STOKE & STAFFORDSHIRE ENERGY STRATEGY ARCHIE CORLISS Agenda. - PowerPoint PPT Presentation

ENCRAFT STOKE & STAFFORDSHIRE ENERGY STRATEGY ARCHIE CORLISS

Agenda. 10:00 Welcome and introduction Energy Strategy: Context 10:05 and progress Introduction to energy 10:35 vision and key priorities 10:50 Group workshops Feedback from group 11:35 workshops 11:55 Next steps and close

CONTEXT AND PROGRESS

Policy context.

Policy context. Important recent Government publications Industrial Strategy Clean Growth Strategy   Sets out five foundations of Sets out a strategy to meet the UK’s Carbon budgets productivity   Commits to investment in Since 1990 emissions have business-led innovation been cut by 42%  Aims to maximise the  UK has committed to an 80% advantages for UK industry reduction on 1990 levels by from the global shift to clean 2050 growth  The document sets out  Commits to Local Industrial domestic policies to keep the Strategies that build on local UK on track to meet these strengths and deliver on targets economic opportunities

Policy context. Important local publications Strategic Economic Plan City deal support  Business and industrial clusters in Stoke City centre heat network growth sectors across  SEND project Staffordshire:  CHP and Energy from Waste  Applied materials Ceramic Sector Decarbonisation  Agri-Tech  Partnership between BCC and  Aero-Auto BEIS  Medical technology  Support for:  Energy generation  Energy efficiency   Waste heat recovery Business and professional  Innovation collaboration  Tourism and leisure  On-site renewables

Energy. Energy consumption in Staffordshire by fuel Domestic Electricity 6.0% Domestic Gas Road Transport 18.9% 30.4% Domestic Coal 0.5% Domestic other 1.0% Bioenergy and Waste 11.5% Non Domestic Electricity 9.3% Non Domestic Other 4.8% Non Domestic Gas Non Domestic Coal 15.2% 2.5%

Energy. Energy consumption in Staffordshire by LA and fuel 6.0 5.0 Fuel consumption (TWh) 4.0 Road Transport Bioenergy and Waste Non Domestic Other 3.0 Non Domestic Coal Non Domestic Gas 2.0 Non Domestic Electricity Domestic other Domestic Coal 1.0 Domestic Gas Domestic Electricity 0.0

Energy. Off gas areas  Urban areas have good access to the gas network  Some rural areas off gas  High carbon fuels often in areas with high fuel poverty

Carbon. Carbon emissions in Staffordshire 1.6 1.4 1.2 Carbon Emissions (MTCO 2 ) 1.0 0.8 0.6 0.4 0.2 0.0 Domestic Industry and Commercial Transport

Carbon. Carbon emissions in Staffordshire 14.0 12.0 10.0 Tonnes CO2/person 8.0 6.0 4.0 2.0 0.0 Domestic Non-Domestic Transport England UK

Carbon. Industrial carbon emissions 1,000 900 800 Carbon emissions (MtCO2e) 700 600 500 400 300 200 100 0 Industry and Commercial Electricity Industry and Commercial Gas Large Industrial Installations Industrial and Commercial Other Fuels Agriculture

Data Renewable energy. Large scale renewable generation

Data Electric vehicles EV charging points in Staffordshire

Grid capacity. Capacity for new electricity generation connections  Some areas have existing grid constraints making expansion of new development difficult  In other areas the DNO is unable to connect new large scale distributed generation without reinforcement

Grid capacity. Capacity for new electricity demand connections  Some areas have existing grid constraints making expansion of new development difficult  In other areas the DNO is unable to connect new large scale distributed generation without reinforcement

National Grid Future Energy Scenarios. Our energy system is changing Our energy system has been changing rapidly and will continue to change. National Grid’s Future Energy Scenarios (FES) have been used to project future energy consumption in Staffordshire  Renewable generation is now 34% of peak capacity  New technologies such as Electric Vehicles will lead to additional demands on the electricity grid  The FES project energy demand and supply out to 2050  Two Degrees is the only scenario that meets the UK’s climate goals

Carbon emissions projections Two degrees vs Steady State 9,000 9,000 Domestic Other Fuels 8,000 8,000 Domestic Gas 198 198 28 7,000 1,099 7,000 Domestic Electricity 1,099 607 6,000 591 6,000 591 Industrial and 379 Commercial Other 379 197 kTonnes CO 2 e kTonnes CO 2 e 28 Fuels 267 5,000 5,000 802 Industry and 607 802 755 Commercial Gas 197 267 4,000 1,041 1,041 4,000 Industry and 755 449 Commercial Electricity 631 449 631 3,000 3,000 Large Industrial 565 565 Installations 2,000 2,000 Change of land use 2,802 2,802 2,546 2,355 1,000 1,000 Transport 88 88 79 80 0 0 Agriculture 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030

Carbon emissions projections Two Degrees vs Steady State 14,000 12,000 10,000 kTonnes CO 2 e 8,000 6,000 4,000 2,000 0 1990 Estimate 1995 Estimate 2000 Estimate 2005 2010 2015 2020 Projected 2025 Projected 2030 Projected Stoke-on-Trent Cannock Chase East Staffordshire Lichfield Newcastle-under-Lyme South Staffordshire Stafford Staffordshire Moorlands Tamworth 2032 Target 2050 target

Carbon emissions projections Two Degrees vs Steady State 14,000 12,000 10,000 kTonnes CO 2 e 8,000 6,000 4,000 2,000 0 1990 Estimate 1995 Estimate 2000 Estimate 2005 2010 2015 2020 Projected 2025 Projected 2030 Projected Stoke-on-Trent Cannock Chase East Staffordshire Lichfield Newcastle-under-Lyme South Staffordshire Stafford Staffordshire Moorlands Tamworth 2032 Target 2050 target

ENERGY VISION AND KEY PRIORITIES

Energy vision and key priorities Energy vision for Staffordshire Staffordshire’s future energy system should:  Be robust, reliable and able to supply the needs of local industry  Have low levels of fuel poverty  Sustain high skilled jobs  Meet decarbonisation goals

Energy vision and key priorities Key priority area Residential  Energy efficiency  Addressing fuel poverty  Local renewable energy generation

Energy vision and key priorities Key priority area Commerce and industry  Smart energy sector  Ceramic sector decarbonisation  Improved business energy efficiency  Heat networks

Energy vision and key priorities Key priority area Transport  Sustainable transport use  Low carbon transport infrastructure  Tackling air quality issues Target:

Energy vision and key priorities Key priority area Public services  Improved resource efficiency  Improved energy efficiency

Energy vision and key priorities Developing an action plan How do we measure progress?  Setting targets against priorities  Buy-in at a LEP Board level  Measurable actions  Ongoing monitoring  Steering group to manage agenda

Energy vision and key priorities Developing an action plan Feedback from today’s session  What are the key sectoral issues to tackle in the context of change in the national energy system?  What are the opportunities?  What actions should be undertaken to make progress in each area?  When setting targets should the LEP be looking to go above and beyond national standards?  What exemplar/demonstration projects can be referenced in each area?

Priorities for Staffordshire Key priorities and action areas Action areas   Residential Commerce and industry  Energy efficiency  Smart energy sector  Addressing fuel poverty  Ceramic sector decarbonisation  Local renewable energy  Improved energy efficiency generation  Heat networks   Transport Public services  Sustainable transport use  Improved resource efficiency  Low carbon transport  Improved energy efficiency infrastructure  Tackling air quality issues

GROUP WORKSHOPS

THANKS FOR WATCHING Archie Corliss Consultant 01926 312159 archie.corliss@encraft.co.uk www.encraft.co.uk