variable renewable output. EirGrid's Network Delivery Portfolio anticipates over 350 reinforcement and connection projects between 2021 and 2030 to support renewable expansion, with 26 projects energized in 2024 alone, including advancements in the Powering Up Dublin program and North Connacht 110 kV line. In its 2024 annual report, EirGrid recorded a pre-tax profit of €9.8 million, a record peak demand of 5,557 MW, and renewables contributing 41.7% of generation, reflecting accelerated connections of nearly 1.5 GW of new capacity during the year. To facilitate offshore wind scaling, EirGrid announced a €1 billion procurement plan in April 2025 for infrastructure along Ireland's east and south coasts, aligning with broader investments totaling €3.4 billion across the island by 2030, including an additional €236 million in the latest roadmap revision. Regulatory frameworks under the Commission for Regulation of Utilities' PR5 period (2025–2029) have driven operational policy reviews, including multi-year plans for imperfections, constraints, and services, with EirGrid committing to evolve policies on frequency reserves and voltage management to reduce reliance on conventional plants. DSO-TSO coordination has intensified, featuring structured like weekly project meetings to integrate distribution and transmission upgrades. These adaptations address system security amid rising non-synchronous penetration, with EirGrid's 2025/2026 Winter Outlook forecasting improved reliability compared to prior years due to enhanced renewable dispatch and temporary emergency generation.

Core Operations

Transmission System Management

EirGrid, as Ireland's (TSO) established in 2006, holds statutory responsibility for the safe, secure, and economic operation of the high-voltage , including real-time management of power flows from sources to demand centers. This involves continuous monitoring and dispatch instructions to generators and interconnectors to maintain system stability, with EirGrid forecasting and mitigating operational constraints such as transmission limits that could lead to balancing costs recovered via market imperfections charges. Operational control is centralized at the National Control Centres (NCCs) located in and , where teams operate the grid 24 hours a day to balance on a minute-by-minute basis, ensuring frequency stability at 50 Hz and preventing blackouts across the island of . EirGrid issues binding instructions under the Grid Code, which governs connection, operation, and compliance for all connected parties, enforcing standards for power quality, voltage control, and reactive power support to sustain grid integrity during normal and stressed conditions. Transmission system management extends to long-term and development, where EirGrid assesses future capacity needs through documents like the Transmission Development Plan, incorporating reinforcements to accommodate growing renewable generation and demands projected to increase from 5 GW in 2020 to over 8 GW by 2030. In 2021, EirGrid was designated as both operator and asset owner for Ireland's offshore transmission system, overseeing submarine cables and substations to integrate wind projects targeting 5 GW capacity by 2030. To address reliability, EirGrid implements security measures including inertia management from synchronous generators, contingency planning for N-1 security criteria (ensuring no single failure causes outage), and emergency protocols that may involve demand disconnection as a last resort during supply shortages, as demonstrated in historical events like the 2003 Irish blackout where rapid restoration minimized impacts. Recent enhancements include power flow control technologies deployed since 2023 to optimize existing , reducing curtailment of variable renewables by dynamically redirecting flows without new lines.

Market Operations and System Balancing

EirGrid, as Ireland's Transmission System Operator (TSO), jointly operates the Integrated Single Electricity Market (I-SEM) with SONI, the TSO for Northern Ireland, through the Single Electricity Market Operator (SEMO), to facilitate wholesale electricity trading across the island. The I-SEM, which replaced the original Single Electricity Market and fully launched on October 1, 2018, encompasses ex-ante energy markets, including day-ahead auctions operated by SEMOpx—a subsidiary of SEMO—where generators submit bids and offers for energy delivery the following day, closing at 11:00 AM daily. Intraday markets, also managed by SEMOpx, feature three continuous trading auctions per day to allow adjustments closer to real-time delivery, promoting competition and efficient resource allocation while integrating interconnectors like the East-West Interconnector (operational since 2012) and upcoming projects such as Greenlink (2025) and the Celtic Interconnector (expected 2026). System balancing in the I-SEM addresses deviations between scheduled and actual or supply, primarily through the balancing market administered by SEMO, where EirGrid and SONI nominate balancing actions to minimize costs and ensure grid stability. EirGrid's System Operations Centre continuously monitors grid conditions and issues binding dispatch instructions to generators, interconnectors, and demand-side units every minute to resolve imbalances, enforcing compliance with the Grid Code and recovering associated costs via imperfections charges levied on market participants. Participants submit energy offers, bids, and service bids to SEMO up to gate closure (one hour before delivery), after which SEMO selects and dispatches economically efficient actions, with EirGrid prioritizing security over pure market pricing in cases of constraints or emergencies. The Balancing Market Principles Statement (BMPS), jointly prepared by EirGrid and SONI and last updated in August 2025 (version 9.0), outlines objectives such as achieving efficient balancing at least cost, providing price signals for flexibility, and accommodating renewables through mechanisms like the DS3 Programme, which procures ancillary services for frequency control and to handle . Under DS3, EirGrid has expanded procurement of fast-response services, enabling up to 75% instantaneous renewable penetration as of 2023, with targets rising to 95% by 2030 via enhanced market incentives for battery storage and . Balancing costs, including those from operational constraints, are forecasted and socialized across the system, with EirGrid responsible for their management to prevent undue burdens on consumers.

Interconnections and Cross-Border Coordination

EirGrid manages key electricity interconnectors linking the Republic of Ireland's grid to , facilitating cross-border power flows for and market integration. The East-West Interconnector (EWIC), a 500 MW (HVDC) operational since 2012, spans approximately 260 km from Woodland in , Ireland, to Deeside in , . Owned by EirGrid Interconnector DAC, it enables bidirectional electricity exchange, supporting import of up to 500 MW during and export of surplus renewable generation. The Moyle Interconnector, another 500 MW HVDC link operational since 2001, connects to western but is coordinated by EirGrid alongside SONI for all-island impacts. This 63 km subsea cable from Ballycronan More, , to Auchencrosh allows to import power from the larger British grid, with EirGrid and SONI jointly managing ramp rates and outage responses to maintain synchronous area stability. In April 2025, the Greenlink Interconnector—a 500 MW HVDC cable of 190 km—entered operation, linking Poolbeg in to Pembroke in , further enhancing capacity to 1,500 MW total between and and enabling greater renewable exports. Looking ahead, the Celtic Interconnector, a planned 700 MW HVDC link to , will connect East Cork, , to in , , via a 575 km route, with marine cable laying commencing in October 2025 and full operation targeted for 2027. Jointly developed by EirGrid and RTE, it aims to integrate into the broader European grid for diversified imports and enhanced security, funded partly by mechanisms. Cross-border coordination involves operational protocols with SONI, the TSO, and National Grid Electricity Transmission (NGET) in the UK to enable efficient trading and balancing. Under the Single Electricity Market (SEM), EirGrid and SONI implement Business Process Specification (BPS) SO 11.2 for cross-border balancing trades across EWIC and Moyle, allowing real-time adjustments via coordinated third-party mechanisms to optimize flows and minimize costs. They jointly adhere to Load Frequency Control Block Operational Agreements, limiting aggregate ramp rates to 10 MW/min to preserve and stability. EirGrid collaborates with NGET on Coordinated Security Analysis (CSA) methodologies, as mandated by ACER, to assess capacity and risks across interconnectors, with draft proposals developed in 2023-2024. Membership in Coreso since 2017 supports regional coordination for adequacy and security, while future Celtic ties will extend protocols to RTE under ENTSO-E frameworks. These efforts prioritize empirical grid data for dispatch decisions, ensuring reliability amid variable renewables without assuming source neutrality in market projections.

Technical Framework

Grid Infrastructure and Assets

EirGrid manages Ireland's high-voltage electricity transmission system, which interconnects power generation facilities with distribution networks and major centers. The network operates primarily at 400 kV for the main inter-regional backbone, supplemented by 220 kV and 110 kV circuits for sub-transmission and regional . This infrastructure consists of overhead lines, underground cables, and substations equipped with transformers and to step down voltages and enable power flow control. Onshore assets, totaling approximately 9,500 km of transmission lines excluding certain Dublin-area 110 kV circuits, are owned by ESB Networks as the transmission asset owner, with EirGrid responsible for operation, planning, and development. The includes nearly 300 substations and over 6,800 km of circuits, predominantly overhead lines spanning 6,700 km, facilitating bulk power transfer across the . Recent enhancements, such as uprating 152 km of circuits, aim to increase capacity for growing demand and renewables without full reconstruction. Since December 2021, EirGrid has assumed ownership of offshore transmission assets as part of the Offshore Electricity Grid designation, including submarine cables, offshore platforms, and export cables to onshore substations. These assets support emerging projects, such as those awarded under the ORESS 1 in May 2023, which secured 3,074 MW of capacity requiring dedicated high-voltage (HVAC) or (HVDC) links.

Grid Code, Standards, and Compliance

The Grid Code establishes the technical and operational rules for connecting to, operating, and maintaining Ireland's electricity transmission system, ensuring its security, reliability, and efficient development. Issued by EirGrid as the transmission system operator (TSO), it specifies requirements for generators, users, and other connected parties, including performance standards for frequency control, voltage regulation, and fault ride-through capabilities. The code aligns with European directives, incorporating elements from the Requirements for Generators (RfG), Demand Connection Code (DCC), and High Voltage Direct Current (HVDC) guidelines to facilitate cross-border interoperability. Key standards within the Grid Code mandate compliance for conventional generation units and power park modules (PPMs), such as and solar farms, requiring capabilities like active , reactive power support, and synthetic provision to address low- conditions from high renewable penetration. For PPMs with registered capacity of 5 MW or more, EirGrid and the distribution system operator (DSO) enforce joint testing protocols to verify grid-forming abilities and system services delivery. Transmission policies further define acceptable standards for new connections, including conductor ratings, substation designs, and schemes, to minimize outages and support capacity expansion. Compliance is verified through rigorous testing regimes, including pre-connection simulations, factory tests, and on-site commissioning trials, with non-compliant units barred from operation until rectified. EirGrid oversees services testing for ancillary provisions like fast and ramping capabilities, essential for balancing in a renewables-heavy grid. The Commission for Regulation of Utilities (CRU) regulates enforcement, approving modifications proposed via a panel involving stakeholders, with Version 13 effective from January 30, 2024, reflecting updates for enhanced resilience.

System Security, Inertia, and Reliability Measures

EirGrid maintains system security through adherence to the Grid Code, which mandates Security Planning Standards, ensuring the network withstands credible contingencies such as the loss of the largest generating unit or (N-1 criterion) while preserving supply to customers. These standards incorporate deterministic reliability criteria, including and voltage limits, with EirGrid required to plan for secure operation under normal and post-disturbance conditions as outlined in Grid Code section PC.7. To address declining system from the displacement of synchronous generators by inverter-based renewables, EirGrid has deployed s, which provide rotational without active power generation. The Moneypoint , commissioned in 2022, delivers 4,000 megawatt-seconds (MWs) of alongside reactive power support and fault level contribution. In November 2024, EirGrid awarded contracts for additional s totaling 6,963 MVA-seconds of , enhancing stability in low- scenarios where renewable penetration can exceed 75%. Complementary measures include the Delivering a Secure Sustainable (DS3) Programme, which procures system services like fast and augmentation to enable secure operation at high renewable levels, achieving 75% instantaneous penetration by 2022. Reliability is bolstered by mandatory frequency control reserves, including primary, secondary, and tertiary reserves, which EirGrid dispatches to restore deviations within specified bands (e.g., 49.5–50.5 Hz under normal conditions). The Low Carbon Inertia Services (LCIS) framework, launched in 2023, incentivizes non-synchronous sources such as batteries to emulate through rapid power adjustments, with procurements ensuring minimum thresholds during peak renewable output. Ongoing system studies under the Shaping a System Fit for 2040 initiative refine operational metrics like System Non-Synchronous Penetration (SNSP) limits and minimum floors, while black-start protocols enable grid restoration from using designated units. These measures collectively mitigate risks of , with EirGrid and SONI continuously assessing supply security amid variable renewable integration.

Renewable Integration and Energy Transition

Strategies for High Renewable Penetration

EirGrid's strategies for high renewable penetration center on enhancing system flexibility and stability to accommodate variable non-synchronous generation from and solar, which currently lack the inherent and dispatchability of conventional synchronous plants. The DS3 Programme, initiated to meet Ireland's 40% renewable electricity target by 2020, procures specialized system services—such as primary control, fast post-fault active power recovery, and reactive power—via competitive tenders to mitigate risks from and low . This has enabled instantaneous non-synchronous penetration of up to 75%, a level achieved as a world first by March 2022, up from 50% previously, while maintaining and voltage within secure limits. To push toward a 95% instantaneous renewable limit by 2030, EirGrid integrates low-carbon alternatives to traditional sources, including synchronous condensers that emulate the physical properties of rotating generators without . In November 2024, four contracts were awarded for such installations in Counties Sligo, Kerry, Galway, and Wexford, collectively delivering 6,963 MVA.s of synchronous , alongside reactive power and short-circuit contributions, with operational start targeted for 2027–2028. These reduce the minimum synchronous requirement from 5 units to 4, with further planned reductions by 2027–2028, allowing greater displacement of gas-fired generation during high renewable output periods. Grid reinforcement forms another pillar, involving targeted upgrades to transmission infrastructure—such as new overhead lines, substations, and underground cables—to minimize curtailment and facilitate renewable connections, as outlined in the Shaping Our Electricity Future framework aiming for 80% renewable electricity by 2030. Enhanced cross-border interconnections, including the existing 500 MW East-West Interconnector with and planned expansions, enable export of surplus and import of balancing power during low-generation events. Complementary measures incorporate demand-side response, where industrial loads adjust consumption in real-time, and emerging battery storage to provide rapid-response reserves, collectively addressing variability without over-reliance on backup thermal capacity. These approaches, evolved from DS3 into successor frameworks like FASS for enduring service procurement, prioritize empirical testing of stability limits through operational trials.

Key Initiatives and Technologies

EirGrid's DS3 Programme, launched in , establishes a framework for procuring system services to maintain grid stability amid increasing renewable penetration, enabling secure operation with up to 75% instantaneous renewable output as of 2020, with targets to reach 95% by 2030. The programme emphasizes technologies such as synthetic from turbines, primary control, and ramping capabilities from variable renewables, procured through competitive tenders to address without relying on traditional fossil fuel-based reserves. In offshore renewable development, EirGrid's Powering Up Offshore - South Coast initiative, announced in 2023, plans to construct offshore substations and undersea cables to connect up to 5 GW of fixed-bottom capacity off Ireland's southeast coast by the early 2030s, supporting national targets for 5 GW offshore by 2030. This includes marine surveys commencing in July 2025 for geotechnical and environmental data, alongside a €1 billion procurement for substations and high-voltage (HVAC) cables, integrated with onshore grid reinforcements. The Celtic Interconnector project, a 320 kV high-voltage direct current (HVDC) submarine cable linking Ireland to France, set for commissioning in 2027, facilitates renewable energy export and import to balance variability, with a capacity of 700 MW and annual exchange potential of up to 2 TWh. Complementing this, EirGrid's Shaping Our Electricity Future roadmap outlines technologies like advanced forecasting for wind and solar, dynamic line rating for existing infrastructure, and battery energy storage system integration to achieve 80% renewable electricity by 2030, incorporating over 22 GW of new capacity including 8.4 GW solar and 3 GW storage. Additional technologies under EirGrid's innovation efforts include fast-acting system services evolving from DS3, such as voltage control and capabilities from renewables, with the 2024 highlighting awards for system integration advancements in congestion management and renewable dispatch.

Challenges in Intermittency and Dispatch

The intermittency of renewable sources such as and solar photovoltaic poses significant operational challenges for EirGrid, as their output fluctuates unpredictably with weather conditions, complicating real-time supply-demand balancing on the Irish transmission system. This variability necessitates advanced tools and rapid response mechanisms, yet inaccuracies in predictions—stemming from meteorological uncertainties—can lead to either excess requiring curtailment or shortfalls demanding immediate dispatch of backup capacity. In 2023, experienced dispatch down equivalent to 10.7% of its available energy, reflecting the system's struggle to absorb variable output without compromising stability. Dispatch challenges arise primarily from the priority dispatch status of renewables under Irish regulations, which mandates their utilization before conventional sources, but grid constraints often force EirGrid to curtail excess production to prevent overloads or voltage issues. Constraint-related dispatch down across the all-island reached 6.1% of in 2023, up from 5.0% the prior year, driven by transmission limitations and rising renewable penetration. By 2024, overall renewable dispatch down climbed to 8.8%, with solar curtailment in more than doubling year-over-year to peaks of 11.2% in certain months, underscoring the escalating pressure from solar variability and insufficient grid flexibility. These curtailments, compensated to generators, represent economic losses and inefficient resource use, as curtailed energy could otherwise contribute to but is instead "dispatched down" for security. Compounding intermittency is the non-synchronous nature of inverter-based renewables, which provide minimal inherent inertia compared to traditional synchronous generators, heightening risks of frequency instability during sudden imbalances. EirGrid has progressively raised system non-synchronous penetration limits to 75% from 50% over the past decade to integrate higher renewables, but this demands compensatory measures like fast frequency response services and synchronous condensers to emulate inertia and maintain reliability. Low-inertia conditions amplify the dispatch complexity, as rapid wind ramps or solar drops require instantaneous adjustments that gas-fired plants—still key for flexibility—must provide, though their phasing aligns with decarbonization goals exacerbates backup shortages during prolonged low-renewable periods. Ongoing procurement of inertia-mimicking technologies, including four synchronous condenser contracts awarded in 2024, aims to address these gaps, yet sustained high variability forecasts indicate persistent dispatch risks without expanded storage or interconnections.

Achievements and Economic Impact

Milestones in Grid Performance and Renewables

The DS3 (Delivering a Secure Sustainable ) programme, initiated in 2011, marked a foundational in enhancing grid performance to accommodate higher renewable penetration, developing services and operational tools that enabled non-synchronous generation—primarily wind—to integrate without compromising stability. By 2018, EirGrid achieved a world-first instantaneous non-synchronous penetration of 65%, primarily from wind, demonstrating grid management through innovative services like active power control and synthetic . Subsequent advancements built on this foundation, with instantaneous renewable penetration reaching 70% in 2021 and a landmark 75% in March 2022—the first global instance of operating an interconnected system at such levels while maintaining stability and avoiding curtailment beyond operational norms. This trial underscored EirGrid's progress in system services procurement, including fast and ramping capabilities, which mitigated risks. By 2020, the programme met its initial target of 40% annual renewable , actually delivering 43%, and supported overall grid reliability with transmission availability exceeding 99.5% in subsequent years. In 2023, renewables accounted for 42% of Ireland's consumption, reflecting sustained integration amid growing variable output, while EirGrid's metrics—covering availability, security, and —outperformed 75% of European TSO peers. For the fiscal year ending September 2024, renewable share stood at 41.7%, bolstered by grid enhancements like synchronous condensers, with four contracts awarded in November 2024 to provide and short-circuit power for higher renewable scenarios. A solar generation record of 750 MW was set in 2025, advancing toward the 80% renewable target by 2030 without reported stability incidents. These milestones, validated through operational trials and peer-reviewed system analyses, highlight EirGrid's causal focus on augmentation and to counter renewable variability, enabling Ireland's grid to operate securely at penetration levels unattainable a decade prior. International recognition followed in 2023 for DS3-derived technologies that facilitated all-island renewable dispatch.

Contributions to Ireland's Energy Security and Economy

EirGrid enhances Ireland's energy security by managing the high-voltage transmission grid to integrate variable renewable sources, enabling the system to operate with up to 80% renewable electricity by 2030 while maintaining reliability amid intermittency. This includes deploying technologies like synchronous condensers to provide grid inertia and stability, as evidenced by contracts awarded in November 2024 for such equipment to support high renewable penetration. Additionally, the Celtic Interconnector project, a high-voltage direct current link to France set for completion by the late 2020s, will deliver up to 1,500 MW of import/export capacity, directly bolstering security of supply by diversifying sources beyond gas imports during disruptions. Government allocations underscore EirGrid's role, with €3.5 billion committed in Budget 2026 to ESB and EirGrid for grid reinforcement, explicitly aimed at strengthening and accelerating renewable deployment. These efforts build on prior resilience assessments, such as the 2018 EirGrid and Gas Networks Ireland study evaluating gas disruption scenarios, which informed strategies to mitigate supply risks in an island system historically vulnerable to single-fuel dependencies. Economically, EirGrid's multi-billion euro investment programs in transmission infrastructure drive job creation and regional development, as seen in initiatives like Powering Up the North West, which includes new 220 kV circuits to support industrial growth and attract investment in underserved areas. By facilitating renewable connections—such as 900 MW from offshore wind on the south coast—EirGrid enables lower long-term energy costs and supports high-demand sectors like data centres, which consumed nearly 25% of Ireland's electricity in recent years, contributing to GDP through tech exports despite straining capacity. The National Development Plan's emphasis on transmission funding, welcomed by EirGrid in July 2025, highlights how grid upgrades underpin broader economic resilience by averting supply shortages that could otherwise halt manufacturing and services.

Controversies and Criticisms

Public Opposition to Infrastructure Projects

Public opposition to EirGrid's infrastructure projects has primarily centered on proposed overhead high-voltage transmission lines and substations required for grid reinforcement and integration, with protesters citing visual blight, potential health risks from electromagnetic fields (EMFs), property value depreciation, and disruption to farmland. campaigns, often led by affected landowners and rural communities, have mobilized thousands through petitions, sit-ins, and blockades, arguing that underground cabling—though more expensive—is feasible and preferable to pylons spanning hundreds of kilometers. The North-South Interconnector, a 138 km 400 kV project costing approximately €350 million to link Ireland's and Northern Ireland's grids, has encountered sustained resistance since planning began in the early , including over 100 landowners in protesting compulsory land acquisition and environmental impacts. Despite An Bord Pleanála approval and Supreme Court upholding of permissions, the project faced a fresh legal challenge in April 2025 from local groups in and Tyrone over pylon construction across 34 km, potentially delaying energization beyond initial 2024 targets. Protests escalated with blockades and judicial reviews, reflecting 97% landowner opposition in some areas, though EirGrid maintains are essential for technical and cost reasons. Similarly, the Grid Link project, aimed at a 400 kV connection from in Wexford to in , drew over 35,000 public submissions during consultations, leading to its partial shelving in favor of underground alternatives after community outcry in Waterford, Laois, and Kildare. Opposition groups like South East Pylon Protest highlighted farming disruptions and scenic despoilment, prompting government intervention for feasibility studies on cabling. The related Grid West initiative, connecting Mayo to , was abandoned in 2017 following analogous protests and 38,000 consultation responses rejecting overhead options. More localized actions include a 2023 blockade by landowners at the Coolnabacky 400 kV substation site near , Laois, halting construction amid claims of inadequate consultation, and earlier 2010 protests in Rush, County Dublin, against an interconnector cable route. These disputes have delayed EirGrid's Grid25 program, originally targeting 2025 completion, by years and increased costs, with critics attributing persistence to perceived deficiencies in early public engagement despite later reforms like dedicated teams established in 2021. Political figures have echoed concerns, amplifying rural discontent over urban-centric renewable priorities.

Regulatory Disputes and Procurement Failures

In August 2022, EirGrid publicly criticized the Commission for Regulation of Utilities (CRU) procurement system for new electricity generation capacity as a "failure" and "not fit for purpose," arguing that it had repeatedly failed to deliver required projects despite EirGrid's warnings and requests for intervention. The operator highlighted that market mechanisms under CRU oversight had not attracted sufficient investment in power plants, contributing to persistent supply shortfalls projected through the decade, with EirGrid having escalated concerns to the CRU since at least 2016 without adequate response. A key procurement lapse involved EirGrid's failure to acquire emergency backup generators as directed by the CRU, despite explicit orders to mitigate winter blackout risks; this omission, revealed in 2022, left vulnerable to supply disruptions amid rising demand from data centers and . Regulatory tensions escalated in grid connection auctions, where in late 2024, EirGrid excluded three companies bidding on projects worth €1 billion—comprising gas plants and a battery storage facility—from participation without providing reasons, prompting lawsuits against EirGrid and the CRU in January 2025 for alleged procedural unfairness and blocking viable capacity additions. Further disputes arose over contract enforcement, as in October 2025 when Shannon LNG obtained a against EirGrid and the CRU to halt demands for €10.6 million in performance security related to a project, stemming from allegations of default under a 2013 agreement amid delays in grid connection approvals. These incidents reflect broader regulatory friction, including CRU determinations on compensatory payments for curtailed renewable output only from the 2024/2025 period, which EirGrid and generators contested as insufficient to incentivize investment amid connection bottlenecks. Historical precedents, such as a 2013 threat of legal action by Lumcloon Energy against EirGrid for potential breaches of in power plant tendering, underscore recurring challenges in aligning rules with timely infrastructure delivery.

Northern Ireland Demerger and Operational Conflicts

In 2009, EirGrid plc acquired SONI Limited, the for , integrating it into the EirGrid Group structure to facilitate coordinated operation of the all-island electricity system under the Single Electricity Market (SEM). This arrangement allowed joint management of grid operations, including dispatch and planning, but raised concerns over SONI's independence as all board members were appointed by EirGrid, potentially limiting accountability to consumers. The Utility Regulator (UR) for , tasked with protecting local consumers, initiated a review of SONI in July 2019, culminating in a statutory consultation in 2022. On August 30, 2022, UR decided to modify SONI's (TSO) licence via new Condition 42, effective October 26, 2022, mandating a of sufficiently independent directors (SIDs) on SONI's board by June 1, 2023, and requiring managerial and operational separation from EirGrid by December 1, 2024, unless a was approved. The modifications aimed to address a "" in , where integrated structures obscured cost allocation, staff resources, and policy priorities, risking biases toward interests—such as higher charges for consumers or misaligned SEM participation—without evidence of actual overcharging but based on structural vulnerabilities. EirGrid and SONI contested the changes, arguing no demonstrable conflicts of interest or harm had occurred since integration, with EirGrid having invested £458 million in SONI to support operations amid financial losses. They highlighted the benefits of shared expertise for all-island challenges like renewable integration, claiming UR's proposals were unbalanced, unclear, and costly—potentially £100 million for IT separation alone—while failing to account for efficiencies in joint operational policies, such as the 2022 Operational Policy Roadmap for 2030. Operational conflicts under the prior structure were primarily perceived rather than realized, centering on risks in TSO coordination: for instance, integrated management could obscure -specific needs in dispatch constraints or grid planning, potentially complicating SEM balancing amid differing regulatory pressures post-Brexit. Despite this, EirGrid and SONI maintained collaborative dispatch via control centers and joint reports on system margins, with no documented instances of dispatch failures attributed to governance overlaps. The process, initiated in January 2023 with consultant procurement for design and implementation, requires separate premises, IT systems, and staff for SONI, alongside agreements for ongoing inter-TSO functions, though applications were permitted until November 30, 2023. As of September 2023, separation efforts continued in compliance, with potential annual cost impacts of £7-£8 per consumer from enhanced governance measures. The changes carry "significant implications" for the SEM, as separation could strain all-island coordination in areas like flows and renewable dispatch, though UR emphasized benefits for regulatory oversight and Northern Ireland's autonomy. EirGrid has not divested ownership but focused on operational , preserving strategic alignment while addressing UR's mandate to mitigate asymmetric information and ensure SONI's board effectively represents local stakeholders.

Future Outlook

Shaping Our Electricity Future Roadmap

The Shaping Our Electricity Future Roadmap outlines EirGrid's to adapt Ireland's electricity transmission system for increased renewable integration, targeting 80% renewable electricity generation by 2030 as mandated by the government's Climate Action Plan. Initially developed for a 70% renewable target under the 2021 Climate Action and Low Carbon Development (Amendment) Act, the roadmap was revised upward in response to accelerated decarbonization policies, emphasizing a decade-long of system operations, grid reinforcements, and market mechanisms to handle surplus renewables and intermittency. Core components focus on enhancing grid flexibility through technologies and operational shifts inherited from the DS3 Programme, which achieved its secure operation targets for variable renewables by 2020 and exceeded them by 2022, setting the foundation for 2030 requirements. This includes dynamic grid management to curtail excess renewable output during high-generation periods, projected to reach up to 8 GW of surplus by 2030, alongside incentives for demand-side response and storage integration. Network expansions prioritize onshore and offshore wind development, with plans for 5 GW of offshore wind capacity by 2030 plus an additional 2 GW allocated for to export surplus . Market evolution recommendations in version 1.0 advocate for reformed pricing signals, capacity auctions, and zonal locational marginal pricing to optimize dispatch and incentivize generation siting, such as directing data centers to western and southern regions with abundant wind resources. The roadmap supports a 56% reduction in energy-related emissions by 2030 as a pathway to net-zero by 2050, incorporating benefits like micro-generation and post-project to facilitate acceptance. An advisory council, established for stakeholder input, reviews progress on these elements, including public consultations launched in 2021 to refine implementation amid delays in prior grid projects like those under the Grid25 strategy. Jointly developed with SONI for all-island coordination, it underscores the need for interconnectors and regulatory alignment to maintain security during peak renewable curtailment scenarios.

Projected Challenges and Risks

EirGrid's projections indicate a 45% rise in demand from 2023 levels by 2034, driven primarily by of heating via heat pumps (projected to increase from 3% penetration in 2025 to 10% by 2034) and transportation through electric vehicles (from 1% to 8% over the same period), alongside sustained growth from data centers. is expected to grow by 24%, exceeding 7,000 MW by 2034 compared to 6,024 MW recorded in 2025. This demand surge poses risks to supply adequacy, with tight balances anticipated: shortfalls requiring emergency in 2025–2027, a 600–800 MW gap under challenging conditions from 2028–2032, and additional 100–1,000 MW capacity needs by 2032–2034 across scenarios. Achieving adequacy will necessitate capacity market auctions and a diversified mix, including gas-ready plants for flexibility, as renewables alone cannot guarantee dispatchable supply during periods of low or solar output. Integrating 80% renewable electricity by 2030 under the Shaping Our Electricity Future roadmap introduces technical risks, particularly from and reduced system due to the displacement of synchronous generators by inverter-based renewables like and solar. Low heightens frequency instability risks, including rapid rates of change of frequency (RoCoF), necessitating new services such as synthetic and fast , for which EirGrid has awarded contracts to low-carbon projects as of November 2024. Infrastructure expansion to support renewables faces delays from regulatory hurdles, supply chain constraints, and public opposition to overhead lines and substations, potentially exacerbating curtailment of renewable output and increasing reliance on fossil fuels during transitions. Economic risks include elevated electricity prices from grid reinforcements and balancing costs, compounded by the need for battery storage and interconnectors like the Celtic Interconnector to mitigate short-term gaps.

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  142. https://communitypower.ie/shaping-our-electricity-future-roadmap/
  143. https://www.eirgrid.ie/shaping-our-electricity-future-advisory-council
  144. https://consult.eirgrid.ie/ga/node/1274?language=ga
  145. https://www.eirgrid.ie/news/new-eirgrid-analysis-examines-balance-between-electricity-demand-and-supply-ireland-over-10
  146. https://www.gardiner.com/marketintel/powering-the-future-modernising-irelands-energy-infrastructure
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