final case class GovHydro4(TurbineGovernorDynamics: TurbineGovernorDynamics = null, at: Double = 0.0, bgv0: Double = 0.0, bgv1: Double = 0.0, bgv2: Double = 0.0, bgv3: Double = 0.0, bgv4: Double = 0.0, bgv5: Double = 0.0, bmax: Double = 0.0, db1: Double = 0.0, db2: Double = 0.0, dturb: Double = 0.0, eps: Double = 0.0, gmax: Double = 0.0, gmin: Double = 0.0, gv0: Double = 0.0, gv1: Double = 0.0, gv2: Double = 0.0, gv3: Double = 0.0, gv4: Double = 0.0, gv5: Double = 0.0, hdam: Double = 0.0, model: String = null, mwbase: Double = 0.0, pgv0: Double = 0.0, pgv1: Double = 0.0, pgv2: Double = 0.0, pgv3: Double = 0.0, pgv4: Double = 0.0, pgv5: Double = 0.0, qnl: Double = 0.0, rperm: Double = 0.0, rtemp: Double = 0.0, tblade: Double = 0.0, tg: Double = 0.0, tp: Double = 0.0, tr: Double = 0.0, tw: Double = 0.0, uc: Double = 0.0, uo: Double = 0.0) extends Element with Product with Serializable
Hydro turbine and governor.
Represents plants with straight-forward penstock configurations and hydraulic governors of the traditional 'dashpot' type. This model can be used to represent simple, Francis/Pelton or Kaplan turbines.
- TurbineGovernorDynamics
TurbineGovernorDynamics Reference to the superclass object.
- at
Turbine gain (At). Typical value = 1,2.
- bgv0
Kaplan blade servo point 0 (Bgv0) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 0.
- bgv1
Kaplan blade servo point 1 (Bgv1) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 0.
- bgv2
Kaplan blade servo point 2 (Bgv2) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 0,1.
- bgv3
Kaplan blade servo point 3 (Bgv3) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 0,667.
- bgv4
Kaplan blade servo point 4 (Bgv4) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 0,9.
- bgv5
Kaplan blade servo point 5 (Bgv5) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 1.
- bmax
Maximum blade adjustment factor (Bmax) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 1,1276.
- db1
Intentional deadband width (db1). Unit = Hz. Typical value = 0.
- db2
Unintentional dead-band (db2). Unit = MW. Typical value = 0.
- dturb
Turbine damping factor (Dturb). Unit = delta P (PU of MWbase) / delta speed (PU). Typical value for simple = 0,5, Francis/Pelton = 1,1, Kaplan = 1,1.
- eps
Intentional db hysteresis (eps). Unit = Hz. Typical value = 0.
- gmax
Maximum gate opening, PU of MWbase (Gmax) (> GovHydro4.gmin). Typical value = 1.
- gmin
Minimum gate opening, PU of MWbase (Gmin) (< GovHydro4.gmax). Typical value = 0.
- gv0
Nonlinear gain point 0, PU gv (Gv0) (= 0 for simple). Typical for Francis/Pelton = 0,1, Kaplan = 0,1.
- gv1
Nonlinear gain point 1, PU gv (Gv1) (= 0 for simple, > GovHydro4.gv0 for Francis/Pelton and Kaplan). Typical value for Francis/Pelton = 0,4, Kaplan = 0,4.
- gv2
Nonlinear gain point 2, PU gv (Gv2) (= 0 for simple, > GovHydro4.gv1 for Francis/Pelton and Kaplan). Typical value for Francis/Pelton = 0,5, Kaplan = 0,5.
- gv3
Nonlinear gain point 3, PU gv (Gv3) (= 0 for simple, > GovHydro4.gv2 for Francis/Pelton and Kaplan). Typical value for Francis/Pelton = 0,7, Kaplan = 0,7.
- gv4
Nonlinear gain point 4, PU gv (Gv4) (= 0 for simple, > GovHydro4.gv3 for Francis/Pelton and Kaplan). Typical value for Francis/Pelton = 0,8, Kaplan = 0,8.
- gv5
Nonlinear gain point 5, PU gv (Gv5) (= 0 for simple, < 1 and > GovHydro4.gv4 for Francis/Pelton and Kaplan). Typical value for Francis/Pelton = 0,9, Kaplan = 0,9.
- hdam
Head available at dam (hdam). Typical value = 1.
- model
The kind of model being represented (simple, Francis/Pelton or Kaplan).
- mwbase
Base for power values (MWbase) (> 0). Unit = MW.
- pgv0
Nonlinear gain point 0, PU power (Pgv0) (= 0 for simple). Typical value = 0.
- pgv1
Nonlinear gain point 1, PU power (Pgv1) (= 0 for simple). Typical value for Francis/Pelton = 0,42, Kaplan = 0,35.
- pgv2
Nonlinear gain point 2, PU power (Pgv2) (= 0 for simple). Typical value for Francis/Pelton = 0,56, Kaplan = 0,468.
- pgv3
Nonlinear gain point 3, PU power (Pgv3) (= 0 for simple). Typical value for Francis/Pelton = 0,8, Kaplan = 0,796.
- pgv4
Nonlinear gain point 4, PU power (Pgv4) (= 0 for simple). Typical value for Francis/Pelton = 0,9, Kaplan = 0,917.
- pgv5
Nonlinear gain point 5, PU power (Pgv5) (= 0 for simple). Typical value for Francis/Pelton = 0,97, Kaplan = 0,99.
- qnl
No-load flow at nominal head (Qnl). Typical value for simple = 0,08, Francis/Pelton = 0, Kaplan = 0.
- rperm
Permanent droop (Rperm) (>= 0). Typical value = 0,05.
- rtemp
Temporary droop (Rtemp) (>= 0). Typical value = 0,3.
- tblade
Blade servo time constant (Tblade) (>= 0). Typical value = 100.
- tg
Gate servo time constant (Tg) (> 0). Typical value = 0,5.
- tp
Pilot servo time constant (Tp) (>= 0). Typical value = 0,1.
- tr
Dashpot time constant (Tr) (>= 0). Typical value = 5.
- tw
Water inertia time constant (Tw) (> 0). Typical value = 1.
- uc
Max gate closing velocity (Uc). Typical value = 0,2.
- uo
Max gate opening velocity (Uo). Typical value = 0,2.
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- GovHydro4
- Element
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Instance Constructors
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new
GovHydro4(TurbineGovernorDynamics: TurbineGovernorDynamics = null, at: Double = 0.0, bgv0: Double = 0.0, bgv1: Double = 0.0, bgv2: Double = 0.0, bgv3: Double = 0.0, bgv4: Double = 0.0, bgv5: Double = 0.0, bmax: Double = 0.0, db1: Double = 0.0, db2: Double = 0.0, dturb: Double = 0.0, eps: Double = 0.0, gmax: Double = 0.0, gmin: Double = 0.0, gv0: Double = 0.0, gv1: Double = 0.0, gv2: Double = 0.0, gv3: Double = 0.0, gv4: Double = 0.0, gv5: Double = 0.0, hdam: Double = 0.0, model: String = null, mwbase: Double = 0.0, pgv0: Double = 0.0, pgv1: Double = 0.0, pgv2: Double = 0.0, pgv3: Double = 0.0, pgv4: Double = 0.0, pgv5: Double = 0.0, qnl: Double = 0.0, rperm: Double = 0.0, rtemp: Double = 0.0, tblade: Double = 0.0, tg: Double = 0.0, tp: Double = 0.0, tr: Double = 0.0, tw: Double = 0.0, uc: Double = 0.0, uo: Double = 0.0)
- TurbineGovernorDynamics
TurbineGovernorDynamics Reference to the superclass object.
- at
Turbine gain (At). Typical value = 1,2.
- bgv0
Kaplan blade servo point 0 (Bgv0) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 0.
- bgv1
Kaplan blade servo point 1 (Bgv1) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 0.
- bgv2
Kaplan blade servo point 2 (Bgv2) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 0,1.
- bgv3
Kaplan blade servo point 3 (Bgv3) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 0,667.
- bgv4
Kaplan blade servo point 4 (Bgv4) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 0,9.
- bgv5
Kaplan blade servo point 5 (Bgv5) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 1.
- bmax
Maximum blade adjustment factor (Bmax) (= 0 for simple, = 0 for Francis/Pelton). Typical value for Kaplan = 1,1276.
- db1
Intentional deadband width (db1). Unit = Hz. Typical value = 0.
- db2
Unintentional dead-band (db2). Unit = MW. Typical value = 0.
- dturb
Turbine damping factor (Dturb). Unit = delta P (PU of MWbase) / delta speed (PU). Typical value for simple = 0,5, Francis/Pelton = 1,1, Kaplan = 1,1.
- eps
Intentional db hysteresis (eps). Unit = Hz. Typical value = 0.
- gmax
Maximum gate opening, PU of MWbase (Gmax) (> GovHydro4.gmin). Typical value = 1.
- gmin
Minimum gate opening, PU of MWbase (Gmin) (< GovHydro4.gmax). Typical value = 0.
- gv0
Nonlinear gain point 0, PU gv (Gv0) (= 0 for simple). Typical for Francis/Pelton = 0,1, Kaplan = 0,1.
- gv1
Nonlinear gain point 1, PU gv (Gv1) (= 0 for simple, > GovHydro4.gv0 for Francis/Pelton and Kaplan). Typical value for Francis/Pelton = 0,4, Kaplan = 0,4.
- gv2
Nonlinear gain point 2, PU gv (Gv2) (= 0 for simple, > GovHydro4.gv1 for Francis/Pelton and Kaplan). Typical value for Francis/Pelton = 0,5, Kaplan = 0,5.
- gv3
Nonlinear gain point 3, PU gv (Gv3) (= 0 for simple, > GovHydro4.gv2 for Francis/Pelton and Kaplan). Typical value for Francis/Pelton = 0,7, Kaplan = 0,7.
- gv4
Nonlinear gain point 4, PU gv (Gv4) (= 0 for simple, > GovHydro4.gv3 for Francis/Pelton and Kaplan). Typical value for Francis/Pelton = 0,8, Kaplan = 0,8.
- gv5
Nonlinear gain point 5, PU gv (Gv5) (= 0 for simple, < 1 and > GovHydro4.gv4 for Francis/Pelton and Kaplan). Typical value for Francis/Pelton = 0,9, Kaplan = 0,9.
- hdam
Head available at dam (hdam). Typical value = 1.
- model
The kind of model being represented (simple, Francis/Pelton or Kaplan).
- mwbase
Base for power values (MWbase) (> 0). Unit = MW.
- pgv0
Nonlinear gain point 0, PU power (Pgv0) (= 0 for simple). Typical value = 0.
- pgv1
Nonlinear gain point 1, PU power (Pgv1) (= 0 for simple). Typical value for Francis/Pelton = 0,42, Kaplan = 0,35.
- pgv2
Nonlinear gain point 2, PU power (Pgv2) (= 0 for simple). Typical value for Francis/Pelton = 0,56, Kaplan = 0,468.
- pgv3
Nonlinear gain point 3, PU power (Pgv3) (= 0 for simple). Typical value for Francis/Pelton = 0,8, Kaplan = 0,796.
- pgv4
Nonlinear gain point 4, PU power (Pgv4) (= 0 for simple). Typical value for Francis/Pelton = 0,9, Kaplan = 0,917.
- pgv5
Nonlinear gain point 5, PU power (Pgv5) (= 0 for simple). Typical value for Francis/Pelton = 0,97, Kaplan = 0,99.
- qnl
No-load flow at nominal head (Qnl). Typical value for simple = 0,08, Francis/Pelton = 0, Kaplan = 0.
- rperm
Permanent droop (Rperm) (>= 0). Typical value = 0,05.
- rtemp
Temporary droop (Rtemp) (>= 0). Typical value = 0,3.
- tblade
Blade servo time constant (Tblade) (>= 0). Typical value = 100.
- tg
Gate servo time constant (Tg) (> 0). Typical value = 0,5.
- tp
Pilot servo time constant (Tp) (>= 0). Typical value = 0,1.
- tr
Dashpot time constant (Tr) (>= 0). Typical value = 5.
- tw
Water inertia time constant (Tw) (> 0). Typical value = 1.
- uc
Max gate closing velocity (Uc). Typical value = 0,2.
- uo
Max gate opening velocity (Uo). Typical value = 0,2.
Value Members
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##(): Int
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def
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- val TurbineGovernorDynamics: TurbineGovernorDynamics
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def
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Flag for rdf:about elements.
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- val at: Double
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def
baseclass: String
This class name.
- val bgv0: Double
- val bgv1: Double
- val bgv2: Double
- val bgv3: Double
- val bgv4: Double
- val bgv5: Double
-
val
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Valid fields bitmap.
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One (1) in a bit position means that field was found in parsing, zero means it has an indeterminate value. Field order is specified by the fields array.
For classes constructed manually, we initially fill this in with the worst case scenario. ToDo: this won't work for classes with more than 128 fields (so far none).
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- val bmax: Double
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This class and the hierarchical list of classes this class derives from.
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- Definition Classes
- GovHydro4 → Row
- val db1: Double
- val db2: Double
- val dturb: Double
-
def
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Emit one XML attribute.
Emit one XML attribute.
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Return a string containing the fields of this object suitable for inclusion in an XML object.
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Get the value of the field at index
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- val gmax: Double
- val gmin: Double
- val gv0: Double
- val gv1: Double
- val gv2: Double
- val gv3: Double
- val gv4: Double
- val gv5: Double
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- val hdam: Double
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Return the unique ID for the object, the mRID for IdentifiedObject derived classes.
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- val model: String
- val mwbase: Double
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- val pgv0: Double
- val pgv1: Double
- val pgv2: Double
- val pgv3: Double
- val pgv4: Double
- val pgv5: Double
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- val qnl: Double
- val rperm: Double
- val rtemp: Double
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def
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def
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def
sup: TurbineGovernorDynamics
Return the superclass object.
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- val tblade: Double
- val tg: Double
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- val tp: Double
- val tr: Double
- val tw: Double
- val uc: Double
- val uo: Double
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(Since version ) see corresponding Javadoc for more information.