Session 2: Smart Electrification of End-Use Sectors ...
Transcript of Session 2: Smart Electrification of End-Use Sectors ...
Session 2: Smart Electrification of End-Use Sectors –Implications for the Power System
Organised in partnership with EPRI
MONDAY, 05 OCTOBER 2020 • 17:00 - 20:00 (CEST)
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Session Overview
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All times in Central European Standard Time (GSM+2)
Setting the Scene17:00 –17:05
Panel I: Global Experience17:05 – 17:30
Panel II: Smart Electrification at DSO Level17:30 – 18:20
Digital Break18:20 – 18:35
Panel III: Smart Electrification at the TSO Level18:35 – 19:25
Panel IV: New Power Sector Dynamics with Smart Electrification19:25 – 19:55
Closing Remarks19:55 – 20:00
Setting the scene
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Francisco Boshell
Energy Analyst, Renewable Energy Technology Markets and
Standards, IRENA Innovation and Technology Centre
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Innovation Week 2018: Solutions for Power Systems Flexibility
Source: IRENA (2020), Global Renewables Outlook: Energy transformation 2050
Power sector:
• Next frontier –integrating very high shares of variable renewables
• Many innovative solutions are emerging
Innovation Landscape Report
7Source: IRENA (2019), Innovation landscape for a renewable-powered future: Solutions to integrate variable renewables
Outcome – IRENA’s Innovation Toolbox for Flexibility
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Electrification – key energy vector to decarbonize transport and industry sectors
New loads• System integration aspect
• Investment aspect
Source: IRENA (2020), Global Renewables Outlook: Energy transformation 2050
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Smart technology resulting in smart solutions
•adapting the load profiles to the needs of consumers (demand) as well as to the conditions of the power system (supply)
What is smart electrification?
Example of smart charging for electric vehicles
Source: IRENA (2019) Innovation Outlook: Smart charging for
Electric Vehicles
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Systemic innovation for smart electrification
Source: IRENA (2019), Innovation landscape for a renewable-powered future: Solutions to integrate variable renewables
Upcoming work on smart electrification
2021 Innovation Landscape on Smart Electrification
▪ Systemic innovation for smart electrification of the transport, industry and
buildings sector
▪ Toolbox for policy-makers
Innovation Landscape on Smart Electrification
2020 Electrification with Renewables
▪ Best practices in using renewable power for the electricifcation of
end-use sectors
Closing remarks
Francisco Boshell
Energy Analyst
Robert Chapman
Vice President of Electrification
& Sustainable Energy Strategy
Moderator
Kristian Ruby
Secretary General
Panelists
Dr Koshichi Nemoto
Vice President
EURELECTRICEPRIIRENA CRIEPI
Closing remarks
Kristian Ruby
Secretary General
EURELECTRIC
Bastian Pfarrherr
Head of Innovation
Management
Stromnetz Hamburg
Moderator
Katie Sloan
Director of eMobility and
Building Electrificaiton
Southern California Edison
Panelists
Gregory Poilasne
Co-founder & CEO
Nuvve
Sandra Trittin
Co-Founder & CSO
Tiko Energy Solutions
Closing remarks
Our Mission
Wind/PV share (global capacity) EV share (new global sales)
52%
15%
2%
57%
2018
2040
2018
2040
Source : BNEF
Nuvve’s Platform and Services
Stabilizes the grid
Reduces the cost of EV
ownership, encourages EV
adoption
Guarantees vehicle use for
transportation
Optimizes and protects the
vehicle battery
Transforms electric vehicles from
unreliable resources into reliable,
dispatchable and monetizable
assets.
Enables increased renewable
penetration
Closing remarks
Kristian Ruby
Secretary General
EURELECTRIC
Bastian Pfarrherr
Head of Innovation
Management
Stromnetz Hamburg
Moderator
Katie Sloan
Director of eMobility and
Building Electrificaiton
Southern California Edison
Panelists
Gregory Poilasne
Co-founder & CEO
Nuvve
Sandra Trittin
Co-Founder & CSO
Tiko Energy Solutions
Closing remarksNorela Constantinescu
Manager for Research &
Innovation
ENTSO-E
Anders Bavnhøj Hansen
Chief Engineer
Energinet Denmark
Pablo Mosto
Planning & Environment
Manager
UTE Uruguay
Christopher Greiner
CTO
EnergyNest
Adele Lidderdale
Hydrogen Project Manager
EMEC
Moderator Panelists
Closing remarks
Electrication needed in DK to reach national
70% climate gas reduction towards 2030 (base 1990)
North Sea Wind Power Hub scenarios investigated
DK a part in northsea windpower visions
Closing remarks
Balancing the Danish power system
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Hub/I sland
Potential PtX-”clusters”
Hydrogen cavern storage
Potential HVDC cables
Potential AC cables
Potential hydrogen lines
Existing gas pipes-4000
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Residual: Wind/solar minus basis consumption (case 2035)
Hourly imbalance (GW) Acc. imbalance (GWh)
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Inve
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Investment costs for the energy storage part(NB: Exclusive input/output units)
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Further information at: http://www.energinet.dk/Sys35Or E-mail: [email protected]
Closing remarks
Electric power production - URUGUAY 2019 (3,5 MM inh.)
Thermal 2%
Wind Hydro
Biomass
98%RENEWABLE
Before 2010: 2.100 MW installed
2017: + 2.200 MW of NCRE
- Considering the variation onNCRE, it is economical to have a surplus (in average, near 10%).
- How to manage that resources… and their effect on the grids…
Closing remarks
Ways to manage the grids
And pass the benefits to end users
Introducing more technollogy in the operation: Automatic reconfiguration, dynamic
capacity.
Developing a new business model for a reconfiguration of the market, towards a more
flexible demand (coordinated with the supply availability).
Targets (using increasing Smart grids):➢ Better comfort for huseholds (new commercial options)
➢ Increased competitivity for productive sectors
➢ Atraction of investments (energy price levels)
➢ Better international interchanges rules
➢ Contribute to the Decarbonization in sectors like transport, heating, industries (processes
of energy substitution).
Closing remarks
Electrification of industrial process steam
Source: EnergyNest AS, * Banerjee, R. et al. (2012). "Energy end-use: industry." Global Energy Assessment-Toward a Sustainable Future: 513
• Steam accounts for almost 40 % of global final manufacturing energy use; almost 10% of global final energy consumption*
• Thermal Battery system is an electric steam boiler with added energy storage capacity
• Response time: seconds
• Operating range: 0 – 100+%
• Installed power: 10 MW +/- per use-case
• Up to 10+ hours of storage capacity
• Scalable up to 100’s of MW and GWh’s
• Commercially available technology
Power grid flexibility with Thermal Batteries
18 MW steam generator
14 MW electric heater
45 MWh Thermal Battery
Example system solution for industrial steam consumer
Closing remarksNorela Constantinescu
Manager for Research &
Innovation
ENTSO-E
Anders Bavnhøj Hansen
Chief Engineer
Energinet Denmark
Pablo Mosto
Planning & Environment
Manager
UTE Uruguay
Christopher Greiner
CTO
EnergyNest
Adele Lidderdale
Hydrogen Project Manager
EMEC
Moderator Panelists
Closing remarks
Pablo Mosto
Planning & Environment
Manager
UTE Uruguay
Robert Chapman
Vice President of Electrific. &
Sus. Energy Strategy
EPRI
Bastian Pfarrherr
Head of Innovation
Management
Stromnetz Hamburg
Moderator
Katie Sloan
Director of eMobility and
Building Electrificaiton
Southern California Edison
Panelists
Anders Bavnhøj Hansen
Chief Engineer
Energinet Denmark
Closing remarks
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Robert Chapman
Vice President of Electrific. & Sus. Energy Strategy,
Electric Power Research Institute (EPRI)