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Discover the strategic plan to establish energy generation, storage, trading, and smart systems in Greater Manchester by 2020. Learn about priorities, future growth projections, existing projects, and innovative approaches to enhance energy efficiency and reduce carbon emissions.
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Transition towards Low Carbon EnergyMonday 12th June 2017 Sean Owen Energy Efficiency Lead
EnergyHeadline Aim • ‘By 2020, we will establish the necessary capacity and policy framework to accelerate the implementation of energy generation, storage, trading and smart system schemes across Greater Manchester’ • Priorities included; • Accelerating the delivery of an investment pipeline of • approximately £200m of low carbon generation projects • including heat networks, street lighting and renewable generation • Deploying smart energy systems, including storage, which will • enable consumers to understand their usage and actively minimise their bills via demand shift
GM Future Growth • Population and economic growth is expected to continue in GM. The draft Greater Manchester Spatial Framework outlines that by 2035, GM is forecast to have an additional; • cr227,200 new homes and; • cr6.45 million m2 of additional commercial and industrial floor space • Future growth in GM will lead to increasing energy demand arising from heating and electricity use in new homes and buildings. • 2,400 GWH/yr energy demand increase • 0.4Mt CO2 Increase under business as usual activity • Represents 3% in energy increase • However,1030 GWH/yr (9%) odf GM consumption could be generated from renewable energy sources, representing a CO2 reduction of 2.6 million tonnes (19%) per annum from 2014 levels
Research and evidence Evidence based approach: • GM spends over £5 bn/pa on energy (all) • Use of electricity and gas by domestic and commercial users accounts for 72% of direct carbon emissions in GM • Longer term targets requires energy efficiency, low or zero carbon heating • We have 140MW of installed renewable electricity capacity and 29MW of installed renewable heat capacity. • Technical potential for 9% of our electricity demand and 68% of our heat demand to come from renewable sources. • Significant potential for more: • Heat networks • Solar technologies (heat and power) • Heat pumps air and ground source • Biofuel
GM Existing Projects • Smart Systems and Heat – one of 3 national pilots with the Energy Systems catapult to deliver • phase 1 advanced energy masterplanning • phase 2 – potential £30million area wide mass smart heat demonstrator • NEDO project – a £20+ million partnership with the Japanese Government Agency: • 550 smart monitoring enabled domestic properties delivering DSR via Air source heat pumps, with associated smart engagement tools • Heat Networks - £2.7m Elena funding to provide project development unit capacity focusing on heat networks and street-lighting conversion to LED • Triangulum (H2020 Lighthouse project) - to accelerate and improve the deployment of integrated smart city solutions across Europe. The project focuses on three integrated areas; energy, mobility and ICT to deliver community solutions • ‘Nobel Smart Grid’ - Carbon Coop project funded by EU H2020 funding to develop innovative tools and ICT services for the Smart Grid
The Future…. • Firstly is to build on existing projects and innovation from across the region to; • Enable and increase the existing flexibility in the distribution network • Novel management tools including Building Management Systems • Market Aggregators and Virtual Power Plants; to allow higher penetration of Renewable Energy Sources (RES) and ensure a stable and safe operation of the grid • Overcome barriers to the adoption of technology; including issues such as client awareness, supply chain, readiness, and project silos • Through; • Increased energy generation and storage projects across GM (public, community, private) • Exploration of vehicle to Grid opportunities • Enabled building portfolio demand shift capability and aggregation • New business and service models and delivery methods developed