From: A multi-energy inertia-based power support strategy with gas network constraints
 | Cost (¥) | Output |
---|---|---|
(a) \({L}_{1}\) | ||
Thermal inertia | 323,990 | 100.0000/99.9917/100.0000 (kWh/s) |
Gas inertia | 387,260 | 412.0163 (kWh/s) |
Demand side | 137,380 | 116.0082/89.9925/90.0000 (kWh/s) |
Heat-electricity ratio adjustment | 74,163 | 1.0000 |
Total | 922,780 | / |
(b) \({L}_{2}\) | ||
Thermal inertia | 324,000 | 100.0000/100.0000/100.0000 (kWh/s) |
Gas inertia | 386,400 | 412.0000 (kWh/s) |
Demand side | 137,380 | 90.0000/116.0000/90.0000 (kWh/s) |
Heat-electricity ratio adjustment | 74,160 | 1.0000 |
Total | 921,940 | / |
(c) \({L}_{3}\) | ||
Thermal inertia | 324,000 | 100.0000/100.0000/100.0000 (kWh/s) |
Gas inertia | 379,130 | 412.0163 (kWh/s) |
Demand side | 137,380 | 90.0000/116.0000/90.0000 (kWh/s) |
Heat-electricity ratio adjustment | 74,160 | 1.0000 |
Total | 914,670 | / |