Decision on the Final Project Assessment of the Viking Link Interconnector to Denmark

Total Page:16

File Type:pdf, Size:1020Kb

Decision on the Final Project Assessment of the Viking Link Interconnector to Denmark Decision on the Final Project Assessment of the Viking Link interconnector to Denmark Publication date: 30 September Contact: Iqra Latif and Andrew Martin 2020 Team: Interconnectors Tel: 0141 341 3957 Email: [email protected] This document provides our final position on the Final Project Assessment (FPA) of the Viking Link interconnector to Denmark. This includes our provisional determination of the cap and floor levels for the project, which will apply to National Grid Viking Link Limited’s 50% share of the interconnector. Decision - Final Project Assessment of the Viking Link interconnector to Denmark © Crown copyright 2020 The text of this document may be reproduced (excluding logos) under and in accordance with the terms of the Open Government Licence. Without prejudice to the generality of the terms of the Open Government Licence the material that is reproduced must be acknowledged as Crown copyright and the document title of this document must be specified in that acknowledgement. Any enquiries related to the text of this publication should be sent to Ofgem at: 10 South Colonnade, Canary Wharf, London, E14 4PU. Alternatively, please call Ofgem on 0207 901 7000. This publication is available at www.ofgem.gov.uk. Any enquiries regarding the use and re-use of this information resource should be sent to: [email protected] 2 Decision - Final Project Assessment of the Viking Link interconnector to Denmark Contents Executive summary ....................................................................................... 4 Background and scope .............................................................................................. 4 What our assessment shows ...................................................................................... 4 Next steps ............................................................................................................... 6 1. Introduction .............................................................................................. 7 What are we making a decision on? ............................................................................ 7 Structure of this document ........................................................................................ 8 Related publications .................................................................................................. 9 2. Background ............................................................................................. 10 Project overview ..................................................................................................... 10 Our cap and floor regime .......................................................................................... 11 3. Cost assessment ..................................................................................... 14 Scope of our cost assessment ................................................................................... 14 Our view on Viking Link’s submitted costs .................................................................. 15 Assessment of firm devex costs ............................................................................. 17 Assessment of firm and estimated capex costs ........................................................ 17 Tender processes and main EPC contracts award ..................................................... 19 Firm and estimated capex components ................................................................... 19 Assessment of capex risk costs .............................................................................. 22 Assessment of post-construction costs .................................................................... 23 4. Annual reporting and our Post Construction Review ............................... 24 Annual reporting ..................................................................................................... 24 Scope of the Post Construction Review ....................................................................... 25 Timing of the Post Construction Review ...................................................................... 25 5. Other aspects of our Final Project Assessment........................................ 27 Cap and floor financial model .................................................................................... 27 Technical assessment .............................................................................................. 28 Availability incentive ................................................................................................ 28 Force majeure request ............................................................................................. 30 Appendices .................................................................................................. 31 Appendix 1 – Regime summary for Viking Link ........................................... 32 Appendix 2 – Risk-related eligibility at the PCR .......................................... 36 3 Decision - Final Project Assessment of the Viking Link interconnector to Denmark Executive summary Electricity interconnectors can provide significant benefits to GB energy consumers. We1 confirmed our cap and floor regulatory regime in 2014, to provide a clear and transparent regulatory approach for the development of new electricity interconnector projects between GB and other countries. This aims to incentivise commercial investment in interconnectors where it stands to benefit consumers. This decision provides our position on the Final Project Assessment (FPA) of the Viking Link interconnector to Denmark. The Viking Link project is being jointly developed by National Grid Viking Link Ltd (NGVL)2 and by Energinet, the Danish transmission system operator (TSO). Background and scope The Viking Link project is a 1.4GW electricity interconnector between Bicker Fen in Lincolnshire, Great Britain (GB) and Revsing in South Jutland, Denmark. Our cap and floor regime applies to National Grid’s 50% share of the Viking Link project. The cap and floor regime is the regulated route for interconnector development in GB. There are three main stages to our cap and floor regime – the Initial Project Assessment (IPA), the FPA and the Post Construction Review (PCR). We assessed the needs case for the Viking Link project at the IPA stage and decided in July 20153 to grant the project a cap and floor regime in principle. This was based on the expected net benefits of a 1GW interconnector over a 25- year period, which were projected to be circa £2.5bn to GB consumers (in 2019/20 prices). In 2016, NGVL notified us that they planned to increase the capacity of the interconnector from 1GW to 1.4GW. We published updated analysis4 in July 2017, which projected circa £5.2bn in consumer welfare (in the base case) as a result of the increased capacity (in 2019/20 prices).5 This document sets out our final position on the FPA of the Viking Link interconnector. We present our view on Viking Link’s proposed costs and the resulting update to the project’s cap and floor levels. What our assessment shows The cap and the floor levels are set based on building blocks of development costs, capital costs, operating costs, replacement costs, decommissioning costs, tax and allowed return. 1 The terms “Ofgem” and “the Authority,” “we” and “us” are used interchangeably in this document. 2 “NGVL” and “Viking Link” are used interchangeably in this document. 3 Decision on the Initial Project Assessment of the FAB Link, IFA2 and Viking Link interconnectors. 4 Cap and floor regime: An update on ‘Window 1’ interconnector projects. 5 The updated analysis took into account updated market conditions and Window 1 projects only. 4 Decision - Final Project Assessment of the Viking Link interconnector to Denmark NGVL submitted the incurred and forecasted project costs to Ofgem in December 2019. We have assessed whether or not these costs are economic and efficient and have concluded that the majority of the project’s firm costs are reasonable. We have considered the procurement process that was followed for the major contracts (primarily the cable and converters), and decided that this was competitive and generally efficient. The provisional cap and floor levels set out within this decision include a provisional value to cover project risks and uncertainties. This reflects an economic and efficient estimate for the additional costs likely to be incurred by Viking Link between the FPA and the PCR. We will undertake a detailed assessment of any cost changes since the FPA as part of our PCR, and we will update our final cap and floor levels to reflect our economic and efficient allowance for such cost changes. Based on our assessment, we have set Viking Link’s development and capital costs at £786.7m, a reduction of approximately 4% from the submitted £817.8m.6 As part of this decision we have confirmed the financial parameters that will apply to the Viking Link project. These are based on methodologies set out in our cap and floor regime policy. The financial parameters have predominantly been set based on the date of Viking Link’s final investment decision (26 September 2018). We have also decided to set a target of 93.4% for Viking Link’s availability incentive, based on our review of the project’s technical design. The cap level can increase or decrease by up to 2% based on performance against this target. Our provisional cap and floor levels are £111.5m and £61.7m respectively, based on our allowed costs and relevant financial parameters
Recommended publications
  • Total Length = Approximately 760 Km 1400 MW (1.4 GW) Capacity Operational in 2022
    Welcome to Viking Link Viking Link is a proposed 1400 MW high voltage direct current (DC) electricity link between the British and Danish transmission systems connecting at Bicker Fen substation in Lincolnshire and Revsing in southern Jutland, Denmark. Viking Link will allow electricity to be exchanged between Great Britain and Denmark. Total length = approximately 760 km 1400 MW (1.4 GW) capacity Operational in 2022 GB GB The project is being jointly developed between National Grid Viking Link Limited and Energinet.dk. National Grid Viking Link Limited (NGVL) is a wholly owned subsidiary of National Grid Group and is legally separate from National Grid Electricity Transmission Plc (NGET) which has the licence to own and operate the high voltage electricity transmission system in England and Wales. Energinet.dk is an independent public enterprise owned by the Danish state as represented by the Ministry of Energy, Utilities and Climate. It owns, operates and develops the Danish electricity and gas transmission systems. CONTACT US e [email protected] t 0800 731 0561 w www.viking-link.com Why we are here Thank you for coming to this public consultation event about our proposals for Viking Link. The project is at an early stage and the impact of any proposals on local people and the environment will be carefully considered as we develop our project. We intend to apply for planning permission for the British onshore works through the local planning process and we will consult and listen carefully to local communities as we develop our plans. Today we would like to introduce the project and explain what we want to build.
    [Show full text]
  • Requirements for Interconnection of HVDC Links with DC-DC Converters
    Requirements for interconnection of HVDC links with DC-DC converters Daniel Gomez A., Juan Paez, Marc Cheah-Mane, Jose Maneiro, Piotr Dworakowski, Oriol Gomis-Bellmunt, Florent Morel To cite this version: Daniel Gomez A., Juan Paez, Marc Cheah-Mane, Jose Maneiro, Piotr Dworakowski, et al.. Re- quirements for interconnection of HVDC links with DC-DC converters. IECON 2019 - 45th Annual Conference of the IEEE Industrial Electronics Society, Oct 2019, Lisbon, Portugal. pp.4854-4860, 10.1109/IECON.2019.8927640. hal-02432353 HAL Id: hal-02432353 https://hal.archives-ouvertes.fr/hal-02432353 Submitted on 8 Jan 2020 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Requirements for interconnection of HVDC links with DC-DC converters Daniel Gómez A. Juan D. Páez Marc Cheah-Mane Jose Maneiro SuperGrid Institute SuperGrid Institute CITCEA-UPC SuperGrid Institute Villeurbanne, France Villeurbanne, France Barcelona, Spain Villeurbanne, France https://orcid.org/0000-0002- https://orcid.org/0000-0002- https://orcid.org/0000-0002- https://orcid.org/0000-0002- 5647-0488 8712-3630 0942-661X 5717-6176 Piotr Dworakowski Oriol Gomis-Bellmunt Florent Morel SuperGrid Institute CITCEA-UPC SuperGrid Institute Villeurbanne, France Barcelona, Spain Villeurbanne, France https://orcid.org/0000-0002- https://orcid.org/0000-0002- https://orcid.org/0000-0003- 6893-0103 9507-8278 3098-7806 Abstract— The number of high voltage direct current (HVDC) links continue to increase over the years, most of them, for offshore applications or bulk power transmission over long distances.
    [Show full text]
  • Interconnectors
    Connecting for a smarter future How interconnectors are making energy better for consumers Benefiting customers today Stronger links for and tomorrow a smarter future Interconnectors are making energy more secure, affordable Interconnectors are transmission cables that allow and sustainable for consumers across Great Britain (GB) electricity to flow freely between markets. They are at and Europe. And they are set to deliver much more. the heart of the transition to a smarter energy system. Tomorrow’s energy will be cleaner, more flexible and more responsive to the individual needs of consumers. To efficiently deliver the energy system of tomorrow, European countries are working together to maximise the potential of technologies £3 billion investment like battery storage, wind and solar power. Interconnectors Since 2014, over £3 billion has been invested in 4.4 GW of new enable smarter energy systems to react quickly to changes interconnector capacity, which will more than double the existing in supply and demand, ensuring renewable energy flows capacity between GB and continental Europe by the early 2020s. from where it is being generated in large quantities, to where it is needed most. Consumers benefit from interconnectors because they open the door to cheaper energy sources and Power for 11 million homes help GB build a smarter energy system. 4.4 GW of capacity provides access to enough electricity to power National Grid recognises 11 million homes. While the future relationship between GB and the EU the challenges that remains unclear, we are confident that we will continue Brexit poses. However, to trade electricity across interconnectors. It is in the best interests of all consumers for GB to keep working closely we remain confident 9.5 GW more that trade in electricity There is potential to increase the benefits to consumers through a with the EU to build an energy system that makes the best further 9.5 GW of interconnectors that will help deliver a smarter, more use of all our energy resources.
    [Show full text]
  • UK Onshore Scheme Statement of Community Involvement
    UK Onshore Scheme Statement of Community Involvement VKL-08-39-G500-028 August 2017 © National Grid Viking Link Limited 2017. The reproduction or transmission of all or part of this report without the written permission of the owner, is prohibited and the commission of any unauthorised act in relation to the report may result in civil or criminal actions. National Grid Viking Link Limited will not be liable for any use which is made of opinions or views expressed within it. Contents 1 EXECUTIVE SUMMARY ............................................................................................ 1 2 INTRODUCTION ........................................................................................................ 1 2.1 Scope of this document ................................................................................................................. 1 2.2 Structure of the report .................................................................................................................... 2 2.3 Project Overview ........................................................................................................................... 3 3 THE PLANNING PROCESS ...................................................................................... 6 3.1 Introduction ................................................................................................................................... 6 3.2 Onshore consents and permits .....................................................................................................
    [Show full text]
  • Application to Introduce Implicit Loss Handling on the Skagerrak Interconnector
    Application to introduce implicit loss handling on the Skagerrak Interconnector The enclosed document contains the rationale for the joint application of Energinet and Statnett to introduce implicit loss functionality on the Skagerrak interconnector. The document includes a description of the applied-for method and an assessment of the expected socio-economic consequences, including distribution effects, from introducing implicit loss handling on the Skagerrak Interconnector. Further, Appendix 1-3 respectively include further description of the principle, the socio-economic analysis and analysis of intraday arbitrage. The implicit loss functionality will be implemented by the introduction of a fixed annual loss factor for the Skagerrak Interconnector. The loss factor will be adjusted annually based on historic median flow for all hours with flow for the Interconnector. The annual socio-economic gain from introducing implicit loss handling for the Skagerrak Interconnector is estimated at approximately EUR 0.9 million for Norway and EUR 2,3 million for Denmark. The title and thus the scope of Annex I to Regulation 714/2009, “Guidelines on the management and allocation of available transfer capacity of interconnections between national systems”, support the Annex having a substantial legal significance of its own. For example, the Annex may provide a legal basis for introducing methodologies of cross-border significance on an interconnector. As an EEA EFTA State, the Norwegian parliament has voted to incorporate the EU’s 3rd Energy Package, including Regulation 714/2009, into national legislation. However, the entry into force of that legislation is contingent on adoption by all EEA EFTA States, and adoption by Iceland is still lacking.
    [Show full text]
  • National Grid Media Centre
    Investors Home Press Releases Media Contacts Home / Press Releases / Viking Link: events end but there’s still time to send in feedback Viking Link team say ‘thank you’ to residents for attending public consultation events 03 May 2016 Final public consultation event held last Wednesday (27 April) People still have until 20 May to give their views on the project The team behind proposals to build an electricity link between Britain and Denmark is thanking Lincolnshire residents for attending public consultation events and giving their views on the project. More than 500 people have attended the six public consultation events held by National Grid Viking Link Limited (NGVL) throughout April. The last event was held last Wednesday (27 April), at Sandilands Grange and Links Hotel, but the team is reminding people that they still have until 20 May to send in their views. Viking Link is a proposal to link Britain and Denmark’s electricity systems, enabling Britain to import and export power to the continent. This will help provide Britain with a secure supply of affordable electricity and help the move towards more renewable and low carbon sources of energy. The project would involve installing submarine and underground cables between Denmark and Bicker Fen and building a 10-acre ‘converter station’ in the Bicker Fen area. Oliver Wood, National Grid Viking Link Project Director, said: “We would like to thank everyone who took the time to come along to our public exhibitions and give their views on the project. Their feedback will be invaluable as we consider the best locations for bringing the cables ashore and for the converter station, that will change the ‘direct current’ electricity that takes the power under the sea to ‘alternating current’ that we use on land.
    [Show full text]
  • The Electricity Act 1989 and the Acquisition of Land Act 1981 the National Grid Viking Link Limited (Viking Link Interconnector)
    THE ELECTRICITY ACT 1989 AND THE ACQUISITION OF LAND ACT 1981 THE NATIONAL GRID VIKING LINK LIMITED (VIKING LINK INTERCONNECTOR) COMPULSORY PURCHASE ORDER 2019 STATEMENT OF CASE Contents Clause Page 1 INTRODUCTION ........................................................................................ 1 2 INTRODUCTION TO THE VIKING LINK INTERCONNECTOR .............................. 1 3 THE POWER UNDER WHICH THE ORDER IS MADE ......................................... 5 4 OVERVIEW OF THE ORDER LAND ................................................................ 7 5 DEVELOPMENT OF THE UK ONSHORE SCHEME AND THE ROUTE SELECTION PROCESS ............................................................................................... 10 6 DESCRIPTION OF THE UK ONSHORE SCHEME ............................................ 15 7 THE LAND AND RIGHTS TO BE ACQUIRED PURSUANT TO THE ORDER ........... 28 8 POLICY SUPPORT FOR THE VIKING LINK INTERCONNECTOR ........................ 33 9 THE PLANNING POSITION ........................................................................ 40 10 APPROACH TO ACQUIRING INTERESTS AND RIGHTS IN LAND BY AGREEMENT 41 11 DELIVERY AND RESOURCES ..................................................................... 45 12 RELATED APPLICATIONS, APPEALS, ORDERS ETC. ...................................... 50 13 THE PURPOSE AND JUSTIFICATION FOR THE ORDER .................................. 52 14 HUMAN RIGHTS CONSIDERATIONS AND EQUALITY ACT - - .......................... 54 15 SPECIAL CONSIDERATIONS ....................................................................
    [Show full text]
  • Amanda Manns
    From: Amanda Manns To: Triton Knoll Electrical System Cc: Mandy Wood Subject: 151027 EN020019 Lincolnshire County Council response to National Grid Viking Link representations Date: 27 October 2015 16:19:27 Attachments: image001.png LCC presentation.pdf 00033 - Viking Link 271015.pdf Good afternoon, Please find attached a letter in response to representations from yourselves dated 08 October 2015 along with a powerpoint presentation. Kind regards, Amanda Amanda Manns Management Support Officer to Steve Willis (Chief Operating Officer, Development Services) Lincolnshire County Council Environment and Economy Directorate Unit 7 Witham Park House Waterside South LINCOLN LN5 7JN [email protected] 01522 553002 P please consider the environment before printing this email This e-mail may include legally privileged information and may contain confidential information intended only for the use of the addressee. If the reader of this message is not the intended recipient, you are hereby notified that any dissemination of information contained herein, together with the distribution or copying of this e-mail, is strictly prohibited. If you have received this e-mail in error, please notify me by return e-mail. Thank you. ----------------------------------------- Note: We are a Microsoft Office site. Our base version is 2010. Please make sure that files you send can be read in this format. Any form of reproduction, dissemination, copying, disclosure, modification, distribution and/or publication of this e-mail is strictly prohibited save unless expressly authorised by the sender. The information contained in this message is intended for the named recipients only. It may contain privileged and confidential information and if you are not the addressee or the person responsible for delivering this to the addressee, you may not copy, distribute or take action in reliance on it.
    [Show full text]
  • The North Sea Grid
    Energy Proceedings of the Institution of Civil Engineers http://dx.doi.org/10.1680/ener.14.00027 Briefing: The North Sea grid Paper 1400027 Adeuyi and Wu Received 14/09/2014 Accepted 09/03/2015 Keywords: electrical engineering & distribution/offshore engineering/renewable energy Published with permission by the ICE under the CC-BY license. (http://creativecommons.org/licenses/by/4.0/) Briefing: The North Sea grid &1 Oluwole Daniel Adeuyi BSc, MSc, MIET &2 Jianzhong Wu BSc, MSc, PhD, MIEEE, MIET Research Assistant, Institute of Energy, Cardiff University, Reader, Institute of Energy, Cardiff University, Cardiff School of Cardiff School of Engineering, Cardiff, UK Engineering, Cardiff, UK 1 2 It is estimated that ~33 GW of offshore wind capacity will be installed in the North Sea by 2020, and this is expected to increase to 83 GW by 2030. The North Sea grid is a concept that is intended to transfer the electricity generated from offshore wind farms installed in the North Sea to land, interconnect the grids of adjacent countries and facilitate the creation of a European internal electricity market. This briefing note explains the North Sea grid concept and the basic principles of high-voltage direct current submarine power transmission. 1. Introduction losses. In addition, HVDC can interconnect power systems The North Sea grid is a concept that is intended to transfer operating at different frequencies and phase angles. At trans- power generated from offshore wind farms installed in the mission distances beyond 70–80 km and at a voltage of 150kV North Sea to land, interconnect the grids of adjacent and above, HVAC is not practical due to the capacitance and countries and facilitate the creation of a European internal hence charging current of the submarine cable.
    [Show full text]
  • Challenges and Opportunities for the Nordic Power System Nordic Power System
    Nordic Power System Challenges and Opportunities for the Nordic Power System Nordic Power System Executive summary This report summarises the shared view of the four Nordic Transmis- The structural changes will challenge the operation and planning of sion System Operators (TSOs) Svenska kraftnät, Statnett, Fingrid and the Nordic power system. The main changes relate to the following: Energinet.dk, of the key challenges and opportunities affecting the • The closure of thermal power plants. Nordic power system in the period leading up to 2025. • The share of wind power in the Nordic power system is rising. Installed capacity for wind power is expected to triple in the period The Nordic power system is changing. The main drivers of the changes 2010–2025. are climate policy, which in turn stimulates the development of more • Swedish nuclear power plants will be decommissioned earlier than Renewable Energy Sources (RES), technological developments, and a initially planned (four reactors with a total capacity of 2,900 MW will common European framework for markets, operation and planning. be decommissioned by 2020) while Finland will construct new nu- While the system transformation has already started, the changes will clear capacity (one unit of 1,600 MW, which will be onstream in be much more visible by 2025. 2018 and another unit of 1,200 MW planned for 2024). • The capacity from interconnectors between the Nordic power system and other systems will increase by more than 50 per cent in 2025. The existing interconnectors and those under construc-
    [Show full text]
  • Press Release: Siemens Wins Order for First HVDC Link Between Great
    Press Houston, August 26, 2019 Siemens wins order for first HVDC link between Great Britain and Denmark Viking Link ensures increased security of supply and integration of renewable energy Siemens to deliver both HVDC converter stations Siemens has been awarded a contract to deliver two converter stations for the first high-voltage direct-current (HVDC) link between Great Britain and Denmark. Viking Link will enable the exchange of electricity up to 1,400 megawatts (MW) to provide increased power-supply reliability and security to consumers in both countries. By allowing transmission to flow in both directions, Viking Link will support the integration of renewable energy sources into the power grid. The interconnector is being jointly developed by National Grid Ventures (Great Britain) and Energinet (Denmark) via National Grid Viking Link Ltd. and Energinet Eltransmission A/S. Viking Link is scheduled to begin commercial operation at the end of 2023. The order comprises a 1,400-MW converter system for DC voltage of ± 525 kilovolts (kV) using HVDC Plus technology. The two converter stations – one in Bicker Fen in Lincolnshire (Great Britain), the other in Revising in southern Jutland (Denmark) – will be linked by a 767-kilometer-long DC power cable passing through the North Sea. Viking Link will be one of the world’s longest DC electricity interconnectors. Siemens will be responsible for the overall system design, supply, installation, and commissioning of the converter stations. “We’re extremely pleased that, with every new interconnection, Siemens is advancing the development of an integrated European energy market. With Viking Link, we’ll be working on another landmark HVDC project that is paving the way to a secure, affordable, and sustainable energy supply,” said Tim Dawidowsky, CEO EPC Projects at Siemens Gas and Power.
    [Show full text]
  • TEN-E Regulation – Pre-Application Notification United Kingdom
    TEN-E Regulation – Pre-Application Notification United Kingdom First published July 2016 Date: 27 July 2016 NG Doc No: VKL-07-37-G000-001 June 2016 Contents Introduction 4 TEN-E checklist 5 Project Promoter Information 6 Project Developer 6 National Competent Authorities 8 UK Consenting Authorities 8 Project description 10 General description 10 Technical aspects 12 Location of the project 14 Engagement undertaken to date 15 EIA, screening & scoping 15 Key milestones and implementation plan 15 Member State Appendix I United Kingdom I Introduction iii Location of the Project (UK) iii UK Offshore Scheme iv UK Onshore Scheme xii Public Consultation xv EIA, screening & scoping xvii Project Consultation xviii 3 June 2016 Introduction National Grid Viking Link Limited (“NGVLL”) is the promoter in Great Britain of a 1400 Mega Watt (MW) high voltage Direct Current (DC) electricity interconnector between the British and Danish transmission systems. The Project is known as Viking Link and is being developed jointly with Energinet.dk, the Danish transmission system operator. Viking Link was included in the Union List of Projects of Common Interest (PCI) under The Regulation for the trans-European energy infrastructure (EU 347/2013) (hereafter referred to as the TEN-E Regulation) on 18 November 2015. The list was adopted by Commission Delegated Regulation (EU) 2016/891 and the Viking Link project is therefore a PCI. The TEN-E Regulation has been developed to ensure the timely development and interoperability of energy networks in European Union Member States and the Europe Economic Area (EEA). The TEN-E Regulation sets out guidelines for streamlining the permitting processes for major energy infrastructure projects that contribute to European energy networks.
    [Show full text]