Fixing website and API documentation links
[PyCIM.git] / CIM14 / IEC61970 / Generation / Production / Reservoir.py
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1 # Copyright (C) 2010-2011 Richard Lincoln
3 # Permission is hereby granted, free of charge, to any person obtaining a copy
4 # of this software and associated documentation files (the "Software"), to
5 # deal in the Software without restriction, including without limitation the
6 # rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
7 # sell copies of the Software, and to permit persons to whom the Software is
8 # furnished to do so, subject to the following conditions:
10 # The above copyright notice and this permission notice shall be included in
11 # all copies or substantial portions of the Software.
13 # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
14 # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
15 # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
16 # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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18 # FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
19 # IN THE SOFTWARE.
21 from CIM14.IEC61970.Core.PowerSystemResource import PowerSystemResource
23 class Reservoir(PowerSystemResource):
24 """A water storage facility within a hydro system, including: ponds, lakes, lagoons, and rivers. The storage is usually behind some type of dam.
25 """
27 def __init__(self, spillWayGateType="", fullSupplyLevel=0.0, spillTravelDelay=0.0, spillwayCrestLength=0.0, grossCapacity=0.0, riverOutletWorks='', spillwayCapacity=0.0, spillwayCrestLevel=0.0, normalMinOperateLevel=0.0, energyStorageRating=0.0, activeStorageCapacity=0.0, LevelVsVolumeCurves=None, InflowForecasts=None, TargetLevelSchedule=None, HydroPowerPlants=None, UpstreamFromHydroPowerPlants=None, SpillsFromReservoir=None, SpillsIntoReservoirs=None, *args, **kw_args):
28 """Initialises a new 'Reservoir' instance.
30 @param spillWayGateType: Type of spillway gate, including parameters
31 @param fullSupplyLevel: Full supply level, above which water will spill. This can be the spillway crest level or the top of closed gates.
32 @param spillTravelDelay: The spillway water travel delay to the next downstream reservoir
33 @param spillwayCrestLength: The length of the spillway crest
34 @param grossCapacity: Total capacity of reservoir
35 @param riverOutletWorks: River outlet works for riparian right releases or other purposes
36 @param spillwayCapacity: The flow capacity of the spillway in cubic meters per second
37 @param spillwayCrestLevel: Spillway crest level above which water will spill
38 @param normalMinOperateLevel: Normal minimum operating level below which the penstocks will draw air
39 @param energyStorageRating: The reservoir's energy storage rating in energy for given head conditions
40 @param activeStorageCapacity: Storage volume between the full supply level and the normal minimum operating level
41 @param LevelVsVolumeCurves: A reservoir may have a level versus volume relationship.
42 @param InflowForecasts: A reservoir may have a 'natural' inflow forecast.
43 @param TargetLevelSchedule: A reservoir may have a water level target schedule.
44 @param HydroPowerPlants: Generators discharge water to or pumps are supplied water from a downstream reservoir
45 @param UpstreamFromHydroPowerPlants: Generators are supplied water from or pumps discharge water to an upstream reservoir
46 @param SpillsFromReservoir: A reservoir may spill into a downstream reservoir
47 @param SpillsIntoReservoirs: A reservoir may spill into a downstream reservoir
48 """
49 #: Type of spillway gate, including parameters
50 self.spillWayGateType = spillWayGateType
52 #: Full supply level, above which water will spill. This can be the spillway crest level or the top of closed gates.
53 self.fullSupplyLevel = fullSupplyLevel
55 #: The spillway water travel delay to the next downstream reservoir
56 self.spillTravelDelay = spillTravelDelay
58 #: The length of the spillway crest
59 self.spillwayCrestLength = spillwayCrestLength
61 #: Total capacity of reservoir
62 self.grossCapacity = grossCapacity
64 #: River outlet works for riparian right releases or other purposes
65 self.riverOutletWorks = riverOutletWorks
67 #: The flow capacity of the spillway in cubic meters per second
68 self.spillwayCapacity = spillwayCapacity
70 #: Spillway crest level above which water will spill
71 self.spillwayCrestLevel = spillwayCrestLevel
73 #: Normal minimum operating level below which the penstocks will draw air
74 self.normalMinOperateLevel = normalMinOperateLevel
76 #: The reservoir's energy storage rating in energy for given head conditions
77 self.energyStorageRating = energyStorageRating
79 #: Storage volume between the full supply level and the normal minimum operating level
80 self.activeStorageCapacity = activeStorageCapacity
82 self._LevelVsVolumeCurves = []
83 self.LevelVsVolumeCurves = [] if LevelVsVolumeCurves is None else LevelVsVolumeCurves
85 self._InflowForecasts = []
86 self.InflowForecasts = [] if InflowForecasts is None else InflowForecasts
88 self._TargetLevelSchedule = None
89 self.TargetLevelSchedule = TargetLevelSchedule
91 self._HydroPowerPlants = []
92 self.HydroPowerPlants = [] if HydroPowerPlants is None else HydroPowerPlants
94 self._UpstreamFromHydroPowerPlants = []
95 self.UpstreamFromHydroPowerPlants = [] if UpstreamFromHydroPowerPlants is None else UpstreamFromHydroPowerPlants
97 self._SpillsFromReservoir = None
98 self.SpillsFromReservoir = SpillsFromReservoir
100 self._SpillsIntoReservoirs = []
101 self.SpillsIntoReservoirs = [] if SpillsIntoReservoirs is None else SpillsIntoReservoirs
103 super(Reservoir, self).__init__(*args, **kw_args)
105 _attrs = ["spillWayGateType", "fullSupplyLevel", "spillTravelDelay", "spillwayCrestLength", "grossCapacity", "riverOutletWorks", "spillwayCapacity", "spillwayCrestLevel", "normalMinOperateLevel", "energyStorageRating", "activeStorageCapacity"]
106 _attr_types = {"spillWayGateType": str, "fullSupplyLevel": float, "spillTravelDelay": float, "spillwayCrestLength": float, "grossCapacity": float, "riverOutletWorks": str, "spillwayCapacity": float, "spillwayCrestLevel": float, "normalMinOperateLevel": float, "energyStorageRating": float, "activeStorageCapacity": float}
107 _defaults = {"spillWayGateType": "", "fullSupplyLevel": 0.0, "spillTravelDelay": 0.0, "spillwayCrestLength": 0.0, "grossCapacity": 0.0, "riverOutletWorks": '', "spillwayCapacity": 0.0, "spillwayCrestLevel": 0.0, "normalMinOperateLevel": 0.0, "energyStorageRating": 0.0, "activeStorageCapacity": 0.0}
108 _enums = {"spillWayGateType": "SpillwayGateType"}
109 _refs = ["LevelVsVolumeCurves", "InflowForecasts", "TargetLevelSchedule", "HydroPowerPlants", "UpstreamFromHydroPowerPlants", "SpillsFromReservoir", "SpillsIntoReservoirs"]
110 _many_refs = ["LevelVsVolumeCurves", "InflowForecasts", "HydroPowerPlants", "UpstreamFromHydroPowerPlants", "SpillsIntoReservoirs"]
112 def getLevelVsVolumeCurves(self):
113 """A reservoir may have a level versus volume relationship.
115 return self._LevelVsVolumeCurves
117 def setLevelVsVolumeCurves(self, value):
118 for x in self._LevelVsVolumeCurves:
119 x.Reservoir = None
120 for y in value:
121 y._Reservoir = self
122 self._LevelVsVolumeCurves = value
124 LevelVsVolumeCurves = property(getLevelVsVolumeCurves, setLevelVsVolumeCurves)
126 def addLevelVsVolumeCurves(self, *LevelVsVolumeCurves):
127 for obj in LevelVsVolumeCurves:
128 obj.Reservoir = self
130 def removeLevelVsVolumeCurves(self, *LevelVsVolumeCurves):
131 for obj in LevelVsVolumeCurves:
132 obj.Reservoir = None
134 def getInflowForecasts(self):
135 """A reservoir may have a 'natural' inflow forecast.
137 return self._InflowForecasts
139 def setInflowForecasts(self, value):
140 for x in self._InflowForecasts:
141 x.Reservoir = None
142 for y in value:
143 y._Reservoir = self
144 self._InflowForecasts = value
146 InflowForecasts = property(getInflowForecasts, setInflowForecasts)
148 def addInflowForecasts(self, *InflowForecasts):
149 for obj in InflowForecasts:
150 obj.Reservoir = self
152 def removeInflowForecasts(self, *InflowForecasts):
153 for obj in InflowForecasts:
154 obj.Reservoir = None
156 def getTargetLevelSchedule(self):
157 """A reservoir may have a water level target schedule.
159 return self._TargetLevelSchedule
161 def setTargetLevelSchedule(self, value):
162 if self._TargetLevelSchedule is not None:
163 self._TargetLevelSchedule._Reservoir = None
165 self._TargetLevelSchedule = value
166 if self._TargetLevelSchedule is not None:
167 self._TargetLevelSchedule.Reservoir = None
168 self._TargetLevelSchedule._Reservoir = self
170 TargetLevelSchedule = property(getTargetLevelSchedule, setTargetLevelSchedule)
172 def getHydroPowerPlants(self):
173 """Generators discharge water to or pumps are supplied water from a downstream reservoir
175 return self._HydroPowerPlants
177 def setHydroPowerPlants(self, value):
178 for x in self._HydroPowerPlants:
179 x.Reservoir = None
180 for y in value:
181 y._Reservoir = self
182 self._HydroPowerPlants = value
184 HydroPowerPlants = property(getHydroPowerPlants, setHydroPowerPlants)
186 def addHydroPowerPlants(self, *HydroPowerPlants):
187 for obj in HydroPowerPlants:
188 obj.Reservoir = self
190 def removeHydroPowerPlants(self, *HydroPowerPlants):
191 for obj in HydroPowerPlants:
192 obj.Reservoir = None
194 def getUpstreamFromHydroPowerPlants(self):
195 """Generators are supplied water from or pumps discharge water to an upstream reservoir
197 return self._UpstreamFromHydroPowerPlants
199 def setUpstreamFromHydroPowerPlants(self, value):
200 for x in self._UpstreamFromHydroPowerPlants:
201 x.GenSourcePumpDischargeReservoir = None
202 for y in value:
203 y._GenSourcePumpDischargeReservoir = self
204 self._UpstreamFromHydroPowerPlants = value
206 UpstreamFromHydroPowerPlants = property(getUpstreamFromHydroPowerPlants, setUpstreamFromHydroPowerPlants)
208 def addUpstreamFromHydroPowerPlants(self, *UpstreamFromHydroPowerPlants):
209 for obj in UpstreamFromHydroPowerPlants:
210 obj.GenSourcePumpDischargeReservoir = self
212 def removeUpstreamFromHydroPowerPlants(self, *UpstreamFromHydroPowerPlants):
213 for obj in UpstreamFromHydroPowerPlants:
214 obj.GenSourcePumpDischargeReservoir = None
216 def getSpillsFromReservoir(self):
217 """A reservoir may spill into a downstream reservoir
219 return self._SpillsFromReservoir
221 def setSpillsFromReservoir(self, value):
222 if self._SpillsFromReservoir is not None:
223 filtered = [x for x in self.SpillsFromReservoir.SpillsIntoReservoirs if x != self]
224 self._SpillsFromReservoir._SpillsIntoReservoirs = filtered
226 self._SpillsFromReservoir = value
227 if self._SpillsFromReservoir is not None:
228 if self not in self._SpillsFromReservoir._SpillsIntoReservoirs:
229 self._SpillsFromReservoir._SpillsIntoReservoirs.append(self)
231 SpillsFromReservoir = property(getSpillsFromReservoir, setSpillsFromReservoir)
233 def getSpillsIntoReservoirs(self):
234 """A reservoir may spill into a downstream reservoir
236 return self._SpillsIntoReservoirs
238 def setSpillsIntoReservoirs(self, value):
239 for x in self._SpillsIntoReservoirs:
240 x.SpillsFromReservoir = None
241 for y in value:
242 y._SpillsFromReservoir = self
243 self._SpillsIntoReservoirs = value
245 SpillsIntoReservoirs = property(getSpillsIntoReservoirs, setSpillsIntoReservoirs)
247 def addSpillsIntoReservoirs(self, *SpillsIntoReservoirs):
248 for obj in SpillsIntoReservoirs:
249 obj.SpillsFromReservoir = self
251 def removeSpillsIntoReservoirs(self, *SpillsIntoReservoirs):
252 for obj in SpillsIntoReservoirs:
253 obj.SpillsFromReservoir = None