docPresentation - Stadler - German Center for Research and Innovation
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Presentation - Stadler - German Center for Research and Innovation
Panel on “Smart Grids” German House, New York, November 12th 2015 Prof. Dr. habil. Ingo Stadler Seite: 1 What do Bill Murray and I have in common? Prof. Dr. habil. Ingo Stadler Seite: 2 Everything is smart today! Barbeque: that was yesterday – today you apply a smart grill Prof. Dr. habil. Ingo Stadler Seite: 3 Everything is smart today! Yesterday: Smart Grids – Today: Smart Jennifer Aniston Prof. Dr. habil. Ingo Stadler Seite: 4 Everything is smart today! Smart Flying: Not flying Lufthansa when cabin crew is on strike! Prof. Dr. habil. Ingo Stadler Seite: 5 Everything is smart today! Smart Flying: Not flying Lufthansa when cabin crew is on strike! Prof. Dr. habil. Ingo Stadler Seite: 6 Why apply Smart Grids in Germany? Resilience towards Natural disasters, such as storms, earthquakes, …? Terrorist attacks? … Transition of the energy system within pre-existing energy infrastructures … From a fossil-nuclear to renewable basis … In every country, the term “smart grid” is understood in a different way! Prof. Dr. habil. Ingo Stadler Seite: 7 Regionale u. überregionale Verknüpfungspunkte KWK Smart Energy Systems Köln Prof. Dr. habil. Ingo Stadler Seite: 8 KWK der Rheinenergie Regionale u. überregionale Verknüpfungspunkte Smart Energy Systems Köln Prof. Dr. habil. Ingo Stadler Seite: 9 E-Auto E-Bike E-Dreirad E-was-auch-immer KWK der Rheinenergie Regionale u. überregionale Verknüpfungspunkte Smart Energy Systems Köln Prof. Dr. habil. Ingo Stadler Seite: 10 Wärmespeicher E-Auto E-Bike E-Dreirad E-was-auch-immer KWK der Rheinenergie Regionale u. überregionale Verknüpfungspunkte Smart Energy Systems Köln Prof. Dr. habil. Ingo Stadler Wärmespeicher E-Auto E-Bike E-Dreirad E-was-auch-immer Verknüpfung verschiedener Netzinfrastrukturen (Polynetze) Seite: 11 KWK der Rheinenergie Regionale u. überregionale Verknüpfungspunkte Smart Energy Systems Köln Prof. Dr. habil. Ingo Stadler Wärmespeicher E-Auto E-Bike E-Dreirad E-was-auch-immer Verknüpfung verschiedener Netzinfrastrukturen (Polynetze) Seite: 12 Power-to-Gas (my) Definition: Smart Grid Information Grid Smart Energy Meter Electricity Grid Grid Difference between “innovations in energy technologies” and “smart grids” Transmission grids always had been smart, here is no innovation Other innovations e.g. within HVDC are of high importance, but not “smart” Prof. Dr. habil. Ingo Stadler Seite: 13 Netzentwicklungsplan Power line loading in n-1 case [% of nominal capacity] Overloaded Power lines in n-1 case [h/a] Source: www.netzentwicklungsplan.de Prof. Dr. habil. Ingo Stadler Seite: 14 Bottlenecks, Simultaneity Detached house’ fuse: three phase 63 A Why can’t all houses feed this power also backwards to the grid? Including electrical heating Low electrification degree Including electrical cooking Includes electrical hot water production Prof. Dr. habil. Ingo Stadler Seite: 15 Simultaneity of Photovoltaic Power Systems is almost “1” (in a restricted area) Bottlenecks, Voltage Limitations 10kV 0,4kV Feeder 1: high load, e.g. electrical heating Feeder 2: high generation Capacity, e.g. PV +10% Deviations in the medium voltage grid +4% -10% Prof. Dr. habil. Ingo Stadler Seite: 16 Deviations at transformer G Deviations in the low voltage grid When high to medium voltage transformer is at 104% the ±10% is kept with: Highly loaded string: 5 % voltage drop in the low voltage grid 3 % in the distribution system transformer 5 % in the medium voltage grid 1 % safety reserve. High feed-in string: 3 % voltage drop in low voltage grid including transformer 2 % voltage drop in medium voltage grid 1 % reserve. Smart Grid Solution to these problems PV inverters can inject reactive currents in order to influence voltage and keep within the ±10% limit. I WR RK jXK ZK UN φ I WR U WR U XK U RK ψ I WR U RK U XK U ZK U ZK UWR UN UWR UN φ I WR I WR Active Power Feed-in Prof. Dr. habil. Ingo Stadler Seite: 17 Reactive Power Feed-in Reaction to frequency changes – old version System behavior of generation capacity (e.g. PV) in low voltage grids Prof. Dr. habil. Ingo Stadler Seite: 18 PV would be disconnected f [Hz] PV power >> 3 GW 50,2 50,1 Load < generation Load > generation ∆P 50,0 Primary Control Capacity 3 GW 49,0 Load shedding 10-15% of system load 48,7 Load shedding of further 10-15% of system load 48,4 Load shedding of further 15-20% of system load 47,5 Disconnection of all generating facilities Prof. Dr. habil. Ingo Stadler Seite: 19 How are people affected by smart grid solutions? People are experienced to high reliability electricity supplies As long this remains to be reality, people don’t notice smart grid solutions Prof. Dr. habil. Ingo Stadler Seite: 20 Smart Metering Services … and people get into touch with smart grid solutions! Source: Ubitronix … what is the pre-requisite for additional user feedback and provision of system services Prof. Dr. habil. Ingo Stadler Seite: 21 Smart Metering – Services … with in-house communication: automated Demand Side Management Source: google … with in-house communication and load pattern recognition: influencing production processes to optimize load profiles here: injection-molding machines Prof. Dr. habil. Ingo Stadler Seite: 22 Source: IGUS, Cologne Energy Displays techem – assisto Prof. Dr. habil. Ingo Stadler Seite: 23 Energy Displays Frequency distribution of heat energy consumption in 29,500 refurbished apartments in Berlin; without user feedback Prof. Dr. habil. Ingo Stadler Seite: 24 Source: Benecke, J.: Energiesparen durch technische Hilfsmittel: Auf die Regelkreise kommt es an! VDI Bericht1531. Nierstein. 2000 Energy Displays Frequency distribution of heat energy consumption in 2,800 refurbished apartments in Berlin; with single room control and user feedback Prof. Dr. habil. Ingo Stadler Seite: 25 Source: Benecke, J.: Energiesparen durch technische Hilfsmittel: Auf die Regelkreise kommt es an! VDI Bericht1531. Nierstein. 2000 Pilot Projects for the Smart Future E-Energy Model Regions Competition where six model projects were declared the winners Funded by the Federal Ministry for the Environment and the Ministry for Economics 60 million euros of funding Together with capital invested by the companies 140 million euros are mobilized In 2012, the model regions should be ready for market launch and to test their marketability in everyday applications. Prof. Dr. habil. Ingo Stadler Seite: 26 Conclusion People are still not affected by smart grid solutions Everything is still in pilot phases Prof. Dr. habil. Ingo Stadler Seite: 27 Seite: 28 Prof. Dr. habil. Ingo Stadler Legislation / Regulation Establishment of norms and standards Pilot Projects Studies / Calculations Ideas of dreaming researchers / Visions Today Conclusion, where are we now? Time Smart Grid, Relevant Norms and Standards Prof. Dr. habil. Ingo Stadler Seite: 29 Smart Grid, Relevant Norms and Standards Prof. Dr. habil. Ingo Stadler Seite: 30 Smart Grid, Relevant Norms and Standards Prof. Dr. habil. Ingo Stadler Seite: 31 Regulation Regulation is not yet in place for the establishment of smart grids In contrary: it avoids investments in smart grids Prof. Dr. habil. Ingo Stadler Seite: 32 Should I already book a flight for 2016? Thank you for your attention Prof. Dr. habil. Ingo Stadler Seite: 33
