GenericBattery
PowerSystems.GenericBattery — Typemutable struct GenericBattery <: Storage
name::String
available::Bool
bus::Bus
prime_mover::PrimeMovers
initial_energy::Float64
state_of_charge_limits::NamedTuple{(:min, :max), Tuple{Float64, Float64}}
rating::Float64
active_power::Float64
input_active_power_limits::NamedTuple{(:min, :max), Tuple{Float64, Float64}}
output_active_power_limits::NamedTuple{(:min, :max), Tuple{Float64, Float64}}
efficiency::NamedTuple{(:in, :out), Tuple{Float64, Float64}}
reactive_power::Float64
reactive_power_limits::Union{Nothing, Min_Max}
base_power::Float64
operation_cost::Union{Nothing, OperationalCost}
services::Vector{Service}
dynamic_injector::Union{Nothing, DynamicInjection}
ext::Dict{String, Any}
time_series_container::InfrastructureSystems.TimeSeriesContainer
internal::InfrastructureSystemsInternal
endData structure for a generic battery
Arguments
name::Stringavailable::Boolbus::Busprime_mover::PrimeMovers: Prime mover technology according to EIA 923initial_energy::Float64: State of Charge of the Battery p.u.-hr, validation range:(0, nothing), action if invalid:errorstate_of_charge_limits::NamedTuple{(:min, :max), Tuple{Float64, Float64}}: Maximum and Minimum storage capacity in p.u.-hr, validation range:(0, nothing), action if invalid:errorrating::Float64active_power::Float64input_active_power_limits::NamedTuple{(:min, :max), Tuple{Float64, Float64}}, validation range:(0, nothing), action if invalid:erroroutput_active_power_limits::NamedTuple{(:min, :max), Tuple{Float64, Float64}}, validation range:(0, nothing), action if invalid:errorefficiency::NamedTuple{(:in, :out), Tuple{Float64, Float64}}, validation range:(0, 1), action if invalid:warnreactive_power::Float64, validation range:reactive_power_limits, action if invalid:warnreactive_power_limits::Union{Nothing, Min_Max}base_power::Float64: Base power of the unit in MVA, validation range:(0, nothing), action if invalid:warnoperation_cost::Union{Nothing, OperationalCost}services::Vector{Service}: Services that this device contributes todynamic_injector::Union{Nothing, DynamicInjection}: corresponding dynamic injection deviceext::Dict{String, Any}time_series_container::InfrastructureSystems.TimeSeriesContainer: internal time_series storageinternal::InfrastructureSystemsInternal: power system internal reference, do not modify
InfrastructureSystems.get_name — Methodget_name(value::GenericBattery) -> String
Get GenericBattery name.
InfrastructureSystems.get_time_series_container — Methodget_time_series_container(value::GenericBattery) -> InfrastructureSystems.TimeSeriesContainer
Get GenericBattery time_series_container.
InfrastructureSystems.set_name! — Methodset_name!(value::GenericBattery, val) -> Any
Set GenericBattery name.
PowerSystems.get_active_power — Methodget_active_power(value::GenericBattery) -> Any
Get GenericBattery active_power.
PowerSystems.get_available — Methodget_available(value::GenericBattery) -> Bool
Get GenericBattery available.
PowerSystems.get_base_power — Methodget_base_power(value::GenericBattery) -> Float64
Get GenericBattery base_power.
PowerSystems.get_bus — Methodget_bus(value::GenericBattery) -> Bus
Get GenericBattery bus.
PowerSystems.get_dynamic_injector — Methodget_dynamic_injector(value::GenericBattery) -> Union{Nothing, DynamicInjection}
Get GenericBattery dynamic_injector.
PowerSystems.get_efficiency — Methodget_efficiency(value::GenericBattery) -> NamedTuple{(:in, :out), Tuple{Float64, Float64}}
Get GenericBattery efficiency.
PowerSystems.get_ext — Methodget_ext(value::GenericBattery) -> Dict{String, Any}
Get GenericBattery ext.
PowerSystems.get_initial_energy — Methodget_initial_energy(value::GenericBattery) -> Any
Get GenericBattery initial_energy.
PowerSystems.get_input_active_power_limits — Methodget_input_active_power_limits(value::GenericBattery) -> NamedTuple{(:min, :max), _A} where _A<:Tuple{Any, Any}
Get GenericBattery input_active_power_limits.
PowerSystems.get_operation_cost — Methodget_operation_cost(value::GenericBattery) -> Union{Nothing, PowerSystems.OperationalCost}
Get GenericBattery operation_cost.
PowerSystems.get_output_active_power_limits — Methodget_output_active_power_limits(value::GenericBattery) -> NamedTuple{(:min, :max), _A} where _A<:Tuple{Any, Any}
Get GenericBattery output_active_power_limits.
PowerSystems.get_prime_mover — Methodget_prime_mover(value::GenericBattery) -> PrimeMovers
Get GenericBattery prime_mover.
PowerSystems.get_rating — Methodget_rating(value::GenericBattery) -> Any
Get GenericBattery rating.
PowerSystems.get_reactive_power — Methodget_reactive_power(value::GenericBattery) -> Any
Get GenericBattery reactive_power.
PowerSystems.get_reactive_power_limits — Methodget_reactive_power_limits(value::GenericBattery) -> Union{Nothing, NamedTuple{(:min, :max), _A} where _A<:Tuple{Any, Any}}
Get GenericBattery reactive_power_limits.
PowerSystems.get_services — Methodget_services(value::GenericBattery) -> Vector{Service}
Get GenericBattery services.
PowerSystems.get_state_of_charge_limits — Methodget_state_of_charge_limits(value::GenericBattery) -> NamedTuple{(:min, :max), _A} where _A<:Tuple{Any, Any}
Get GenericBattery state_of_charge_limits.
PowerSystems.set_active_power! — Methodset_active_power!(value::GenericBattery, val) -> Any
Set GenericBattery active_power.
PowerSystems.set_available! — Methodset_available!(value::GenericBattery, val) -> Any
Set GenericBattery available.
PowerSystems.set_base_power! — Methodset_base_power!(value::GenericBattery, val) -> Any
Set GenericBattery base_power.
PowerSystems.set_bus! — Methodset_bus!(value::GenericBattery, val) -> Any
Set GenericBattery bus.
PowerSystems.set_efficiency! — Methodset_efficiency!(value::GenericBattery, val) -> Any
Set GenericBattery efficiency.
PowerSystems.set_ext! — Methodset_ext!(value::GenericBattery, val) -> Any
Set GenericBattery ext.
PowerSystems.set_initial_energy! — Methodset_initial_energy!(value::GenericBattery, val) -> Any
Set GenericBattery initial_energy.
PowerSystems.set_input_active_power_limits! — Methodset_input_active_power_limits!(value::GenericBattery, val) -> Any
Set GenericBattery input_active_power_limits.
PowerSystems.set_operation_cost! — Methodset_operation_cost!(value::GenericBattery, val) -> Any
Set GenericBattery operation_cost.
PowerSystems.set_output_active_power_limits! — Methodset_output_active_power_limits!(value::GenericBattery, val) -> Any
Set GenericBattery output_active_power_limits.
PowerSystems.set_prime_mover! — Methodset_prime_mover!(value::GenericBattery, val) -> Any
Set GenericBattery prime_mover.
PowerSystems.set_rating! — Methodset_rating!(value::GenericBattery, val) -> Any
Set GenericBattery rating.
PowerSystems.set_reactive_power! — Methodset_reactive_power!(value::GenericBattery, val) -> Any
Set GenericBattery reactive_power.
PowerSystems.set_reactive_power_limits! — Methodset_reactive_power_limits!(value::GenericBattery, val) -> Any
Set GenericBattery reactive_power_limits.
PowerSystems.set_services! — Methodset_services!(value::GenericBattery, val) -> Any
Set GenericBattery services.
PowerSystems.set_state_of_charge_limits! — Methodset_state_of_charge_limits!(value::GenericBattery, val) -> Any
Set GenericBattery state_of_charge_limits.
PowerSystems.set_time_series_container! — Methodset_time_series_container!(value::GenericBattery, val) -> Any
Set GenericBattery time_series_container.