Review on Smart Charging of Electric Vehicles via Market-Based Incentives, Grid-Friendly and Grid-Compatible Measures
Abstract
:1. Introduction
- The structuring work regarding the use cases of smart charging;
- The consensus of German pilot projects on the communication channel between all stakeholders for two specific use cases of smart charging;
- An agreement on the applicable standards;
- Solutions for prioritisation and orchestration of the control signals.
2. Relevant Smart Charging: Use Cases and Learnings from Their Application in Different Pilot Projects
2.1. Use Cases
2.1.1. Smart Charging via Price Incentives
2.1.2. Grid-Friendly and Grid-Compatible Charging
2.2. Application of Use Cases
3. Consensus on Communication Channel and Standards for Price-Driven Use Cases
4. Potentials, Incentives and Needs for Actions for Smart Charging
4.1. Economic Aspects
4.2. Raising Ecological Potentials Economically
4.3. Creation of Incentives, Regulation and Use Aspects
5. Conclusions and Outlook
Author Contributions
Funding
Data Availability Statement
Acknowledgments
Conflicts of Interest
References
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Use Case | Revenue Location | Customer Group | Regulation |
---|---|---|---|
Time arbitrage through trading on the electricity market (day ahead, intraday) (V2G) | In front of the metre | ||
Tariff-optimised charging (stock market-oriented, variable grid charges) (V2H) | Behind the metre | ||
Legend | Grid and grid operator | Industry/public use | Home/private use |
Type of Tariff | Time-of-Use Pricing (TOU) | Variable Peak Pricing (VPP) | Critical Peak Pricing (CPP) | Real-Time Pricing (RTP) |
---|---|---|---|---|
Setting prices | Static | Static and dynamic | Static and dynamic | Dynamic |
Description | Usage over large time blocks of several hours (e.g., day and night pricing) | different periods for pricing are defined in advance, but the price for the on-peak period varies depending on market conditions | Rate in which electricity prices increase substantially for a few days in a year | Prices are determined close to real-time consumption of electricity on fine granularity (e.g., 15 min) |
Graphical representation |
Use Case | Revenue Location | Customer Group | Regulation |
---|---|---|---|
Peak load capping (V2B) | Behind the metre | ||
Increase in self-consumption (V2H) | Behind the metre | ||
System services (V2G) | In front of the metre | ||
Legend | Grid and grid operator | Industry/public use | Home/ private use |
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Johnsen, D.; Ostendorf, L.; Bechberger, M.; Strommenger, D. Review on Smart Charging of Electric Vehicles via Market-Based Incentives, Grid-Friendly and Grid-Compatible Measures. World Electr. Veh. J. 2023, 14, 25. https://doi.org/10.3390/wevj14010025
Johnsen D, Ostendorf L, Bechberger M, Strommenger D. Review on Smart Charging of Electric Vehicles via Market-Based Incentives, Grid-Friendly and Grid-Compatible Measures. World Electric Vehicle Journal. 2023; 14(1):25. https://doi.org/10.3390/wevj14010025
Chicago/Turabian StyleJohnsen, Doris, Lars Ostendorf, Mischa Bechberger, and Daniel Strommenger. 2023. "Review on Smart Charging of Electric Vehicles via Market-Based Incentives, Grid-Friendly and Grid-Compatible Measures" World Electric Vehicle Journal 14, no. 1: 25. https://doi.org/10.3390/wevj14010025
APA StyleJohnsen, D., Ostendorf, L., Bechberger, M., & Strommenger, D. (2023). Review on Smart Charging of Electric Vehicles via Market-Based Incentives, Grid-Friendly and Grid-Compatible Measures. World Electric Vehicle Journal, 14(1), 25. https://doi.org/10.3390/wevj14010025