| Scenarios in 2030 . | Supply side . | Demand side . |
|---|---|---|
| S0: Base case | • Power plants PDP2018 | • Forecasting as PDP2018 |
| S1: High EV penetration | • Power plants PDP2018 | • Forecasting as PDP2018 • EV charging demand |
| S2: High VRE penetration | • Power plants PDP2018 • 60% VRE installation | • Forecasting as PDP2018 • EV charging demand |
| S3: Using control charging on EV and DR | • Power plants PDP2018 • 60% VRE installation | • Forecasting as PDP2018 • EV charging demand • Grid-to-vehicle (G2V) control • DR from residential |
| S4: ESS | • Power plants PDP2018 • 60% VRE installation • ESS discharging | • Forecasting as PDP2018 • EV charging demand • G2V control • DR from residential • ESS charging |
| S5: Adds carbon pricing (i.e. carbon tax and credits) |
| Scenarios in 2030 . | Supply side . | Demand side . |
|---|---|---|
| S0: Base case | • Power plants PDP2018 | • Forecasting as PDP2018 |
| S1: High EV penetration | • Power plants PDP2018 | • Forecasting as PDP2018 • EV charging demand |
| S2: High VRE penetration | • Power plants PDP2018 • 60% VRE installation | • Forecasting as PDP2018 • EV charging demand |
| S3: Using control charging on EV and DR | • Power plants PDP2018 • 60% VRE installation | • Forecasting as PDP2018 • EV charging demand • Grid-to-vehicle (G2V) control • DR from residential |
| S4: ESS | • Power plants PDP2018 • 60% VRE installation • ESS discharging | • Forecasting as PDP2018 • EV charging demand • G2V control • DR from residential • ESS charging |
| S5: Adds carbon pricing (i.e. carbon tax and credits) |
| Scenarios in 2030 . | Supply side . | Demand side . |
|---|---|---|
| S0: Base case | • Power plants PDP2018 | • Forecasting as PDP2018 |
| S1: High EV penetration | • Power plants PDP2018 | • Forecasting as PDP2018 • EV charging demand |
| S2: High VRE penetration | • Power plants PDP2018 • 60% VRE installation | • Forecasting as PDP2018 • EV charging demand |
| S3: Using control charging on EV and DR | • Power plants PDP2018 • 60% VRE installation | • Forecasting as PDP2018 • EV charging demand • Grid-to-vehicle (G2V) control • DR from residential |
| S4: ESS | • Power plants PDP2018 • 60% VRE installation • ESS discharging | • Forecasting as PDP2018 • EV charging demand • G2V control • DR from residential • ESS charging |
| S5: Adds carbon pricing (i.e. carbon tax and credits) |
| Scenarios in 2030 . | Supply side . | Demand side . |
|---|---|---|
| S0: Base case | • Power plants PDP2018 | • Forecasting as PDP2018 |
| S1: High EV penetration | • Power plants PDP2018 | • Forecasting as PDP2018 • EV charging demand |
| S2: High VRE penetration | • Power plants PDP2018 • 60% VRE installation | • Forecasting as PDP2018 • EV charging demand |
| S3: Using control charging on EV and DR | • Power plants PDP2018 • 60% VRE installation | • Forecasting as PDP2018 • EV charging demand • Grid-to-vehicle (G2V) control • DR from residential |
| S4: ESS | • Power plants PDP2018 • 60% VRE installation • ESS discharging | • Forecasting as PDP2018 • EV charging demand • G2V control • DR from residential • ESS charging |
| S5: Adds carbon pricing (i.e. carbon tax and credits) |
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