Transnational Infrastructure - VoltaChem · Powered by: Sustainable Electrification of the Chemical...
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Sustainable Electrification of the Chemical Industry
Florian Ausfelder - DECHEMA e.V.Rene Peters - TNO
Transnational Infrastructure:Ready for the future?
2-1-2019 3
Transnational InfrastructureReady for the future?
Florian AusfelderTeamleader Energy & Climate
DECHEMA e.V.
Rene PetersDirector Gas Technology
TNO
Energy Infrastructures
• Natural gas grid• Power grid• Liquid fuels
• Fuels• Base Chemicals
• Industrial Gases• Hydrogen• CO2-infrastructure
• Heat
Natural Gas Grid, Europe
https://www.entsog.eu/maps/transmission-capacity-map
Natural Gas Grid, NL/DE intersections
11 Bocholtz (NLDE): 510 GWh/d 12 Zevenaar (NLDE): 463 GWh/d 13 Winterswijk (NL DE): 179 GWh/d14 Vlieghuis (NL DE): 72 GWh/d15 Epe /Enschede
(NL DE): 164 GWh/d(DE NL): 305 GWh/d
16 Bunde /Oude Statenzijl (storage)(NL DE): 1.517,9 GWh/d
63 Haanrade (NL DE): 2,4 GWh/d70 Tegelen74 Jemgum / Oude Statenzijl
(NL DE): 311 GWh/d
https://www.entsog.eu/maps/transmission-capacity-map
Natural Gas Grid, NL/DE
Main points:• Current grid structure reflects general flow from NL DE• Exception: Storage sites
Future challenges:• Dutch gas fields are getting depleted:
• Flow in both directions required• L-NG (NL) gets replaced by H-NG (Russia via DE)• Hydrogen content in natural gas?
Power Grid, Europe
https://www.entsoe.eu/data/map/
Power Grid, NL/DE intersections
4 double circuit lines (380-400 kV)
https://www.entsoe.eu/data/map/
Power Grid, NL/DE
Main points:• Only few crossborder transmission lines
Future challenges:• Fluctuating renewable power
https://www.4coffshore.com/offshorewind/
CEPS (Liquid Fuels)
• Military pipeline grid• Civil and military airports, ports, • refineries, chemical companies
Ethylene and propylene pipeline network
ECSPP: An overview of the pipeline networks in Europe
Industrial Gases
ECSPP: An overview of the pipeline networks in Europe
Heat
https://www.fwsrr.de/auf-einen-blick/referenzprojekt-europas/
Onshore gas infrastructure
• 12000 km high pressure pipeline• Grey: L – Gas• Yellow: H – Gas• Interconnection B – D – UK – F• Compressor stations• Mixing stations• Metering stations
Offshore infrastructure• ~3000 km pipelines, connecting 150 platforms to shore• 4 major trunklines (WGT, NGT, Local, Nogat)• NOGAT trunckline up to the Doggers bank area• NGT and WGT trunckline to UK border• Nearby future wind parks IJmuiden ver• Connection to major industrial clusters• Several sections of the grid will become available soon• Potential for re-use (CO2, H2), interfering functions?
(* see www.north-sea-energy.eu/atlas.html)
19 December 2016 15 | System Integration Offshore Energy
Current H2 production
• Delfzijl 1,3 methanol• Geleen 1,8 ammonia• IJmuiden 1,0 steel production• Rotterdam/Zeeland 6,1 refining
and chemical• Totaal 10,2 BCM H2 / year
Future H2 grid
• Joint Study Gasunie & Tennet NL• H2 backbone connects main
industrial clusters in NL• H2 backbone connects main H2
producers and consumers• H2 backbone provides
interconnections to D and NL• H2 backbone can connect of
offshore H2 production and infra
Is the current infrastructure sufficientlydeveloped for our future challenges?• General
• Where are critical hotspots forinfrastructure?
• How should infrastructure beinterconnected? (e.g. PtX)
• Natural gas• Change of direction• H-gas instead of L-gas• Hydrogen in gas composition• Access to storage sites
• Power• Integration of fluctuating renewable
power generation• Limited number of cross-border
transmission points
• Fuels, Ethylene, Propylene• Current infrastructure sufficient?• Where do ethylene and propylene come
from in the future• Hydrogen and other gases
• Partial, unconnected grids• CO2
• Infrastructure required in the future?• CCU/CCS
• What sites need to be connected• Heat
• Transport over large distances currentlynot economical