/CIM14/IEC61970/Generation/Production/__init__.py
Python | 145 lines | 67 code | 19 blank | 59 comment | 0 complexity | f4df7e40bba59d0152b1754ccd71bd93 MD5 | raw file
- # Copyright (C) 2010-2011 Richard Lincoln
- #
- # Permission is hereby granted, free of charge, to any person obtaining a copy
- # of this software and associated documentation files (the "Software"), to
- # deal in the Software without restriction, including without limitation the
- # rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
- # sell copies of the Software, and to permit persons to whom the Software is
- # furnished to do so, subject to the following conditions:
- #
- # The above copyright notice and this permission notice shall be included in
- # all copies or substantial portions of the Software.
- #
- # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
- # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
- # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
- # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
- # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
- # FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
- # IN THE SOFTWARE.
- """The production package is responsible for classes which describe various kinds of generators. These classes also provide production costing information which is used to economically allocate demand among committed units and calculate reserve quantities.
- """
- from CIM14.IEC61970.Generation.Production.LevelVsVolumeCurve import LevelVsVolumeCurve
- from CIM14.IEC61970.Generation.Production.FossilFuel import FossilFuel
- from CIM14.IEC61970.Generation.Production.SteamSendoutSchedule import SteamSendoutSchedule
- from CIM14.IEC61970.Generation.Production.EmissionCurve import EmissionCurve
- from CIM14.IEC61970.Generation.Production.CombinedCyclePlant import CombinedCyclePlant
- from CIM14.IEC61970.Generation.Production.StartIgnFuelCurve import StartIgnFuelCurve
- from CIM14.IEC61970.Generation.Production.HydroGeneratingEfficiencyCurve import HydroGeneratingEfficiencyCurve
- from CIM14.IEC61970.Generation.Production.StartRampCurve import StartRampCurve
- from CIM14.IEC61970.Generation.Production.GeneratingUnit import GeneratingUnit
- from CIM14.IEC61970.Generation.Production.NuclearGeneratingUnit import NuclearGeneratingUnit
- from CIM14.IEC61970.Generation.Production.WindGeneratingUnit import WindGeneratingUnit
- from CIM14.IEC61970.Generation.Production.StartMainFuelCurve import StartMainFuelCurve
- from CIM14.IEC61970.Generation.Production.StartupModel import StartupModel
- from CIM14.IEC61970.Generation.Production.AirCompressor import AirCompressor
- from CIM14.IEC61970.Generation.Production.HeatInputCurve import HeatInputCurve
- from CIM14.IEC61970.Generation.Production.CogenerationPlant import CogenerationPlant
- from CIM14.IEC61970.Generation.Production.ShutdownCurve import ShutdownCurve
- from CIM14.IEC61970.Generation.Production.InflowForecast import InflowForecast
- from CIM14.IEC61970.Generation.Production.HydroGeneratingUnit import HydroGeneratingUnit
- from CIM14.IEC61970.Generation.Production.TargetLevelSchedule import TargetLevelSchedule
- from CIM14.IEC61970.Generation.Production.EmissionAccount import EmissionAccount
- from CIM14.IEC61970.Generation.Production.GrossToNetActivePowerCurve import GrossToNetActivePowerCurve
- from CIM14.IEC61970.Generation.Production.HydroPumpOpSchedule import HydroPumpOpSchedule
- from CIM14.IEC61970.Generation.Production.Reservoir import Reservoir
- from CIM14.IEC61970.Generation.Production.CAESPlant import CAESPlant
- from CIM14.IEC61970.Generation.Production.GenUnitOpCostCurve import GenUnitOpCostCurve
- from CIM14.IEC61970.Generation.Production.PenstockLossCurve import PenstockLossCurve
- from CIM14.IEC61970.Generation.Production.HydroPump import HydroPump
- from CIM14.IEC61970.Generation.Production.GenUnitOpSchedule import GenUnitOpSchedule
- from CIM14.IEC61970.Generation.Production.FuelAllocationSchedule import FuelAllocationSchedule
- from CIM14.IEC61970.Generation.Production.HeatRateCurve import HeatRateCurve
- from CIM14.IEC61970.Generation.Production.IncrementalHeatRateCurve import IncrementalHeatRateCurve
- from CIM14.IEC61970.Generation.Production.ThermalGeneratingUnit import ThermalGeneratingUnit
- from CIM14.IEC61970.Generation.Production.TailbayLossCurve import TailbayLossCurve
- from CIM14.IEC61970.Generation.Production.HydroPowerPlant import HydroPowerPlant
- nsURI = "http://iec.ch/TC57/2009/CIM-schema-cim14#Production"
- nsPrefix = "cimProduction"
- class HydroPlantType(str):
- """The type of hydro power plant.
- Values are: runOfRiver, minorStorage, majorStorage, pumpedStorage
- """
- pass
- class EmissionValueSource(str):
- """The source of the emission value.
- Values are: measured, calculated
- """
- pass
- class GeneratorControlMode(str):
- """Unit control modes.
- Values are: setpoint, pulse
- """
- pass
- class FuelType(str):
- """Type of fuel.
- Values are: lignite, coal, oil, gas
- """
- pass
- class GeneratorControlSource(str):
- """The source of controls for a generating unit.
- Values are: unavailable, onAGC, plantControl, offAGC
- """
- pass
- class HydroEnergyConversionKind(str):
- """Specifies the capability of the hydro generating unit to convert energy as a generator or pump.
- Values are: generator, pumpAndGenerator
- """
- pass
- class SpillwayGateType(str):
- """Type of spillway gate.
- """
- pass
- class SurgeTankCode(str):
- """Type (or absence) of surge tank that is associated with the hydro power plant.
- """
- pass
- class EmissionType(str):
- """The type of emission
- Values are: chlorine, carbonDioxide, hydrogenSulfide, nitrogenOxide, sulfurDioxide, carbonDisulfide
- """
- pass
- class GeneratorOperatingMode(str):
- """Operating mode for secondary generator control.
- Values are: fixed, EDC, manual, off, MRN, LFC, AGC, REG
- """
- pass
- class PenstockType(str):
- """Type of hydro plant penstock.
- """
- pass
- class Emission(float):
- """Quantity of emission per fuel heat content
- """
- pass
- class HeatRate(float):
- """Heat generated, in energy pertime unit of elapsed time
- """
- pass
- class Classification(int):
- """1..n, with 1 the most detailed, highest priority, etc.
- """
- pass
- class CostPerHeatUnit(float):
- """Cost, in units of currency, per quantity of heat generated
- """
- pass