public static double getRedispatchPMin(Generator generator, float redispatchLimitsPercentage) { double redispatchPMin = generator.getMinP(); if (generator.getTargetP() > generator.getMaxP()) { redispatchPMin = generator.getMaxP() - redispatchLimitsPercentage * 0.01 * generator.getMaxP(); } else { redispatchPMin = generator.getTargetP() - redispatchLimitsPercentage * 0.01 * generator.getMaxP(); } return generator.getMinP() < redispatchPMin ? redispatchPMin : generator.getMinP(); }
@Override public void visitGenerator(Generator generator) { if (generator.isVoltageRegulatorOn()) { decoratedBus.regulatingGenerator++; decoratedBus.maxP += generator.getMaxP(); decoratedBus.minP += generator.getMinP(); decoratedBus.targetP += generator.getTargetP(); } } });
public static double getRedispatchPMax(Generator generator, float redispatchLimitsPercentage) { double redispatchPMax = generator.getMaxP(); if (generator.getTargetP() < generator.getMinP()) { redispatchPMax = generator.getMinP() + redispatchLimitsPercentage * 0.01 * generator.getMaxP(); } else { redispatchPMax = generator.getTargetP() + redispatchLimitsPercentage * 0.01 * generator.getMaxP(); } return generator.getMaxP() > redispatchPMax ? redispatchPMax : generator.getMaxP(); }
private boolean filteredGenerator(Generator g, boolean isFiltered) { if (isFiltered) { if (!Double.isNaN(g.getTerminal().getP()) && ((-g.getTerminal().getP() > g.getMaxP()) || (-g.getTerminal().getP() < g.getMinP()))) { return true; } } return false; }
private boolean filteredGenerator(Generator g) { if (configExport.getGensPQfilter()) { if (!Double.isNaN(g.getTerminal().getP()) && ((-g.getTerminal().getP() > g.getMaxP()) || (-g.getTerminal().getP() < g.getMinP()))) { return true; } } return false; }
public static void fixGeneratorActiveLimits(Network network, HistoDbClient histoDbClient, Interval interval) throws IOException, InterruptedException { // replace strange pmin, pmax by historical limits Set<HistoDbAttributeId> attributeIds = new LinkedHashSet<>(); for (Generator g : network.getGenerators()) { if (hasInconsistenceActiveLimits(g)) { attributeIds.add(new HistoDbNetworkAttributeId(g.getId(), HistoDbAttr.P)); } } if (attributeIds.size() > 0) { HistoDbStats stats = histoDbClient.queryStats(attributeIds, interval, HistoDbHorizon.SN, true); for (Generator g : network.getGenerators()) { if (hasInconsistenceActiveLimits(g)) { HistoDbNetworkAttributeId attributeId = new HistoDbNetworkAttributeId(g.getId(), HistoDbAttr.P); double newMinP = -stats.getValue(HistoDbStatsType.MAX, attributeId, Float.NaN); double newMaxP = -stats.getValue(HistoDbStatsType.MIN, attributeId, Float.NaN); if (!Double.isNaN(newMinP) && !Double.isNaN(newMaxP)) { LOGGER.debug("Fix active power limits of generator {}: [{}, {}] -> [{}, {}]", g.getId(), g.getMinP(), g.getMaxP(), newMinP, newMaxP); g.setMinP(newMinP); g.setMaxP(newMaxP); } } } } } }
double redispatchPMin = redispatchLimits.containsKey(generator.getId()) ? redispatchLimits.get(generator.getId()).getPMin() : generator.getMinP(); double redispatchPMax = redispatchLimits.containsKey(generator.getId()) ? redispatchLimits.get(generator.getId()).getPMax() : generator.getMaxP(); generator.getMinP(), generator.getMaxP(), redispatchPMin, redispatchPMax); redispactchedP += -newP + generator.getTerminal().getP(); generator.getTerminal().setP(newP);
@Override protected void writeRootElementAttributes(Generator g, VoltageLevel vl, NetworkXmlWriterContext context) throws XMLStreamException { context.getWriter().writeAttribute("energySource", g.getEnergySource().name()); XmlUtil.writeDouble("minP", g.getMinP(), context.getWriter()); XmlUtil.writeDouble("maxP", g.getMaxP(), context.getWriter()); XmlUtil.writeDouble("ratedS", g.getRatedS(), context.getWriter()); context.getWriter().writeAttribute("voltageRegulatorOn", Boolean.toString(g.isVoltageRegulatorOn())); XmlUtil.writeDouble("targetP", g.getTargetP(), context.getWriter()); XmlUtil.writeDouble("targetV", g.getTargetV(), context.getWriter()); XmlUtil.writeDouble("targetQ", g.getTargetQ(), context.getWriter()); writeNodeOrBus(null, g.getTerminal(), context); writePQ(null, g.getTerminal(), context.getWriter()); }
LOGGER.debug("Network {} state {}: generator {} - P:{} -> P:{} - limits[{},{}]", network.getId(), network.getStateManager().getWorkingStateId(), generatorId, oldActivePower, newActivePower, network.getGenerator(generatorId).getMinP(), network.getGenerator(generatorId).getMaxP()); if (network.getGenerator(generatorId).getMaxP() < -newActivePower) { LOGGER.warn("Network {} state {}: generator {} - new P ({}) > max P ({})", network.getId(), network.getStateManager().getWorkingStateId(), generatorId, -newActivePower, network.getGenerator(generatorId).getMaxP()); if (network.getGenerator(generatorId).getMinP() > -newActivePower) { LOGGER.warn("Network {} state {}: generator {} - new P ({}) < min P ({})", network.getId(), network.getStateManager().getWorkingStateId(), generatorId, -newActivePower, network.getGenerator(generatorId).getMinP());
-srcSv.q, newTargetQ, srcSv.u, newTargetV); double newMinP = -fct.apply(new StateVariable(-srcGen.getMinP(), srcSv.q, srcSv.u, srcSv.theta)).p; double newMaxP = -fct.apply(new StateVariable(-srcGen.getMaxP(), srcSv.q, srcSv.u, srcSv.theta)).p; srcGen.getId(), srcGen.getMinP(), srcGen.getMaxP(), newMinP, newMaxP);
double pgen = g.getTargetP(); double qgen = g.getTargetQ(); double pgmin = g.getMinP(); double pgmax = g.getMaxP(); boolean isQminQmaxInverted = g.getReactiveLimits().getMinQ(pgen) > g.getReactiveLimits().getMaxQ(pgen); if (config.isSpecificCompatibility() && (g.getTargetP() < 0.0001) && (g.getMinP() > 0.0001)) { isVoltageRegulatorOn = false; LOGGER.warn("out of bound regulating generator {}, targetP {}, minP {} : turn off its voltage regulation", g.getId(), g.getTargetP(), g.getMinP());
generatorData.setMinActivePower(generator.getMinP()); generatorData.setMaxActivePower(generator.getMaxP()); generatorData.setMinReactivePower(generator.getReactiveLimits().getMinQ(generator.getTargetP()));
dumpDataGeneratorAutomaton(g, eurostagSim, "A11", dtaOutStream, iidm2eurostagId); } else { log.warn("Dump automaton A11: skipping generator {} P outside limits MinP:{} P:{} MaxP:{}, ", g.getId(), g.getMinP(), -g.getTerminal().getP(), g.getMaxP()); dumpDataGeneratorAutomaton(g, eurostagSim, "A12", dtaOutStream, iidm2eurostagId); } else { log.warn("Dump automaton A12: skipping generator {} P outside limits MinP:{} P:{} MaxP:{}, ", g.getId(), g.getMinP(), -g.getTerminal().getP(), g.getMaxP());
int num = mapper.getInt(AmplSubset.GENERATOR, id); int vlNum = mapper.getInt(AmplSubset.VOLTAGE_LEVEL, t.getVoltageLevel().getId()); double minP = g.getMinP(); double maxP = g.getMaxP(); double vb = t.getVoltageLevel().getNominalV();