MotorLoad
PowerSystems.MotorLoad — Typemutable struct MotorLoad <: StaticLoad
name::String
available::Bool
bus::ACBus
active_power::Float64
reactive_power::Float64
base_power::Float64
rating::Float64
max_active_power::Float64
reactive_power_limits::Union{Nothing, MinMax}
motor_technology::MotorLoadTechnology
services::Vector{Service}
dynamic_injector::Union{Nothing, DynamicInjection}
ext::Dict{String, Any}
internal::InfrastructureSystemsInternal
endA static power load, most commonly used for operational models such as power flow and operational optimizations.
This load consumes a set amount of power (set by active_power for a power flow simulation or a max_active_power time series for an operational simulation). For loads that can be compensated for load interruptions through demand response programs, see InterruptiblePowerLoad. For voltage-dependent loads used in dynamics modeling, see StandardLoad
Arguments
name::String: Name of the component. Components of the same type (e.g.,MotorLoad) must have unique names, but components of different types (e.g.,MotorLoadandACBus) can have the same nameavailable::Bool: Indicator of whether the component is connected and online (true) or disconnected, offline, or down (false). Unavailable components are excluded during simulationsbus::ACBus: Bus that this component is connected toactive_power::Float64: Initial steady-state active power demand (MW). A positive value indicates power consumption.reactive_power::Float64: Initial steady-state reactive power demand (MVAR). A positive value indicates reactive power consumption.base_power::Float64: Base power (MVA) for per unitization, validation range:(0, nothing)rating::Float64: Maximum AC side output power rating of the unit. Stored in per unit of the device and not to be confused with base_power, validation range:(0, nothing)max_active_power::Float64: Maximum active power (MW) that this load can demandreactive_power_limits::Union{Nothing, MinMax}: (default:nothing) Minimum and maximum reactive power limits. Set toNothingif not applicablemotor_technology::MotorLoadTechnology: (default:MotorLoadTechnology.UNDETERMINED) AC Motor type. Options are listed hereservices::Vector{Service}: (default:Device[]) Services that this device contributes todynamic_injector::Union{Nothing, DynamicInjection}: (default:nothing) corresponding dynamic injection deviceext::Dict{String, Any}: (default:Dict{String, Any}()) An extra dictionary for users to add metadata that are not used in simulation.internal::InfrastructureSystemsInternal: (Do not modify.) PowerSystems.jl internal reference
InfrastructureSystems.get_available — Methodget_available(value::MotorLoad) -> Bool
Get MotorLoad available.
InfrastructureSystems.get_name — Methodget_name(value::MotorLoad) -> String
Get MotorLoad name.
InfrastructureSystems.set_available! — Methodset_available!(value::MotorLoad, val) -> Any
Set MotorLoad available.
PowerSystems.get_active_power — Methodget_active_power(value::MotorLoad) -> Float64
Get MotorLoad active_power.
PowerSystems.get_base_power — Methodget_base_power(value::MotorLoad) -> Float64
Get MotorLoad base_power.
PowerSystems.get_bus — Methodget_bus(value::MotorLoad) -> ACBus
Get MotorLoad bus.
PowerSystems.get_dynamic_injector — Methodget_dynamic_injector(
value::MotorLoad
) -> Union{Nothing, DynamicInjection}
Get MotorLoad dynamic_injector.
PowerSystems.get_ext — Methodget_ext(value::MotorLoad) -> Dict{String, Any}
Get MotorLoad ext.
PowerSystems.get_max_active_power — Methodget_max_active_power(value::MotorLoad) -> Float64
Get MotorLoad max_active_power.
PowerSystems.get_motor_technology — Methodget_motor_technology(
value::MotorLoad
) -> MotorLoadTechnology
Get MotorLoad motor_technology.
PowerSystems.get_rating — Methodget_rating(value::MotorLoad) -> Float64
Get MotorLoad rating.
PowerSystems.get_reactive_power — Methodget_reactive_power(value::MotorLoad) -> Float64
Get MotorLoad reactive_power.
PowerSystems.get_reactive_power_limits — Methodget_reactive_power_limits(
value::MotorLoad
) -> Union{Nothing, @NamedTuple{min::Float64, max::Float64}}
Get MotorLoad reactive_power_limits.
PowerSystems.get_services — Methodget_services(value::MotorLoad) -> Vector{Service}
Get MotorLoad services.
PowerSystems.set_active_power! — Methodset_active_power!(value::MotorLoad, val) -> Any
Set MotorLoad active_power.
PowerSystems.set_base_power! — Methodset_base_power!(value::MotorLoad, val) -> Any
Set MotorLoad base_power.
PowerSystems.set_bus! — Methodset_bus!(value::MotorLoad, val) -> Any
Set MotorLoad bus.
PowerSystems.set_ext! — Methodset_ext!(value::MotorLoad, val) -> Any
Set MotorLoad ext.
PowerSystems.set_max_active_power! — Methodset_max_active_power!(value::MotorLoad, val) -> Any
Set MotorLoad max_active_power.
PowerSystems.set_motor_technology! — Methodset_motor_technology!(value::MotorLoad, val) -> Any
Set MotorLoad motor_technology.
PowerSystems.set_rating! — Methodset_rating!(value::MotorLoad, val) -> Any
Set MotorLoad rating.
PowerSystems.set_reactive_power! — Methodset_reactive_power!(value::MotorLoad, val) -> Any
Set MotorLoad reactive_power.
PowerSystems.set_reactive_power_limits! — Methodset_reactive_power_limits!(value::MotorLoad, val) -> Any
Set MotorLoad reactive_power_limits.
PowerSystems.set_services! — Methodset_services!(value::MotorLoad, val) -> Any
Set MotorLoad services.