Ejemplo n.º 1
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        public static void ShowDetentionPlot(BMP bmp, string plotTitle = "Wet Detention System Plot")
        {
            frmChart formC = new frmChart(bmp, "WetDetention");

            formC.Text = plotTitle;
            formC.ShowDialog();
        }
Ejemplo n.º 2
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 public void CreateFromBMP(BMP bmp)
 {
     this.CatchmentID      = bmp.CatchmentID;
     this.BMPType          = bmp.BMPType;
     this.AnnualCost       = bmp.TotalAnnualCost;
     this.ConstructionCost = bmp.BMPCost;
     this.PresentValue     = bmp.PresentWorth;
 }
Ejemplo n.º 3
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        public string SpecificBMPReport(int i, BMP bmp)
        {
            string s = "<br/>BMP in Series Number: " + i.ToString() + "<br/>";

            s += "BMP Type: " + bmp.BMPType + "<br/>";
            s += bmp.BMPInputVariables();
            return(s);
        }
Ejemplo n.º 4
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        public static void ShowVFSPlot(BMP bmp, string plotTitle = "Vegetated Filter Strip Plot")
        {
            VegetatedFilterStrip vnb   = (VegetatedFilterStrip)bmp;
            frmChart             formC = new frmChart(bmp, "VFS");

            formC.Text = plotTitle;
            formC.ShowDialog();
        }
Ejemplo n.º 5
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        public static void ShowVNBPlot(BMP bmp, string plotTitle = "Vegetated Natural Buffer Plot")
        {
            VegetatedNaturalBuffer vnb = (VegetatedNaturalBuffer)bmp;
            frmChart formC             = new frmChart(bmp, "VNB");

            formC.Text = plotTitle;
            formC.ShowDialog();
        }
Ejemplo n.º 6
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        public static void ShowRetentionPlot(BMP bmp, string plotTitle = "Retention Treatment Efficiency")
        {
            frmChart formC = new frmChart(bmp, "Storage");

            formC.Text = plotTitle;
            formC.AddMarker(bmp.RetentionDepth, bmp.HydraulicCaptureEfficiency,
                            "System Efficiency at Treatment Depth (in over watershed): " + XmlPropertyObject.AsString(bmp.RetentionDepth, 2));
            formC.ShowDialog();
        }
Ejemplo n.º 7
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 public MultipleBMP(Catchment c) : base(c)
 {
     RetentionCount = 0;
     RunoffVolume   = c.PostRunoffVolume;
     BMPType        = BMPTrainsProject.sMultipleBMP;
     bmp1           = new BMP(c); bmp1.BMPType = c.BMP1;
     bmp2           = new BMP(c); bmp2.BMPType = c.BMP2;
     bmp3           = new BMP(c); bmp3.BMPType = c.BMP3;
     bmp4           = new BMP(c); bmp4.BMPType = c.BMP4;
 }
Ejemplo n.º 8
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        private void CalculateReductions(BMP bmp)
        {
            bmp.BMPNMassLoadOut = bmp.BMPNMassLoadIn * (100 - bmp.ProvidedNTreatmentEfficiency) / 100;
            bmp.BMPPMassLoadOut = bmp.BMPPMassLoadIn * (100 - bmp.ProvidedPTreatmentEfficiency) / 100;

            //
            //if (!bmp.isRetention()) {
            //    bmp.GroundwaterNMassLoadIn = bmp.BMPNMassLoadIn * bmp.ProvidedNTreatmentEfficiency / 100;
            //    bmp.GroundwaterPMassLoadIn = bmp.BMPPMassLoadIn * bmp.ProvidedPTreatmentEfficiency / 100;
            //}
        }
Ejemplo n.º 9
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 private void CalculateTraditional(BMP bmp)
 {
     if (bmp.isDefined())
     {
         bmp.BMPNMassLoadIn = bmp1.BMPNMassLoadOut;
         bmp.BMPPMassLoadIn = bmp1.BMPPMassLoadOut;
         CalculateReductions(bmp);
         ProvidedNTreatmentEfficiency = 100 * (bmp1.BMPNMassLoadIn - bmp.BMPNMassLoadOut) / bmp1.BMPNMassLoadIn;
         ProvidedPTreatmentEfficiency = 100 * (bmp1.BMPPMassLoadIn - bmp.BMPPMassLoadOut) / bmp1.BMPPMassLoadIn;
         CalculateMassLoading();
     }
 }
Ejemplo n.º 10
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        public static void SetButtonColor(Catchment catchment, BMP bmp, System.Windows.Forms.Button btn)
        {
            System.Drawing.Color dColor = System.Drawing.Color.LightGreen;
            System.Drawing.Color bColor = System.Drawing.Color.LightGray;
            System.Drawing.Color sColor = System.Drawing.Color.LightCyan;

            setButtonColor(bmp.isDefined(), btn);
            if ((catchment.getSelectedBMP() == bmp) && bmp.isDefined())
            {
                btn.BackColor = sColor;
            }
        }
Ejemplo n.º 11
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        public void AddCost(BMP bmp)
        {
            bmp.CalculateCost(Globals.Project.InterestRate, Globals.Project.ProjectDuration, Globals.Project.CostOfWater);

            LandCost                  += bmp.LandCost;
            FixedCost                 += bmp.FixedCost;
            BMPCost                   += bmp.BMPCost;
            AnnualCostRecovery        += bmp.AnnualCostRecovery;
            MaintenanceCost           += bmp.MaintenanceCost;
            TotalAnnualCost           += bmp.TotalAnnualCost;
            PresentValueOfReplacement += bmp.PresentValueOfReplacement;
            PresentWorth              += bmp.PresentWorth;
        }
Ejemplo n.º 12
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        private void RouteRetentionToWetDetention(BMP up, BMP down)
        {
            double rt = 0.0;    // Adjusted Residence time based on incoming flow difference due to removal

            // e is provided retention treatment efficiency
            double e = CalculateEffectiveRetentionTreatmentEfficiency();

            up.BMPVolumeOut = up.BMPVolumeIn * e / 100; // This is retention calculation for VOlume Out
            if (((Storage)up).BMPVolumeOut != 0)
            {
                rt = ((WetDetention)down).PermanentPoolVolume / ((Storage)up).BMPVolumeOut * 365;
            }
            ((WetDetention)down).Calculate(rt);

            down.BMPNMassLoadIn = up.BMPNMassLoadOut;
            down.BMPPMassLoadIn = up.BMPPMassLoadOut;

            // Now we have to adjust the overall efficiency to take into account the additional removal

            double NonAdjustedN = CalculateAdjustedEfficiency(e, down.ProvidedNTreatmentEfficiency);
            double NonAdjustedP = CalculateAdjustedEfficiency(e, down.ProvidedPTreatmentEfficiency);

            //if (e > down.ProvidedNTreatmentEfficiency)
            //    down.ProvidedNTreatmentEfficiency = down.ProvidedNTreatmentEfficiency - 22;
            //else
            down.ProvidedNTreatmentEfficiency = down.ProvidedNTreatmentEfficiency - e / 7.0;
            //down.ProvidedNTreatmentEfficiency = NonAdjustedN - e / 7.0;
            //if (e > down.ProvidedPTreatmentEfficiency)
            //    down.ProvidedPTreatmentEfficiency = down.ProvidedPTreatmentEfficiency - 12;
            //else
            down.ProvidedPTreatmentEfficiency = down.ProvidedPTreatmentEfficiency - e / 7.0;
            //down.ProvidedPTreatmentEfficiency = NonAdjustedP - e / 7.0;

            if (down.ProvidedNTreatmentEfficiency <= 0)
            {
                down.ProvidedNTreatmentEfficiency = 0.0;
            }
            if (down.ProvidedPTreatmentEfficiency <= 0)
            {
                down.ProvidedPTreatmentEfficiency = 0.0;
            }

            ProvidedNTreatmentEfficiency = CalculateAdjustedEfficiency(e, down.ProvidedNTreatmentEfficiency);
            ProvidedPTreatmentEfficiency = CalculateAdjustedEfficiency(e, down.ProvidedPTreatmentEfficiency);

            CalculateReductions(down);
            CalculateReductions(this);
        }
Ejemplo n.º 13
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 public void AddBMP(int i, BMP bmp)
 {
     if (i == 1)
     {
         bmp1 = bmp;
     }
     if (i == 2)
     {
         bmp2 = bmp;
     }
     if (i == 3)
     {
         bmp3 = bmp;
     }
     if (i == 4)
     {
         bmp4 = bmp;
     }
 }
Ejemplo n.º 14
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 public frmChart(DomainCode.BMP _bmp, string BMPType)
 {
     InitializeComponent();
     ChartType = BMPType;
     bmp       = _bmp;
     if (BMPType == "Storage")
     {
         PlotStorage(bmp);
     }
     if (BMPType == "VNB")
     {
         PlotVNB((VegetatedNaturalBuffer)bmp, "Nitrogen");
     }
     if (BMPType == "VFS")
     {
         PlotVFS((VegetatedFilterStrip)bmp, "Nitrogen");
     }
     if (BMPType == "WetDetention")
     {
         PlotWetDetention((WetDetention)bmp, "Nitrogen");
     }
 }