private BranchTestCase cas1EntsoeMicroGrid3wTxW380(CAS1EntsoeMicroGrid3wTxVariant variant) { BranchTestCase t = new BranchTestCase(); t.branch.id = "380"; t.branch.end1.ratedU = 400;
private BranchTestCase cas1EntsoeMicroGrid3wTxW225(CAS1EntsoeMicroGrid3wTxVariant variant) { BranchTestCase t = new BranchTestCase(); t.branch.id = "225"; t.branch.end1.ratedU = 220;
private BranchTestCase cas1EntsoeMicroGrid3wTxW21(CAS1EntsoeMicroGrid3wTxVariant variant) { BranchTestCase t = new BranchTestCase(); t.branch.id = "21"; t.branch.end1.ratedU = 21;
private BranchTestCase lineEnd2Disconnected() { BranchTestCase t = new BranchTestCase(); t.config.convertAsTransformer = false; t.branch.id = "Dangling"; t.branch.end1.ratedU = 380; t.branch.end2.ratedU = 380; t.branch.end1.r = 5; t.branch.end1.x = 50.0; t.branch.end1.g = 0; t.branch.end1.b = 0.0001; t.branch.end2.g = 0; t.branch.end2.b = 0.0001; t.branch.end1.connected = true; t.branch.end2.connected = false; t.bus1.u = 380; t.bus1.theta = 0; t.bus2.u = Double.NaN; t.bus2.theta = Double.NaN; t.expectedFlow2.p = Double.NaN; t.expectedFlow2.q = Double.NaN; t.expectedFlow1.p = 0.007293; t.expectedFlow1.q = -28.952559; return t; }
private BranchTestCase cas2EntsoeLoadFlowExplicitLine() { BranchTestCase t = new BranchTestCase(); t.branch.id = "FFNOD0L41__FNO"; t.branch.end1.ratedU = 380; t.branch.end2.ratedU = 380; t.branch.end1.r = 4.1956; t.branch.end1.x = 12.73; // Voltage and angle for bus 1 have been taken from Excel documentation // with much more precision that the one found in SV data files t.bus1.u = cas2EntsoeLoadFLowExplicitU1(); t.bus1.theta = Math.toRadians(cas2EntsoeLoadFLowExplicitTheta1()); t.bus2.u = 397.1; t.bus2.theta = Math.toRadians(0); t.expectedFlow1.p = -534.9869; t.expectedFlow1.q = 153.1046; t.expectedFlow2.p = 543.2755; t.expectedFlow2.q = -127.9559; return t; }
private BranchTestCase cas2EntsoeLoadFlowExplicitPhaseShiftTransformer() { BranchTestCase t = new BranchTestCase(); t.branch.id = "FNOD041__FNOD021__1_PT"; t.branch.end1.ratedU = 380; t.branch.end2.ratedU = 380; t.branch.end1.r = 4.1956; t.branch.end1.x = 12.73; t.bus1.u = cas2EntsoeLoadFLowExplicitU1(); t.bus1.theta = Math.toRadians(cas2EntsoeLoadFLowExplicitTheta1()); t.bus2.u = 397.1; t.bus2.theta = Math.toRadians(0); t.expectedFlow1.p = 202.9869; t.expectedFlow1.q = -75.1046; t.expectedFlow2.p = -201.7355; t.expectedFlow2.q = 78.9091; t.branch.end2.tap.rho = 0.997829; t.branch.end2.tap.alpha = Math.toRadians(-3.77605); return t; };