area#
Market data. Exactly one instance is mandatory.
Input connections |
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Output connections |
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License |
PRODRISK_OPEN |
Release version |
9.6.1 |
Attributes#
| Object type | Attribute name | Python data type | Core data type | unit | I/O | License | Version added | Description |
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total_production#
Total production (unit: GWh)
price#
Market prices. (unit: EUR/MWh)
total_reserve_up_capacity#
Maximum reserve up capacity (unit: MW)
output_reserve_down_price#
Output reserve down price (unit: EUR/MWh)
total_reservoir_volume#
Total reservoir volume (unit: GWh)
reserve_up_obligation_cost#
Violations of reserve up obligation (unit: MW)
fcost_per_scen#
Forward cost per scenario from final simulation. (unit: framkost_scen and MEUR)
total_reserve_down_capacity#
Maximum reserve down capacity (unit: MW)
cutRHS#
The right-hand side of the cuts is given as an array of XY tables. Each xy table in the array corresponds to a price level in ascending order. The x values are all 0, while the y values are the right-hand side of the cuts. (unit: kEUR)
expected_objective_value#
Expected objective value (includes penalties? includes end reservoir level?) (unit: kEUR)
backward_cost_first_run#
Backward cost per iteration (first main iteration) (unit: MEUR)
total_energy_consumed#
Total energy consumed (unit: GWh)
cutFrequency#
The number of times a cut is binding is given as an array of XY tables. Each xy table in the array corresponds to a price level in ascending order. The x values are all 0, while the y values represent the frequency. (unit: none)
backward_cost#
Backward cost per iteration (unit: K-KOST and MEUR)
reserve_down_obligation#
Reserve down obligation (unit: MW)
total_reservoir_overflow#
Total reservoir overflow (unit: GWh)
forward_cost#
Forward cost per iteration (unit: F-KOST and MEUR)
indvan_prd_price_level#
Price level the water values at start time refers to. (unit: EUR/MWh)
priceTransition#
The probability of jumping from one price level to another. The nPriceLevels first scenarios represent the transition probability of jumping from price level 1 to 1, 1 to 2, 1 to 3, etc., 1 to nPriceLevels. The next nPriceLevels scenarios represent jumping from 2 to 1, 2 to 2 and so on. (unit: none)
total_nonstorable_inflow#
Reserved for future use: total unregulated inflow (unit: GWh)
output_price#
Output price (unit: EUR/MWh)
reserve_up_price#
Reserve up price (unit: EUR/MWh)
total_reserve_down_allocation#
Output total reserve down allocation (unit: MW)
lognormal_probabilities#
Probabilities (weights) from k-means clustering used in the lognormal inflow model (unit: none)
reserve_down_obligation_cost#
Violations of reserve down obligation (unit: MW)
output_reserve_up_price#
Output reserve up price (unit: EUR/MWh)
total_reserve_up_allocation#
Output total reserve up allocation (unit: MW)
waterValue#
Aggregated water values at the end of the simulation interval. Each xy table in the array corresponds to a price level in ascending order. The tables consist of 51 xy points, where the x values represent the relative water level in the reservoir in steps of 2% from 100% down to 0% (descending order). The y values are the water values for the given price level and degree of reservoir filling. (unit: % and EUR/MWh)
priceBand#
The weekly prices corresponding to the price levels calculated by the price model (unit: EUR/MWh)
total_discharge#
Total discharge (unit: GWh)
water_value_result#
Aggregated water values (unit: EUR/MWh)
forward_cost_first_run#
Forward cost per iteration (first main iteration) (unit: MEUR)
total_energy_pumped#
Total energy pumped (unit: GWh)
reserve_down_price#
Reserve down price (unit: EUR/MWh)
reserve_up_obligation#
Reserve up obligation (unit: MW)
total_storable_inflow#
Total inflow (regulated + unregulated) (unit: GWh)