Beispiel #1
0
        public void CalcWS_DeficitEddyViscosityGrid_Test()
        {
            WakeCollection    wakeModelList = new WakeCollection();
            TurbineCollection turbineList   = new TurbineCollection();

            double[]     power      = new double[23];
            string       Power_file = testingFolder + "\\CalcWS_DeficitEddyViscosityGrid\\Power.txt";
            StreamReader sr         = new StreamReader(Power_file);

            for (int i = 0; i <= 22; i++)
            {
                power[i] = Convert.ToSingle(sr.ReadLine());
            }

            double[] Thrust      = new double[23];
            string   Thrust_file = testingFolder + "\\CalcWS_DeficitEddyViscosityGrid\\Thrust.txt";

            sr = new StreamReader(Thrust_file);

            for (int i = 0; i <= 22; i++)
            {
                Thrust[i] = Convert.ToSingle(sr.ReadLine());
            }

            turbineList.AddPowerCurve("GW 1500/87", 3, 22, 1500, power, Thrust, 87, 16, 10, 1, 0);
            wakeModelList.AddWakeModel(0, 5, 10, turbineList.powerCurves[0], 10, 3.5f, 0.03f, "Linear");
            MetCollection metList = new MetCollection();

            metList.metItem    = new Met[1];
            metList.metItem[0] = new Met();

            double[,] Vel_Def = wakeModelList.CalcWS_DeficitEddyViscosityGrid(2, 30, 0.1f, 0.025f, 8, wakeModelList.wakeModels[0], metList);
            Assert.AreEqual(Vel_Def[16, 2], 0.450777, 0.01, "Wrong Vel Def Test 1 r = 0.05");
            Assert.AreEqual(Vel_Def[16, 10], 0.196172, 0.01, "Wrong Vel Def Test 1 r = 0.25");
            Assert.AreEqual(Vel_Def[16, 17], 0.03166, 0.01, "Wrong Vel Def Test 1 r = 0.425");

            Assert.AreEqual(Vel_Def[40, 0], 0.255068, 0.01, "Wrong Vel Def Test 2 r = 0.05");
            Assert.AreEqual(Vel_Def[40, 7], 0.194434, 0.01, "Wrong Vel Def Test 2 r = 0.25");
            Assert.AreEqual(Vel_Def[40, 18], 0.02328, 0.01, "Wrong Vel Def Test 2 r = 0.425");

            wakeModelList.AddWakeModel(0, 10, 14, turbineList.powerCurves[0], 10, 3.5f, 0.03f, "Linear");
            Vel_Def = wakeModelList.CalcWS_DeficitEddyViscosityGrid(2, 30, 0.1f, 0.025f, 6, wakeModelList.wakeModels[1], metList);
            Assert.AreEqual(Vel_Def[4, 2], 0.513121, 0.01, "Wrong Vel Def Test 3 r = 0.05");
            Assert.AreEqual(Vel_Def[4, 10], 0.20352, 0.01, "Wrong Vel Def Test 3 r = 0.25");
            Assert.AreEqual(Vel_Def[4, 16], 0.04366, 0.01, "Wrong Vel Def Test 3 r = 0.4");

            Assert.AreEqual(Vel_Def[42, 4], 0.18052, 0.01, "Wrong Vel Def Test 4 r = 0.05");
            Assert.AreEqual(Vel_Def[42, 19], 0.01031, 0.01, "Wrong Vel Def Test 4 r = 0.25");
        }
Beispiel #2
0
        public void CalcCapacityFactor_Test()
        {
            TurbineCollection turbineList = new TurbineCollection();

            double thisAEP = 4569;
            double ratedP  = 1500;
            double thisCF  = turbineList.CalcCapacityFactor(thisAEP, ratedP);

            Assert.AreEqual(0.3477, thisCF, 0.01, "Wrong capaciy factor Test 1");

            thisAEP = 8922;
            ratedP  = 2300;
            thisCF  = turbineList.CalcCapacityFactor(thisAEP, ratedP);
            Assert.AreEqual(0.4428, thisCF, 0.01, "Wrong capaciy factor Test 2");
        }
        /// <summary> Goes through each met and turbine site and check elev at 8 points +/- 12000 m. If elev = -999, return false </summary>
        public bool NewTopo(TopoInfo topo, MetCollection metList, TurbineCollection turbList)
        {
            bool goodToGo = true;

            for (int i = 0; i < metList.ThisCount; i++)
            {
                goodToGo = TopoCheck(topo, metList.metItem[i].UTMX, metList.metItem[i].UTMY, metList.metItem[i].name, true);
            }

            for (int i = 0; i < turbList.TurbineCount; i++)
            {
                goodToGo = TopoCheck(topo, turbList.turbineEsts[i].UTMX, turbList.turbineEsts[i].UTMY, turbList.turbineEsts[i].name, true);
            }

            return(goodToGo);
        }
        /// <summary> Compares met name to turbine names to ensure there are no duplicate names. </summary>
        /// <returns> Returns false if a met with the same name exists </returns>
        public bool CheckMetName(string metName, TurbineCollection turbineList)
        {
            bool inputMet    = true;
            int  numTurbines = turbineList.TurbineCount;

            for (int i = 0; i < numTurbines; i++)
            {
                if (turbineList.turbineEsts[i].name == metName)
                {
                    inputMet = false;
                    MessageBox.Show("There is a turbine with the same name as met site: " + metName + ".  There cannot be a turbine and met site with the same name.", "Continuum 3");
                    break;
                }
            }

            return(inputMet);
        }
Beispiel #5
0
        public void CalcDAWM_Deficit_Test()
        {
            WakeCollection    WakeModList = new WakeCollection();
            TurbineCollection turbineList = new TurbineCollection();

            double[]     power      = new double[23];
            string       Power_file = testingFolder + "\\CalcDAWM_Deficit\\Power.txt";
            StreamReader sr         = new StreamReader(Power_file);

            for (int i = 0; i <= 22; i++)
            {
                power[i] = Convert.ToSingle(sr.ReadLine());
            }

            double[] Thrust      = new double[23];
            string   Thrust_file = testingFolder + "\\CalcDAWM_Deficit\\Thrust.txt";

            sr = new StreamReader(Thrust_file);

            for (int i = 0; i <= 22; i++)
            {
                Thrust[i] = Convert.ToSingle(sr.ReadLine());
            }

            turbineList.AddPowerCurve("GW 1500/87", 3, 22, 1500, power, Thrust, 87, 16, 10, 1, 0);

            Turbine[] UW_Turbs = new Turbine[1];
            UW_Turbs[0]      = new Turbine();
            UW_Turbs[0].UTMX = 283000;
            UW_Turbs[0].UTMY = 4553300;

            MetCollection metList = new MetCollection();

            metList.metItem     = new Met[1];
            metList.metItem[0]  = new Met();
            metList.WS_FirstInt = 0.5f;
            metList.WS_IntSize  = 1;
            metList.numWS       = 30;

            WakeModList.AddWakeModel(1, 5, 10, turbineList.powerCurves[0], 10, 3.5f, 0.03f, "Linear");

            double This_Def = WakeModList.Calc_DAWM_Deficit(UW_Turbs, 280000, 4553500, 90, 8, WakeModList.wakeModels[0], metList, 80.0);

            Assert.AreEqual(This_Def, 0.04742, 1, "Wrong wind speed deficit in DAWM");
        }
        /// <summary> Goes through each met and turbine site and check land cover at 8 points +/- 12000 m. If elev = -999, return false </summary>
        public bool NewLandCover(TopoInfo topo, MetCollection metList, TurbineCollection turbList)
        {
            // Go through each met and turbine site and check land cover at 8 points +/- 12000 m. If elev = -999, return false

            bool goodToGo = true;

            for (int i = 0; i < metList.ThisCount; i++)
            {
                goodToGo = LandCoverCheck(topo, metList.metItem[i].UTMX, metList.metItem[i].UTMY, metList.metItem[i].name, true);
            }

            for (int i = 0; i < turbList.TurbineCount; i++)
            {
                goodToGo = LandCoverCheck(topo, turbList.turbineEsts[i].UTMX, turbList.turbineEsts[i].UTMY, turbList.turbineEsts[i].name, true);
            }

            return(goodToGo);
        }
Beispiel #7
0
        public void FindAllUW_Turbines_Test()
        {
            WakeCollection    WakeModList = new WakeCollection();
            TurbineCollection turbineList = new TurbineCollection();

            turbineList.AddTurbine("Turb_1", 275000, 4553000, 1);
            turbineList.AddTurbine("Turb_2", 275000, 4553300, 1);
            turbineList.AddTurbine("Turb_3", 275000, 4553600, 1);
            turbineList.AddTurbine("Turb_4", 275000, 4553900, 1);
            turbineList.AddTurbine("Turb_5", 275000, 4554200, 1);
            turbineList.AddTurbine("Turb_6", 283000, 4553000, 1);
            turbineList.AddTurbine("Turb_7", 283000, 4553300, 1);
            turbineList.AddTurbine("Turb_8", 283000, 4553600, 1);
            turbineList.AddTurbine("Turb_9", 283000, 4553900, 1);
            turbineList.AddTurbine("Turb_10", 283000, 4554200, 1);

            Turbine[] UW_Turbs = WakeModList.FindAllUW_Turbines(45, 279000, 4553200, turbineList);
            Assert.AreEqual(UW_Turbs.Length, 5, "Wrong number of UW turbines in Test 1 Sector 45");
            Assert.AreSame(UW_Turbs[0].name, "Turb_10", "Wrong UW turbines in Test 1 Sector 45");
            Assert.AreSame(UW_Turbs[1].name, "Turb_9", "Wrong UW turbines in Test 1 Sector 45");
            Assert.AreSame(UW_Turbs[2].name, "Turb_8", "Wrong UW turbines in Test 1 Sector 45");
            Assert.AreSame(UW_Turbs[3].name, "Turb_7", "Wrong UW turbines in Test 1 Sector 45");
            Assert.AreSame(UW_Turbs[4].name, "Turb_6", "Wrong UW turbines in Test 1 Sector 45");

            UW_Turbs = WakeModList.FindAllUW_Turbines(180, 279000, 4553200, turbineList);
            Assert.AreEqual(UW_Turbs.Length, 2, "Wrong number of UW turbines in Test 2 Sector 180");
            Assert.AreSame(UW_Turbs[0].name, "Turb_1", "Wrong UW turbines in Test 2 Sector 180");
            Assert.AreSame(UW_Turbs[1].name, "Turb_6", "Wrong UW turbines in Test 2 Sector 180");

            UW_Turbs = WakeModList.FindAllUW_Turbines(337.5f, 279000, 4554900, turbineList);
            Assert.AreEqual(UW_Turbs.Length, 4, "Wrong number of UW turbines in Test 3 Sector 337.5");
            Assert.AreSame(UW_Turbs[0].name, "Turb_5", "Wrong UW turbines in Test 3 Sector 180");
            Assert.AreSame(UW_Turbs[1].name, "Turb_4", "Wrong UW turbines in Test 3 Sector 180");
            Assert.AreSame(UW_Turbs[2].name, "Turb_3", "Wrong UW turbines in Test 3 Sector 180");
            Assert.AreSame(UW_Turbs[3].name, "Turb_2", "Wrong UW turbines in Test 3 Sector 180");

            UW_Turbs = WakeModList.FindAllUW_Turbines(225, 275500, 4553200, turbineList);
            Assert.AreEqual(UW_Turbs.Length, 3, "Wrong number of UW turbines in Test 4 Sector 225");
            Assert.AreSame(UW_Turbs[0].name, "Turb_1", "Wrong UW turbines in Test 3 Sector 180");
            Assert.AreSame(UW_Turbs[1].name, "Turb_2", "Wrong UW turbines in Test 3 Sector 180");
            Assert.AreSame(UW_Turbs[2].name, "Turb_3", "Wrong UW turbines in Test 3 Sector 180");
        }
Beispiel #8
0
        public void CalcIBL_H1_Test()
        {
            WakeCollection    WakeModList = new WakeCollection();
            TurbineCollection turbineList = new TurbineCollection();

            double[]     power      = new double[23];
            string       Power_file = testingFolder + "\\Calc_IBL_H1\\Power.txt";
            StreamReader sr         = new StreamReader(Power_file);

            for (int i = 0; i <= 22; i++)
            {
                power[i] = Convert.ToSingle(sr.ReadLine());
            }

            double[] Thrust      = new double[23];
            string   Thrust_file = testingFolder + "\\Calc_IBL_H1\\Thrust.txt";

            sr = new StreamReader(Thrust_file);

            for (int i = 0; i <= 22; i++)
            {
                Thrust[i] = Convert.ToSingle(sr.ReadLine());
            }

            turbineList.AddPowerCurve("GW 1500/87", 3, 22, 1500, power, Thrust, 87, 16, 10, 1, 0);

            Turbine[] UW_Turbs = new Turbine[1];
            UW_Turbs[0]      = new Turbine();
            UW_Turbs[0].UTMX = 283000;
            UW_Turbs[0].UTMY = 4553300;

            MetCollection metList = new MetCollection();

            metList.metItem    = new Met[1];
            metList.metItem[0] = new Met();

            WakeModList.AddWakeModel(1, 5, 10, turbineList.powerCurves[0], 10, 3.5f, 0.03f, "Linear");
            double This_IBL_H1 = WakeModList.Calc_IBL_H1(UW_Turbs[0], 280000, 4553500, WakeModList.wakeModels[0], 90f, 1.9316f, 80.0);

            Assert.AreEqual(This_IBL_H1, 750.4, 1, "Wrong IBL H1");
        }
Beispiel #9
0
        public void CalcEquivRoughness_Test()
        {
            WakeCollection    WakeModList = new WakeCollection();
            TurbineCollection turbineList = new TurbineCollection();

            double[] power = new double[23];

            string       Power_file = testingFolder + "\\CalcEquivRoughness\\Power.txt";
            StreamReader sr         = new StreamReader(Power_file);

            for (int i = 0; i <= 22; i++)
            {
                power[i] = Convert.ToSingle(sr.ReadLine());
            }

            double[] Thrust      = new double[23];
            string   Thrust_file = testingFolder + "\\CalcEquivRoughness\\Thrust.txt";

            sr = new StreamReader(Thrust_file);

            for (int i = 0; i <= 22; i++)
            {
                Thrust[i] = Convert.ToSingle(sr.ReadLine());
            }

            turbineList.AddPowerCurve("GW 1500/87", 3, 22, 1500, power, Thrust, 87, 16, 10, 1, 0);
            WakeModList.AddWakeModel(1, 5, 10, turbineList.powerCurves[0], 10, 3.5f, 0.03f, "Linear");

            MetCollection metList = new MetCollection();

            metList.metItem     = new Met[1];
            metList.metItem[0]  = new Met();
            metList.WS_FirstInt = 0.5;
            metList.WS_IntSize  = 1;
            metList.numWS       = 30;

            double This_Equiv_Rough = WakeModList.CalcEquivRoughness(metList, 8, WakeModList.wakeModels[0], 80.0);

            Assert.AreEqual(This_Equiv_Rough, 1.9316, 0.01, "Wrong equivalent roughness for DAWM");
        }
Beispiel #10
0
        public void CalcNetEnergy_Test()
        {
            WakeCollection    wakeModelList = new WakeCollection();
            TurbineCollection turbineList   = new TurbineCollection();

            double[]     power      = new double[31];
            string       Power_file = testingFolder + "\\CalcNetEnergy\\Power.txt";
            StreamReader sr         = new StreamReader(Power_file);

            for (int i = 0; i <= 22; i++)
            {
                power[i] = Convert.ToSingle(sr.ReadLine());
            }

            turbineList.AddPowerCurve("GW 1500/87", 3, 22, 1500, power, null, 87, 16, 10, 1, 0);
            wakeModelList.AddWakeModel(0, 5, 10, turbineList.powerCurves[0], 10, 3.5f, 0.03f, "Linear");

            string Dist_file = testingFolder + "\\CalcNetEnergy\\WS_Dist.txt";

            sr = new StreamReader(Dist_file);
            double[] thisDist = new double[31];

            for (int i = 0; i <= 30; i++)
            {
                thisDist[i] = Convert.ToSingle(sr.ReadLine());
            }

            Continuum thisInst = new Continuum("");

            double[] dummyRose = new double[16];
            double[,] dummySect = new double[16, 31];
            thisInst.metList.AddMetTAB("Dummy", 0, 0, 0, dummyRose, dummySect, 0.5, 1, thisInst);
            double loss     = 0.8782;
            double This_AEP = wakeModelList.CalcNetEnergy(wakeModelList.wakeModels[0], thisDist, thisInst, loss);

            Assert.AreEqual(This_AEP, 8956.778, 5, "Wrongt Net AEP");
        }
Beispiel #11
0
        /// <summary> Calculates gross energy production at referenced mapNode. </summary>
        public void CalcGrossAEP_AtMapNode(ref MapNode thisMapNode, MetCollection metList, TurbineCollection turbineList)
        {
            int numWS = metList.numWS;
            int numWD = metList.numWD;

            thisMapNode.sectorGross = new double[numWD];

            TurbineCollection.PowerCurve thisPowerCurve = turbineList.GetPowerCurve(powerCurve);

            thisMapNode.grossAEP = 0;

            for (int k = 0; k < numWS; k++)
            {
                double thisWS    = metList.GetWS_atWS_Ind(k);
                double thisPower = turbineList.GetInterpPowerOrThrust(thisWS, thisPowerCurve, "Power");
                thisMapNode.grossAEP = thisMapNode.grossAEP + thisMapNode.WS_Dist[k] * thisPower;
                for (int WD_Ind = 0; WD_Ind < numWD; WD_Ind++)
                {
                    thisMapNode.sectorGross[WD_Ind] = thisMapNode.sectorGross[WD_Ind] + thisMapNode.sectDist[WD_Ind, k] * thisPower;
                }
            }

            thisMapNode.grossAEP = thisMapNode.grossAEP * 365 * 24 / 1000;
            for (int WD_Ind = 0; WD_Ind < numWD; WD_Ind++)
            {
                thisMapNode.sectorGross[WD_Ind] = thisMapNode.sectorGross[WD_Ind] * 365 * 24 / 1000 * thisMapNode.windRose[WD_Ind];
            }
        }
Beispiel #12
0
        public void CalcWakeLosses_Test()
        {
            WakeCollection    WakeModList = new WakeCollection();
            TurbineCollection turbineList = new TurbineCollection();

            double[]     power      = new double[31];
            string       Power_file = testingFolder + "\\CalcWakeLosses\\power.txt";
            StreamReader sr         = new StreamReader(Power_file);

            for (int i = 0; i <= 22; i++)
            {
                power[i] = Convert.ToSingle(sr.ReadLine());
            }

            double[] Thrust      = new double[31];
            string   Thrust_file = testingFolder + "\\CalcWakeLosses\\Thrust.txt";

            sr = new StreamReader(Thrust_file);

            for (int i = 0; i <= 22; i++)
            {
                Thrust[i] = Convert.ToSingle(sr.ReadLine());
            }

            turbineList.AddPowerCurve("GW 1500/87", 3, 22, 1500, power, Thrust, 87, 16, 10, 1, 0);
            WakeModList.AddWakeModel(0, 5, 10, turbineList.powerCurves[0], 10, 3.5f, 0.03f, "Linear");

            MetCollection metList = new MetCollection();

            metList.metItem    = new Met[1];
            metList.metItem[0] = new Met();

            // Load sectorwise wind speed distribution
            string Sect_WS_file = testingFolder + "\\CalcWakeLosses\\Sect_WS.txt";

            sr = new StreamReader(Sect_WS_file);
            double[,] sectorWS = new double[16, 31];
            for (int i = 0; i <= 15; i++)
            {
                string   This_WS_Array    = sr.ReadLine();
                string[] This_Array_Split = This_WS_Array.Split('\t');
                for (int j = 0; j <= 30; j++)
                {
                    sectorWS[i, j] = Convert.ToSingle(This_Array_Split[j]);
                }
            }

            string WR_file = testingFolder + "\\CalcWakeLosses\\Wind_Rose.txt";

            sr = new StreamReader(WR_file);
            double[] windRose = new double[16];
            for (int i = 0; i <= 15; i++)
            {
                windRose[i] = Convert.ToSingle(sr.ReadLine()) / 100;
            }

            string Sect_AEP_file = testingFolder + "\\CalcWakeLosses\\Sect_AEP.txt";

            sr = new StreamReader(Sect_AEP_file);
            double[] Sect_AEP = new double[16];
            for (int i = 0; i <= 15; i++)
            {
                Sect_AEP[i] = Convert.ToSingle(sr.ReadLine());
            }

            double[] R_RD = new double[21];

            for (int i = 0; i <= 20; i++)
            {
                R_RD[i] = i * 0.025f;
            }

            WakeCollection.WakeLossCoeffs[] These_Coeffs = new WakeCollection.WakeLossCoeffs[140]; // 5 (DW_RDs) x 28 (WS > 3)
            int Ind_Count = 0;

            for (double DW_RD = 5.5f; DW_RD <= 5.9; DW_RD = DW_RD + 0.1f)
            {
                int DW_ind = (int)Math.Round((DW_RD - 2) / 0.1, 0);

                for (int i = 3; i <= 30; i++)
                {
                    double[] Vel_Def_Rad = new double[21];   // Velocity Deficit profile at X_Length_RD
                    double[,] WS_Def_EV_Grid = WakeModList.CalcWS_DeficitEddyViscosityGrid(2f, 6f, 0.1f, 0.025f, i, WakeModList.wakeModels[0], metList);
                    for (int radiusInd = 0; radiusInd <= 19; radiusInd++)
                    {
                        Vel_Def_Rad[radiusInd] = WS_Def_EV_Grid[DW_ind, radiusInd]; // index = 37 corresponds to DW dist = 5.7 (i.e. 2 + 0.1 * 37 = 5.7)
                    }
                    Vel_Def_Rad[20] = 0;
                    double[] Coeffs = WakeModList.CalcWakeProfileFit(Vel_Def_Rad, R_RD);
                    These_Coeffs[Ind_Count].freeStream = i;
                    These_Coeffs[Ind_Count].X_LengthRD = DW_RD;

                    These_Coeffs[Ind_Count].linRegInt = Coeffs[0];
                    These_Coeffs[Ind_Count].linCoeff4 = Coeffs[1];
                    These_Coeffs[Ind_Count].linCoeff3 = Coeffs[2];
                    These_Coeffs[Ind_Count].linCoeff2 = Coeffs[3];
                    These_Coeffs[Ind_Count].linCoeff1 = Coeffs[4];
                    Ind_Count++;
                }
            }
            turbineList.AddTurbine("Target Site", 280050, 4552500, 1);
            turbineList.AddTurbine("UW Site", 280000, 4553000, 1);
            Continuum thisInst = new Continuum("");

            thisInst.turbineList         = turbineList;
            thisInst.metList.WS_FirstInt = 0.5;
            thisInst.metList.WS_IntSize  = 1;
            thisInst.metList.numWS       = 30;
            thisInst.metList.AddMetTAB("dummy", 0, 0, 0, windRose, sectorWS, 0.5, 1, thisInst);

            // Need to define exceed model
            thisInst.turbineList.exceed = new Exceedance();
            thisInst.turbineList.exceed.compositeLoss          = new Exceedance.Monte_Carlo();
            thisInst.turbineList.exceed.compositeLoss.pVals1yr = new double[100];

            for (int i = 0; i < 100; i++)
            {
                thisInst.turbineList.exceed.compositeLoss.pVals1yr[i] = 1.0;
            }

            WakeCollection.WakeCalcResults WakeResults = WakeModList.CalcWakeLosses(These_Coeffs, 280050, 4552500, sectorWS, 4130, Sect_AEP, thisInst, WakeModList.wakeModels[0], windRose);

            Assert.AreEqual(WakeResults.sectorNetEnergy[0], 79.1604, 0.1, "Wrong net AEP");
            Assert.AreEqual(WakeResults.sectorWakedWS[0], 4.2851, 0.1, "Wrong waked wind speed");
            Assert.AreEqual(WakeResults.sectorWakeLoss[0], 0.2278, 0.1, "Wrong wake loss");
        }
Beispiel #13
0
        public void CalcNetSectEnergy_Test()
        {
            WakeCollection    WakeModList = new WakeCollection();
            TurbineCollection turbineList = new TurbineCollection();

            double[]     power      = new double[31];
            string       Power_file = testingFolder + "\\CalcNetSectEnergy\\Power.txt";
            StreamReader sr         = new StreamReader(Power_file);

            for (int i = 0; i <= 22; i++)
            {
                power[i] = Convert.ToSingle(sr.ReadLine());
            }

            double[] Thrust      = new double[31];
            string   Thrust_file = testingFolder + "\\CalcNetSectEnergy\\Thrust.txt";

            sr = new StreamReader(Thrust_file);

            for (int i = 0; i <= 22; i++)
            {
                Thrust[i] = Convert.ToSingle(sr.ReadLine());
            }

            turbineList.AddPowerCurve("GW 1500/87", 3, 22, 1500, power, Thrust, 87, 16, 10, 1, 0);
            WakeModList.AddWakeModel(0, 5, 10, turbineList.powerCurves[0], 10, 3.5f, 0.03f, "Linear");

            string WR_file = testingFolder + "\\CalcNetSectEnergy\\Wind_Rose.txt";

            sr = new StreamReader(WR_file);
            double[] windRose = new double[16];
            for (int i = 0; i <= 15; i++)
            {
                windRose[i] = Convert.ToSingle(sr.ReadLine()) / 100;
            }

            string Sect_WS_file = testingFolder + "\\CalcNetSectEnergy\\Sect_WS.txt";

            sr = new StreamReader(Sect_WS_file);
            double[,] sectorWS = new double[16, 31];
            for (int i = 0; i <= 15; i++)
            {
                string   This_WS_Array    = sr.ReadLine();
                string[] This_Array_Split = This_WS_Array.Split('\t');
                for (int j = 0; j <= 30; j++)
                {
                    sectorWS[i, j] = Convert.ToSingle(This_Array_Split[j]);
                }
            }

            Continuum thisInst = new Continuum("");

            thisInst.metList.WS_FirstInt = 0.5;
            thisInst.metList.WS_IntSize  = 1;
            thisInst.metList.numWS       = 30;
            Met met = new Met();

            thisInst.metList.AddMetTAB("dummy", 0, 0, 0, windRose, sectorWS, 0.5, 1, thisInst);
            double noLoss = 1.0;

            double[] This_Net_Energy = WakeModList.CalcNetSectEnergy(WakeModList.wakeModels[0], sectorWS, windRose, thisInst, noLoss);
            Assert.AreEqual(This_Net_Energy[0], 102.5134, 0.1, "Wrong net energy calculated Sector 0");
            Assert.AreEqual(This_Net_Energy[6], 96.69486, 0.1, "Wrong net energy calculated Sector 6");
            Assert.AreEqual(This_Net_Energy[14], 223.3589, 0.1, "Wrong net energy calculated Sector 14");
            Assert.AreEqual(This_Net_Energy[15], 124.5820, 0.1, "Wrong net energy calculated Sector 15");
        }