September 2017 Distributed Gas Connections GuideForeward 3 About SGN 3 The existing gas network 4 Who is involved in the gas market? 4 ‘Greening’ the gas 5 How it works 5 Legal requirements 7 How to get connected 7 Initial Enquiry 8 Capacity Study 8 Feasibility Study or Adopted Entry Facility 8 Agreements 9 Connections Agreement 9 Network Entry Agreement 9 Useful references and contacts 10 SGN 10 Government bodies 10 Other references 10 Appendix 1 – Process Flow Diagram 11Foreward This guide is intended to help you, as the owner or developer of distributed gas, to connect your production facility to our network. The types of gas that connect to the network include coal bed methane, shale gas and biomethane. The process for connecting these gases is exactly the same however this guide primarily focuses on biomethane. About SGN We manage the network that distributes natural and green gas to 5.9 million homes and businesses across Scotland and the south of England. Whoever your supplier is, our pipes deliver gas safely, reliably and efficiently to every one of our customers. It’s your gas, in our network. We believe that the gas distribution networks will continue to play a crucial role in the domestic heating market and will provide the most cost-effective path for low-carbon transition with significant social benefits in terms of energy security and fuel poverty. SGN Distributed Gas Connections Guide3Customers – purchase gas for residential, commercial or individual use. They contract directly with gas suppliers to secure their gas. The existing gas network The UK benefits from one of the most extensive gas networks in the world which transports the energy to heat almost 85% of UK homes and the vast majority of industrial buildings. Gas consumption greatly exceeds electricity consumption in UK homes, particularly during colder months. Natural gas is safe, reliable and convenient for rapid space and water heating. It can also assist those living in fuel poverty as a result of the low relative costs of gas compared to alternative heating systems. Who is involved in the gas market? The process of connecting any distributed gas to the network involves a number of parties, where commercial and contractual arrangements are required to be in place. The diagram illustrates this: Producers – are responsible for producing the gas. The gas produced must meet the quality requirements set out in the Gas Safety (Management) Regulations 1996. The producers must secure sales of their gas with a shipper before it can be injected into the grid. Distributed gas producer Gas purchase contract Gas transporter Gas shipper Gas supplier Gas customer Network Entry Agreement Connection Agreement .............................. Suppliers – are responsible for customer interaction and provide an interface for consumers to purchase their gas. Suppliers must have a Gas Retailer Licence before engaging in any consumer contract. Gas shippers – convey gas in the pipeline network by contracting with gas transporters, such as SGN. Gas shippers must have a Gas Shippers Licence before taking part in any gas shipping actions. Gas transporters – own and operate the gas distribution network, using the infrastructure to transport the gas from producer to end consumer. Transporters may take responsibility for quality testing and gas metering. Uniform Network Code 4SGN Distributed Gas Connections Guide‘Greening’ the gas We refer to any source of sustainable and low-carbon gas as ‘green’ gas. This can include substitute gas and hydrogen however currently most of the focus and growth is around biomethane. Biomethane is derived from biogas which is produced by anaerobic digestion. During this process, organic material is broken down in the absence of oxygen to produce biogas and digestate, a nutrient-rich fertiliser. The most efficient use for this biogas is to clean it up and inject it into the gas network. Biomethane is regarded as a low-cost and scalable form of renewable and low carbon heat, which can help towards the country’s energy goals. There are a number of independent studies which have shown the gas networks can be a major component of a low carbon energy system. We also know from our own research people are generally happy using gas for heating and so if How it works Biomethane for injection into the gas network is produced by cleaning and upgrading biogas that has been created through either an anaerobic digestion or gasification process. The biomethane may need propane to be added by the biogas producer to ensure it has the required energy content, prior to injecting into the network. To ensure the biomethane meets the requirements for the gas grid, it passes from the producer’s plant through a Network Entry Facility where it is checked for both gas quality and energy content, before being metered and odorised to give it the characteristic smell. Before being injected into the gas network the biomethane must be sold to a gas shipper. Ofgem can provide details of licensed Gas shippers. The Network Entry Facility can either be installed by us or the biomethane producer under the guidance of our Functional Design Specification (SGN/SP/BIO/2). If installed by the producer we will adopt as a minimum the Remotely Operated Valve (ROV), the Remote Telemetry Unit (RTU) and the connecting pipeline to the network. The diagram overleaf illustrates the equipment and potential ownership in a Network Entry Facility. It does not reflect the actual layout of the equipment on-site. Gas storage we can decarbonise the gas flowing to people’s homes, this then saves households from switching to other more expensive forms of low carbon heat in the future while allowing carbon targets to be met. Biomethane injection projects are currently supported by the government’s ‘Renewable Heat Incentive’ (RHI) which offers incentives to develop renewable heat technologies. The RHI is absolutely vital for green gas projects. The gas to grid process using anaerobic digestion with farm feedstocks SGN Distributed Gas Connections Guide5 Biowaste Digester Collection pit Fertiliser Digestion residue storage To natural gas network Slurry or manure Biogas treatment plant Biomethane fuelling station Feed Energy crops6SGN Distributed Gas Connections Guide Bio-Gas production Clean-up and enrichment Pressure reduction Pressure reduction Pressure reduction Divert valve Upstream controllers Gas analysis and controllers (inc Supervisory PLC) Flow meter Local Gas Treatment (LGT) FWACV analyser SGN control centre Remote Telemetry Unit (RTU) ROV controller (shutdown PLC) Remotely Operated Valve (ROV) PT Manual sample point SGN network Flare or recycle Gas flow Gas sample line Control system Process/ROV function Divert valve function/process Requirements may vary Biomethane network entry facility Biomethane network entry facility – SGN minimum adoption KeyLegal requirements As part of our obligations as a gas transporter, we must offer conditions for gas entry points under section D12 of the Gas Transporter Licence. Biomethane is considered a reliable source of energy, providing it meets all of the Gas Safety (Management) Regulations (GS(M)R) 1996, which stipulate the quality of the gas that is acceptable. The amount of energy released when a volume of gas is burned is measured by the Calorific Value (CV) of the gas and must comply with The Gas Calculation of Thermal Energy Regulations 1996 (Gas (COTE)R). Some gases have a lower CV than natural gas and in order not to disadvantage customers some enrichment may be required to be added to raise the CV. This will be site-specific, based on the feedstock and equipment being used. As with natural gas, the supply must be odorised so leakages can be detected. How to get connected In order for you to get connected to our network there are a number of steps that need to be followed: Appendix 1 at the back of this guide provides an overview of the Distributed Gas Connections Process. There are a number of governmental bodies, who have responsibilities in the gas sector: ŸThe Department for Business, Energy & Industrial Strategy (BEIS) accountable for primary legislation of gas, such as the 1986 and 1995 Gas Act, the Completion Act 1998, the Gas Calculation of Thermal Energy Regulations 1996 and the GS(M)R 1996 mentioned above. ŸThe Office of Gas and Electricity Markets (Ofgem) is responsible for the economic regulation of the gas market. ŸThe Health and Safety Executive (HSE) is responsible for the health and safety of the gas sector. ŸThe Uniform Network Code (UNC), a set of guidelines for all gas industry members that allows for market competitiveness, states that the biomethane producer must enter into a Network Entry Agreement (NEA) before gas may be injected into the grid. For more information please see the useful references page at the back of this guide. SGN Distributed Gas Connections Guide7 Initial Enquiry Form an indicative view on the potential for the distribution network to accept the entry capacity Capacity Study Undertake a detailed analysis of the distribution network to understand the drivers to deliver gas to the network Agreements Formal agreement to undertake the work through a Network Connection Agreement (NCA) and Network Entry Agreement (NEA) Feasibility Study Optional detailed technical study on the physical arrangements and estimated cost of making an entry connection by us Adopted Entry Facility The delivery facility operator can design, procure and install the approved Entry equipment for the adoption of specific items by us orInitial Enquiry The Initial Enquiry will provide the customer with an indicative view on the suitability of our distribution network to accept the volume of distributed gas indicated in the customer’s submission. This service is free of charge. The Initial Enquiry response will include: ŸThe location of the main(s) in relation to the site ŸThe pressure of the main(s) ŸThe diameter and material of the main(s) ŸThe suitability of the main(s) to accept the volume of distributed gas. We will aim to provide this information within 15 working days from receipt of the Enquiry. Capacity Study The Capacity Study report builds on the information provided under the earlier Initial Enquiry response and develops detailed network analysis on a specific site location to understand any potential constraints on the distribution network. The Capacity Study report is chargeable and we will provide a quotation to undertake this work. The Capacity Study report will include: ŸLocation of the site ŸNetwork schematics ŸPhotographs and maps, where appropriate ŸDetailed information on the available capacity ŸAny other relevant information. We will aim to issue the study within 30 working days of the receipt of an acceptance. Feasibility Study or Adopted Entry Facility There are now two choices that can be taken at this stage: 1. You can design and install the facility following the guidance in our Functional Design Specification (FDS), at the end of which we will adopt specific items of equipment; or 2. We can provide you with a Feasibility Study to carry out the design, procurement and installation of the Entry Facility. If you decide to follow the adopted route for the entry facility we will provide you with an FDS (SGN/SP/BIO/2) which gives you the technical requirements we would expect the facility to adhere to. Once the facility has been constructed, validated and commissioned we will adopt, as a minimum, the following pieces of equipment: ŸRemotely Operated Valve ŸRemote Telemetry Unit ŸConnecting pipeline to our network. We support the competitive provision of any connecting pipeline; information on independent connection providers who hold Gas Industry Registration Scheme (GIRS) membership can be found at the following website: www.lloydsregister.co.uk/schemes/girs/providers-list.aspx Following a request for a Feasibility Study, we will provide a quotation and upon receipt of an acceptance, carry out a technical assessment to determine the physical arrangement of the entry compound and the connecting pipeline to our distribution network, if applicable. The Feasibility Study will also provide an indication of the costs involved in installing the entry facility equipment and the connection to the network where one has been requested. The estimated timescale for completion of the Feasibility Study is 10 weeks but is dependent on the project complexity. 8SGN Distributed Gas Connections GuideNetwork Entry Agreement A Network Entry Agreement (NEA) sets out the technical and operational conditions for the connection. The NEA is agreed between the Delivery Facility Operator (DFO) and us and is normally discussed with the future operator of the Entry Facility in parallel with the connection process. As part of the Network Entry Agreement a risk assessment of gas quality (SGN/PM/GQ8) must be undertaken to understand more fully the implications on the distribution network. The timescales to complete these elements of the project can vary depending on the project complexity. Connections Agreement Ÿ SGN Constructed Entry Facility Where we have been asked to construct the facility and, subject to a satisfactory Feasibility Study, we will prepare and issue for signature a Connections Agreement. The Connections Agreement will form the contractual arrangements to proceed with the detailed design and build of the project. The Connections Agreement sets out both parties’ obligations for the on-site works associated with the physical entry connection into the gas distribution network. The Connections Agreement operates on a cost pass through basis, inclusive of overheads. The construction phase will proceed after completion of the Connections Agreement unless the developer terminates the agreement in accordance with its terms. We will have provided an estimate for the construction stage based on the findings of the Feasibility Study and payment is usually in the form of stage payments (subject to credit status) which reflect the cash flow requirements of the works, with a final reconciliation to be made after completion. Other costs such as easement payments to land owners to secure the pipeline route, unforeseen costs (such as poor ground conditions), and costs due to the actions of third parties or a change to the agreed scope of work are added to the base cost. We will provide the relevant documents to support such costs and, where applicable, programme changes. Ÿ Adopted Entry Facility In the case of the Adopted Entry Facility a Connections Agreement will require to be signed between both parties to ensure the installation is fit for adoption and has been designed and constructed in accordance with the FDS. The installation will also require validation and commissioning. There will be a charge associated with this process, which will form part of the agreement. As with the SGN-constructed entry facility other costs such as easement payments to land owners to secure the pipeline route, unforeseen costs (such as poor ground conditions), and costs due to the actions of third parties or a change to the agreed scope of work are added to the base cost. We will provide the relevant documents to support such costs and, where applicable, programme changes. Agreements As previously indicated two scenarios exist for the construction of an Entry Facility and they both need to have a Connections Agreement and Network Entry Agreement in place with us before gas can flow into our network. The two scenarios are described in more detail below. SGN Distributed Gas Connections Guide9Next >