PVHybrid
- class PySAM.Hybrids.PVHybrid.PVHybrid
Class that adds PVHybrid to HybridSystem
- default(config) PVHybrid
Load defaults for the configuration config. Available configurations:
“PhotovoltaicWindBatteryHybridHostDeveloper”
“PhotovoltaicWindBatteryHybridSingleOwner”
- value(name, value=None) None | float | dict | sequence | str
Get or set by name a value in any of the variable groups.
- assign(input_dict) dict
Assign attributes from nested dictionary, except for Outputs:
nested_dict = { 'SolarResource': { 'solar_resource_file': val, ...}, ...}
Returns list of variables that weren’t assigned
- export() dict
Export attributes into nested dictionary
- property total_installed_cost
Total installed cost for technology [$]
- Type:
float
- property om_fixed
Fixed O&M annual amount [$/year]
- Type:
sequence
- property om_fixed_escal
Fixed O&M escalation [%/year]
- Type:
float
- property om_production
Production-based O&M amount [$/MWh]
- Type:
sequence
- property om_production_escal
Production-based O&M escalation [%/year]
- Type:
float
- property om_capacity
Capacity-based O&M amount [$/kWcap]
- Type:
sequence
- property om_capacity_escal
Capacity-based O&M escalation [%/year]
- Type:
float
- property degradation
Annual AC degradation [%]. If not provided, defaults to [0]
- Type:
sequence
- class SolarResource
See
PySAM.PVHybrid.PVHybrid.SolarResource
- class Losses
See
PySAM.PVHybrid.PVHybrid.Losses
- class Lifetime
See
PySAM.PVHybrid.PVHybrid.Lifetime
- class SystemDesign
See
PySAM.PVHybrid.PVHybrid.SystemDesign
- class Shading
See
PySAM.PVHybrid.PVHybrid.Shading
- class Layout
See
PySAM.PVHybrid.PVHybrid.Layout
- class Module
See
PySAM.PVHybrid.PVHybrid.Module
- class SimpleEfficiencyModuleModel
See
PySAM.PVHybrid.PVHybrid.SimpleEfficiencyModuleModel
- class CECPerformanceModelWithModuleDatabase
See
PySAM.PVHybrid.PVHybrid.CECPerformanceModelWithModuleDatabase
- class CECPerformanceModelWithUserEnteredSpecifications
See
PySAM.PVHybrid.PVHybrid.CECPerformanceModelWithUserEnteredSpecifications
- class SandiaPVArrayPerformanceModelWithModuleDatabase
See
PySAM.PVHybrid.PVHybrid.SandiaPVArrayPerformanceModelWithModuleDatabase
- class IEC61853SingleDiodeModel
See
PySAM.PVHybrid.PVHybrid.IEC61853SingleDiodeModel
- class MermoudLejeuneSingleDiodeModel
See
PySAM.PVHybrid.PVHybrid.MermoudLejeuneSingleDiodeModel
- class Inverter
See
PySAM.PVHybrid.PVHybrid.Inverter
- class InverterCECDatabase
See
PySAM.PVHybrid.PVHybrid.InverterCECDatabase
- class InverterCECCoefficientGenerator
See
PySAM.PVHybrid.PVHybrid.InverterCECCoefficientGenerator
- class InverterDatasheet
See
PySAM.PVHybrid.PVHybrid.InverterDatasheet
- class InverterPartLoadCurve
See
PySAM.PVHybrid.PVHybrid.InverterPartLoadCurve
- class InverterMermoudLejeuneModel
See
PySAM.PVHybrid.PVHybrid.InverterMermoudLejeuneModel
- class BatterySystem
See
PySAM.PVHybrid.PVHybrid.BatterySystem
- class Load
See
PySAM.PVHybrid.PVHybrid.Load
- class PVLosses
See
PySAM.PVHybrid.PVHybrid.PVLosses
- class AdjustmentFactors
See
PySAM.PVHybrid.PVHybrid.AdjustmentFactors
- class BatteryCell
See
PySAM.PVHybrid.PVHybrid.BatteryCell
- class BatteryDispatch
See
PySAM.PVHybrid.PVHybrid.BatteryDispatch
- class SystemCosts
See
PySAM.PVHybrid.PVHybrid.SystemCosts
- class FuelCell
See
PySAM.PVHybrid.PVHybrid.FuelCell
- class PriceSignal
See
PySAM.PVHybrid.PVHybrid.PriceSignal
- class Revenue
See
PySAM.PVHybrid.PVHybrid.Revenue
- class ElectricityRates
See
PySAM.PVHybrid.PVHybrid.ElectricityRates
- class GridLimits
See
PySAM.PVHybrid.PVHybrid.GridLimits
- class Outputs
See
PySAM.PVHybrid.PVHybrid.GridLimits