protected void btnWetOutCalculateOnClick(object sender, EventArgs e)
{
int companyId = Int32.Parse(hdfCompanyId.Value);
double pi = double.Parse(Decimal.Round(decimal.Parse(Math.PI.ToString()),4).ToString());
double breakSize = 10; // in
double factor1 = 0.99;
double factor2 = 0.01;
// ...Section values
// ... ... tube size = confirmed Size
Distance confirmedSizeDistance = new Distance(tbxConfirmedSize.Text);
double confirmedSize = 0;
string[] confirmedSizeString = confirmedSizeDistance.ToStringInEng1().Split('\"');
if (!confirmedSizeDistance.ToStringInEng1().Contains("'"))
{
if (Validator.IsValidDouble(tbxConfirmedSize.Text))
{
confirmedSize = double.Parse(tbxConfirmedSize.Text);
}
else
{
confirmedSize = double.Parse(confirmedSizeString[0]);
}
}
else
{
confirmedSize = Math.Ceiling(confirmedSizeDistance.ToDoubleInEng3() * 12);
}
// ... For Calculations
// ... ... Validate setup data
if ((ddlWetOutDataLinerTube.SelectedValue != "") && (ddlWetOutDataResins.SelectedValue != "-1") && (tbxWetOutDataExcessResin.Text != "") && (ddlWetOutDataPoundsDrums.SelectedValue != "(Select)") && (tbxWetOutDataDrumDiameter.Text != "") && (tbxWetOutDataHoistMaximumHeight.Text != "") && (tbxWetOutDataHoistMinimumHeight.Text != "") && (tbxWetOutDataDownDropTubeLength.Text != "") && (tbxWetOutDataPumpHeightAboveGround.Text != "") && (tbxWetOutDataTubeResinToFeltFactor.Text != ""))
{
// ... ... validate wet out data
if ((ddlThickness.SelectedValue != "") && (tbxWetOutDataPlusExtra.Text != "") && (tbxWetOutDataForTurnOffset.Text != "") && (tbxWetOutDataExtraResinForMix.Text != "") && (ddlWetOutDataInversionType.SelectedValue != "(Select)") && (tbxWetOutDataDepthOfInversionMH.Text != "") && (tbxWetOutDataTubeForColumn.Text != "") && (tbxWetOutDataTubeForStartDry.Text != "") && (tbxWetOutDataRollerGap.Text != ""))
{
// Lenght to line of all sections (sume of lenght of asset table)
string newRunDetails = "";
foreach (ListItem lst in cbxlSectionId.Items)
{
if (lst.Selected)
{
newRunDetails = newRunDetails + lst.Value + ">";
}
}
newRunDetails = newRunDetails.Substring(0, newRunDetails.Length - 1);
string[] runDetailsList = newRunDetails.Split('>');
double lengthToLine = 0d;
for (int i = 0; i < runDetailsList.Length; i++)
{
AssetSewerSectionGateway assetSewerSectionGateway = new AssetSewerSectionGateway();
string sectionId = runDetailsList[i].ToString();
if (sectionId != "-1")
{
assetSewerSectionGateway.LoadBySectionId(sectionId, companyId);
int assetId = assetSewerSectionGateway.GetAssetID(sectionId);
Distance lengthDistance = new Distance(assetSewerSectionGateway.GetLength(assetId));
lengthToLine = lengthToLine + lengthDistance.ToDoubleInEng3();
}
}
tbxWetOutDataLengthToLine.Text = decimal.Round(decimal.Parse(lengthToLine.ToString()), 1).ToString();
tbxInversionDataRunLength.Text = decimal.Round(decimal.Parse(lengthToLine.ToString()), 1).ToString();
// ... Inversion run details
for (int i = 0; i < runDetailsList.Length; i++)
{
cbxlInversionDataSectionId.Items.FindByValue(runDetailsList[i]).Selected = true;
}
// .. Resin Information
int resinId = Int32.Parse(ddlWetOutDataResins.SelectedValue);
WorkFullLengthLiningResinsGateway workFullLengthLiningResinsGateway = new WorkFullLengthLiningResinsGateway();
workFullLengthLiningResinsGateway.LoadByResinId(resinId, companyId);
string resinMake = workFullLengthLiningResinsGateway.GetResinMake(resinId);
string resinType = workFullLengthLiningResinsGateway.GetResinType(resinId);
string resinNumber = workFullLengthLiningResinsGateway.GetResinNumber(resinId);
double lbUsg = double.Parse(workFullLengthLiningResinsGateway.GetLbUsg(resinId).ToString());
int lbDrums = Int32.Parse(workFullLengthLiningResinsGateway.GetLbDrums(resinId).ToString());
double activeResin = double.Parse(workFullLengthLiningResinsGateway.GetActiveResin(resinId).ToString());
string applyCatalystTo = workFullLengthLiningResinsGateway.GetApplyCatalystTo(resinId);
double filter = double.Parse(workFullLengthLiningResinsGateway.GetFilter(resinId).ToString());
// ... Calculations
// ... ... LengthtToWetOut
Double plusExtra = double.Parse(tbxWetOutDataPlusExtra.Text);
Double forTurnOffset = double.Parse(tbxWetOutDataForTurnOffset.Text);
Double lengthtToWetOut = lengthToLine + plusExtra + forTurnOffset;
tbxWetOutDataLengthtToWetOut.Text = decimal.Round(decimal.Parse(lengthtToWetOut.ToString()), 1).ToString();
tbxInversionDataWetOutLenght.Text = decimal.Round(decimal.Parse(lengthtToWetOut.ToString()), 1).ToString();
// ... ... Resin label
lblWetOutDataResinGray.Text = "RESIN: " + resinMake + resinType + resinNumber + ", " + lbUsg + "lbs/usg, " + activeResin.ToString() + " % Active Resin ";
// ... ... Lb drum label
lblWetOutDataLbDrumsGrey.Text = "For " + lbDrums.ToString() + " lb drums";
// ... ... Drum contains label
// ... ... Drum Fill Height Information
double usgDrum = lbDrums / lbUsg;
double lbsPerUsg = lbUsg;
double lbsPerDrum = lbDrums;
double usgalsPerDrum = lbsPerDrum / lbsPerUsg;
double drumInsideDiameter = Double.Parse(tbxWetOutDataDrumDiameter.Text);
double drumInsideDiameterPow = Math.Pow(drumInsideDiameter, 2);
double usgalsPerDrumInch = (1 * (pi * drumInsideDiameterPow) / 4) * 0.004329;
double lbsPerDrumInch = usgalsPerDrumInch * lbsPerUsg;
double drumFillHeightShouldBeApprox = lbsPerDrum / lbsPerDrumInch;
if (ddlWetOutDataPoundsDrums.SelectedValue == "Pounds & Drums") // OP 1
{
lblWetOutDataDrumContainsGray.Text = "Drum contains: " + lbDrums.ToString() + "lbs / " + Decimal.Round(decimal.Parse(usgDrum.ToString()), 1).ToString() + "usg. Full drum level: Approx " + Decimal.Round(Decimal.Parse(drumFillHeightShouldBeApprox.ToString()), 1).ToString() + "ins.";
}
else
{
lblWetOutDataDrumContainsGray.Text = "-";
}
// ... ... Liner Tube
string linerTube = ddlWetOutDataLinerTube.SelectedValue;
double tubeThickness = Double.Parse(ddlThickness.SelectedValue);
lblWetOutDataLinerTubeGray.Text = "LINER TUBE: " + linerTube.ToString() + ", Inversion. Tube Size: " + confirmedSize.ToString() + " ins x " + tubeThickness.ToString() + " mm.";
tbxInversionDataLinerSize.Text = confirmedSize + " ins x " + tubeThickness + " mm";
lblInversionDataSubtitle.Text = ddlWetOutDataLinerTube.SelectedValue;
double maxCold = -1;
double maxColdExact = -1;
double maxColdRounded = -1;
double maxHot = -1;
double maxHotExact = -1;
double maxHotRounded = -1;
double idealHead = -1;
double idealHeadExact = -1;
double idealHeadRounded = -1;
switch (linerTube)
{
case "Applied Felts":
double sizeAppliedFelts = confirmedSize * 25.4;
// ... ... For max cold
maxColdExact = (tubeThickness / sizeAppliedFelts) * 308 * 3.2808;
maxColdRounded = Double.Parse(Decimal.Round(Decimal.Parse(maxColdExact.ToString()), 1).ToString());
maxCold = maxColdRounded;
// ... ... For max hot
maxHotExact = (tubeThickness / sizeAppliedFelts) * 269 * 3.2808;
maxHotRounded = Double.Parse(Decimal.Round(Decimal.Parse(maxHotExact.ToString()), 1).ToString());
maxHot = maxHotRounded;
// ... ... For Idead head
double sizeToUseAppliedFelts = 0d;
if (confirmedSize > breakSize)
{
sizeToUseAppliedFelts = sizeAppliedFelts;
}
else
{
sizeToUseAppliedFelts = sizeAppliedFelts - 25;
}
idealHeadExact = (tubeThickness / sizeToUseAppliedFelts) * 201 * 3.2808;
idealHeadRounded = Double.Parse(Decimal.Round(Decimal.Parse(idealHeadExact.ToString()), 1).ToString());
idealHead = idealHeadRounded;
break;
case "Novapipe":
// ... ... For max cold
maxColdExact = (39 * tubeThickness) / confirmedSize;
maxColdRounded = double.Parse(Decimal.Round(Decimal.Parse(maxColdExact.ToString()), 1).ToString());
maxCold = maxColdRounded;
// ... ... For max hot
maxHotExact = (33.1 * tubeThickness) / confirmedSize;
maxHotRounded = Double.Parse(Decimal.Round(Decimal.Parse(maxHotExact.ToString()), 1).ToString());
maxHot = maxHotRounded;
// ... ... For Idead head
idealHeadExact = (25.76 * tubeThickness) / confirmedSize;
idealHeadRounded = Double.Parse(Decimal.Round(Decimal.Parse(idealHeadExact.ToString()), 1).ToString());
idealHead = idealHeadRounded;
break;
case "Liner Products":
// ... ... For max cold
maxColdExact = (tubeThickness / confirmedSize) * 34.057;
maxColdRounded = double.Parse(Decimal.Round(Decimal.Parse(maxColdExact.ToString()), 1).ToString());
maxCold = maxColdRounded;
// ... ... For max hot
maxHotExact = (tubeThickness / confirmedSize) * 28.381;
maxHotRounded = Double.Parse(Decimal.Round(Decimal.Parse(maxHotExact.ToString()), 1).ToString());
maxHot = maxHotRounded;
// ... ... For Idead head
idealHeadExact = (tubeThickness / confirmedSize) * 20.888;
idealHeadRounded = Double.Parse(Decimal.Round(Decimal.Parse(idealHeadExact.ToString()), 1).ToString());
idealHead = idealHeadRounded;
break;
case "Generic":
double sizeGeneric = confirmedSize * 25.4;
// ... ... For max cold
maxColdExact = (tubeThickness / sizeGeneric) * 308 * 3.2808;
maxColdRounded = Double.Parse(Decimal.Round(Decimal.Parse(maxColdExact.ToString()), 1).ToString());
maxCold = maxColdRounded;
// ... ... For max hot
maxHotExact = (tubeThickness / sizeGeneric) * 269 * 3.2808;
maxHotRounded = Double.Parse(Decimal.Round(Decimal.Parse(maxHotExact.ToString()), 1).ToString());
maxHot = maxHotRounded;
// ... ... For Idead head
double sizeToUseGeneric = 0d;
if (confirmedSize > breakSize)
{
sizeToUseGeneric = sizeGeneric;
}
else
{
sizeToUseGeneric = sizeGeneric - 25;
}
idealHeadExact = (tubeThickness / sizeToUseGeneric) * 201 * 3.2808;
idealHeadRounded = Double.Parse(Decimal.Round(Decimal.Parse(idealHeadExact.ToString()), 1).ToString());
idealHead = idealHeadRounded;
break;
case "Tube 5 No Data":
// ... ... For max cold
maxCold = -1;
// ... ... For max hot
maxHot = -1;
// ... ... For Idead head
idealHead = -1;
break;
case "Tube 6 No Data":
// ... ... For max cold
maxCold = -1;
// ... ... For max hot
maxHot = -1;
// ... ... For Idead head
idealHead = -1;
break;
}
// ... ... .... Tube Max Cold Head, Tube Max Cold head PSI
if (maxCold != -1)
{
tbxWetOutDataTubeMaxColdHead.Text = maxCold.ToString();
double maxColdPsi = 0.434 * maxCold;
tbxWetOutDataTubeMaxColdHeadPSI.Text = decimal.Round(decimal.Parse(maxColdPsi.ToString()), 1).ToString();
}
else
{
tbxWetOutDataTubeMaxColdHead.Text = "NA";
tbxWetOutDataTubeMaxColdHeadPSI.Text = "NA";
}
// ... ... .... Tube Max Hot Head, Tube Max Hot Head PSI
if (maxHot != -1)
{
tbxWetOutDataTubeMaxHotHead.Text = maxHot.ToString();
double maxHotPsi = 0.434 * maxHot;
tbxWetOutDataTubeMaxHotHeadPSI.Text = decimal.Round(decimal.Parse(maxHotPsi.ToString()), 1).ToString();
}
else
{
tbxWetOutDataTubeMaxHotHead.Text = "NA";
tbxWetOutDataTubeMaxHotHeadPSI.Text = "NA";
}
// ... ... .... Tube Ideal Head, Tube Ideal Head PSI
if (idealHead != -1)
{
tbxWetOutDataTubeIdealHead.Text = idealHead.ToString();
double idealHeadPsi = 0.434 * idealHead;
tbxWetOutDataTubeIdealHeadPSI.Text = Decimal.Round(Decimal.Parse(idealHeadPsi.ToString()), 1).ToString();
}
else
{
tbxWetOutDataTubeIdealHead.Text = "NA";
tbxWetOutDataTubeIdealHeadPSI.Text = "NA";
}
// ... ... Net Resins
// ... ... ... For net resin for tube lbs ft(lbs/ft)
double lbsFt = 0d;
double usgFt = 0d;
double excessResin = Double.Parse(tbxWetOutDataExcessResin.Text)/100;
double tubeResinToFeltFactor = Double.Parse(tbxWetOutDataTubeResinToFeltFactor.Text);
switch (linerTube)
{
case "Applied Felts":
// ... ... .... For lbsFt
double fromSetUp = tubeResinToFeltFactor / 100;
double t = tubeThickness / 25.4;
double id = confirmedSize - 2 * t;
double area = pi * (Math.Pow(confirmedSize, 2) - Math.Pow(id, 2)) / 4;
double v1 = 12 * area * 0.004329;
double v2 = v1 * fromSetUp;
double v3 = v2 * excessResin;
double v4 = v3 + v2;
lbsFt = v4 * lbUsg;
// ... ... .... For usgFt
usgFt = v4;
break;
case "Novapipe":
// ... ... .... For lbsFt
double fromSetUpNovapipe = tubeResinToFeltFactor / 100;
double tNovapipe = tubeThickness / 25.4;
double idNovapipe = confirmedSize - 2 * tNovapipe;
double areaNovapipe = pi * (Math.Pow(confirmedSize, 2) - Math.Pow(idNovapipe, 2)) / 4;
double v1Novapipe = 12 * areaNovapipe * 0.004329;
double v2Novapipe = v1Novapipe * fromSetUpNovapipe;
double v3Novapipe = v2Novapipe * excessResin;
double v4Novapipe = v3Novapipe + v2Novapipe;
lbsFt = v4Novapipe * lbUsg;
// ... ... .... For usgFt
usgFt = v4Novapipe;
break;
case "Liner Products":
// ... ... .... For lbsFt
double lbft3 = lbUsg / 0.1337;
double specificGravity = double.Parse(decimal.Round(decimal.Parse((lbft3 / 62.4).ToString()), 3).ToString());
double midCalc = 0d;
if (confirmedSize > 8)
{
midCalc = 261.5184;
}
else
{
midCalc = 217.932;
}
Decimal confirmedSizeDecimal = Decimal.Parse(confirmedSize.ToString());
Decimal firstDivision = confirmedSizeDecimal / 24;
Double firstDivisionDouble = Double.Parse(firstDivision.ToString());
double midCalc2 = RoundUp(firstDivisionDouble, 0);
Decimal secondDivision = confirmedSizeDecimal / 30;
double secondDivisionDouble = double.Parse(secondDivision.ToString());
double midCalc3 = RoundUp(secondDivisionDouble, 0);
double estimatedResinMultiplier = (((545.2 * (tubeThickness / 25.4) * ((((confirmedSize - 2 * (tubeThickness / 25.4)) * pi * 0.92) / pi) + (tubeThickness / 25.4)) + (midCalc * midCalc3 * ((tubeThickness - 3) / 25.4)) + (55.98 * midCalc2)) * specificGravity) / 453.59) * 0.92;
double excessResinAdded = excessResin * estimatedResinMultiplier;
lbsFt = excessResinAdded + estimatedResinMultiplier;
// ... ... .... For usgFt
double totalResin = excessResinAdded + estimatedResinMultiplier;
usgFt = totalResin / lbUsg;
break;
case "Generic":
// ... ... .... For lbsFt
double fromSetUpGeneric = tubeResinToFeltFactor / 100;
double tGeneric = tubeThickness / 25.4;
double idGeneric = confirmedSize - 2 * tGeneric;
double areaGeneric = pi * (Math.Pow(confirmedSize, 2) - Math.Pow(idGeneric, 2)) / 4;
double v1Generic = 12 * areaGeneric * 0.004329;
double v2Generic = v1Generic * fromSetUpGeneric;
double v3Generic = v2Generic * excessResin;
double v4Generic = v3Generic + v2Generic;
lbsFt = v4Generic * lbUsg;
// ... ... .... For usgFt
usgFt = v4Generic;
break;
case "Tube 5 No Data":
// ... ... .... For lbsFt
lbsFt = -1;
// ... ... .... For usgFt
usgFt = -1;
break;
case "Tube 6 No Data":
// ... ... .... For lbsFt
lbsFt = -1;
// ... ... .... For usgFt
usgFt = -1;
break;
}
double netResinForTubeLbsFt = Double.Parse(Decimal.Round(Decimal.Parse(lbsFt.ToString()), 2).ToString());
tbxWetOutDataNetResinForTubeLbsFt.Text = netResinForTubeLbsFt.ToString();
// ... ... ... For net resin for tube (lbs)
double netResinForTube = lengthtToWetOut * netResinForTubeLbsFt;
tbxWetOutDataNetResinForTube.Text = Decimal.Round(decimal.Parse(netResinForTube.ToString()), 0).ToString();
// ... ... ... For net resin for tube usg/ft (usg/ft)
double netResinForTubeUsgFt = Double.Parse(Decimal.Round(Decimal.Parse(usgFt.ToString()), 3).ToString());
tbxWetOutDataNetResinForTubeUsgFt.Text = netResinForTubeUsgFt.ToString();
// ... ... ... For net resin for tube (usgals)
double netResinForTubeUsgals = lengthtToWetOut * netResinForTubeUsgFt;
tbxWetOutDataNetResinForTubeUsgals.Text = Decimal.Round(decimal.Parse(netResinForTubeUsgals.ToString()), 1).ToString();
// ... ... ... For net resin for tube drums Ins
// ... ... ... .... Drum Fill Height Information
double exactDrumsRequired = netResinForTube / lbDrums;
double rounddownToWholeDrums = RoundDown(exactDrumsRequired, 0);
double remainingPartDrum = exactDrumsRequired - rounddownToWholeDrums;
double fillHeight = drumFillHeightShouldBeApprox;
double remainingPartDrumInInches = fillHeight * remainingPartDrum;
double drumFillHeight = fillHeight;
double difference = drumFillHeight - remainingPartDrumInInches;
double drumsToUseInString = 0d;
if (remainingPartDrum > factor1)
{
drumsToUseInString = rounddownToWholeDrums + 1;
}
else
{
if (remainingPartDrum < factor2)
{
drumsToUseInString = rounddownToWholeDrums;
}
else
{
drumsToUseInString = rounddownToWholeDrums;
}
}
double inchesToUseInString = 0;
if (remainingPartDrum > factor1)
{
inchesToUseInString = 0;
}
else
{
if (remainingPartDrum < factor2)
{
inchesToUseInString = 0;
}
else
{
inchesToUseInString = remainingPartDrumInInches;
}
}
string stringForDrumInches = "= " + drumsToUseInString + " Drum + " + Decimal.Round(Decimal.Parse(inchesToUseInString.ToString()), 1).ToString() + " ins";
string stringForDrumsInches = "= " + drumsToUseInString + " Drums + " + Decimal.Round(Decimal.Parse(inchesToUseInString.ToString()), 1).ToString() + " ins";
string stringToCarry = "";
if (drumsToUseInString == 1)
{
stringToCarry = stringForDrumInches;
}
else
{
stringToCarry = stringForDrumsInches;
}
tbxWetOutDataNetResinForTubeDrumsIns.Text = stringToCarry.ToString();
// ... ... Newt resin label
lblWetOutDataNetResinGrey.Text = "Net resin is amount required in the tube after wet out complete and tube ready for installation. Includes excess at " + excessResin * 100 + "%";
// ... ... Extra lbs for Mix
double extraResinForMix = Double.Parse(tbxWetOutDataExtraResinForMix.Text);
double extraLbsForMix = netResinForTube * extraResinForMix/100;
tbxWetOutDataExtraLbsForMix.Text = Decimal.Round(decimal.Parse(extraLbsForMix.ToString()), 0).ToString();
// ... ... Total Mix Quantity
double totalMixQuantity = (1 + extraResinForMix / 100) * netResinForTube;
tbxWetOutDataTotalMixQuantity.Text = Decimal.Round(decimal.Parse(totalMixQuantity.ToString()), 0).ToString();
// .... ... Total Mix Quantity usgals
double totalMixQuantityUsgals = (1 + extraResinForMix / 100) * netResinForTubeUsgals;
tbxWetOutDataTotalMixQuantityUsgals.Text = Decimal.Round(decimal.Parse(totalMixQuantityUsgals.ToString()), 1).ToString(); ;
// ... ... Total Mix Quantity Drums Ins
if (ddlWetOutDataPoundsDrums.SelectedValue == "Pounds & Drums") // OP 1
{
tbxWetOutDataTotalMixQuantityDrumsIns.Text = stringToCarry;
}
else
{
tbxWetOutDataTotalMixQuantityDrumsIns.Text = "-";
}
// ... ... Catalyst label
string catalystLabel = "";
if (applyCatalystTo == "Active Resin")
{
double activeResinVal = totalMixQuantity * activeResin/100;
double activeResinInDrum = lbsPerDrum * activeResin/100;
if (ddlWetOutDataPoundsDrums.SelectedValue == "Pounds & Drums") // OP 1
{
catalystLabel = "Catalyst % applied to weight of Active Resin = " + decimal.Round(decimal.Parse(activeResinVal.ToString()), 0) + " lbs (" + decimal.Round(decimal.Parse(activeResinInDrum.ToString()), 1).ToString() + " lbs per drum )";
}
else
{
catalystLabel = "Catalyst % applied to weight of Active Resin = " + decimal.Round(decimal.Parse(activeResinVal.ToString()), 0) + " lbs";
}
}
else
{
if (applyCatalystTo == "Active Resin & Filter")
{
if (ddlWetOutDataPoundsDrums.SelectedValue == "Pounds & Drums") // OP 1
{
catalystLabel = "Catalyst % applied to weight of Active Resin and Filler = " + decimal.Round(decimal.Parse(totalMixQuantity.ToString()), 0).ToString() + " lbs (" + decimal.Round(decimal.Parse(lbsPerDrum.ToString()), 1).ToString() + " lbs per drum )";
}
else
{
catalystLabel = "Catalyst % applied to weight of Active Resin and Filler = " + decimal.Round(decimal.Parse(totalMixQuantity.ToString()), 0).ToString() + " lbs";
}
}
else
{
catalystLabel = "ERROR IN RESIN LIST ENTRY(S). CATALYST QTYS ARE INCORRECT!";
}
}
lblWetOutDataCatalystGrey.Text = catalystLabel;
// ... ... Total Tube
double tubeForColumn = Double.Parse(tbxWetOutDataTubeForColumn.Text);
double tubeForStartDry = Double.Parse(tbxWetOutDataTubeForStartDry.Text);
double totalTube = tubeForColumn + tubeForStartDry + lengthtToWetOut; ;
tbxWetOutDataTotalTube.Text = Decimal.Round(decimal.Parse(totalTube.ToString()), 1).ToString();
// ... ... Drop Tube Connects
string inversionType = ddlWetOutDataInversionType.SelectedValue;
double depthOfInversionMH = Double.Parse(tbxWetOutDataDepthOfInversionMH.Text);
if (inversionType == "Bottom")
{
if (depthOfInversionMH == tubeForColumn)
{
tbxWetOutDataDropTubeConnects.Text = "At MH lid";
}
else
{
if (depthOfInversionMH > tubeForColumn)
{
tbxWetOutDataDropTubeConnects.Text = "Below MH lid";
}
else
{
tbxWetOutDataDropTubeConnects.Text = "Above MH lid";
}
}
}
else
{
tbxWetOutDataDropTubeConnects.Text = "-";
}
// ... ... Allows Head To
double allowsToHeadTo = 0d;
double downDropTubeLength = Double.Parse(tbxWetOutDataDownDropTubeLength.Text);
if (inversionType == "Top")
{
allowsToHeadTo = tubeForColumn;
tbxWetOutDataAllowsHeadTo.Text = allowsToHeadTo.ToString();
}
else
{
if (inversionType == "Bottom")
{
allowsToHeadTo = tubeForColumn + downDropTubeLength;
tbxWetOutDataAllowsHeadTo.Text = allowsToHeadTo.ToString();
}
else
{
tbxWetOutDataAllowsHeadTo.Text = "NA";
}
}
// ... ... Height Needed
double heightNeeded = 0;
if (tbxWetOutDataAllowsHeadTo.Text != "NA")
{
heightNeeded = allowsToHeadTo - depthOfInversionMH;
tbxWetOutDataHeightNeeded.Text = heightNeeded.ToString();
}
// ... ... Available
double hoistMinimumHeight = Double.Parse(tbxWetOutDataHoistMinimumHeight.Text);
double hoistMaximunHeight = Double.Parse(tbxWetOutDataHoistMaximumHeight.Text);
tbxWetOutDataAvailable.Text = hoistMinimumHeight.ToString() + " ft to " + hoistMaximunHeight.ToString() + " ft";
// ... ... Hoist Height?
if (heightNeeded > hoistMaximunHeight)
{
tbxWetOutDataHoistHeight.Text = "Too High";
}
else
{
if (heightNeeded < hoistMinimumHeight)
{
tbxWetOutDataHoistHeight.Text = "Too Low";
}
else
{
tbxWetOutDataHoistHeight.Text = "OK";
}
}
// ... ... Warning
if ((tbxWetOutDataHoistHeight.Text == "OK") || (tbxWetOutDataHoistHeight.Text == ""))
{
lblWetOutDataWarning.Visible = false;
}
else
{
lblWetOutDataWarning.Visible = true;
}
// ... ... graphic labels
lblWetOutDataDimensionLabel.Text = confirmedSize + " ins x " + tubeThickness + " mm Tube";
lblWetOutDataTotalTubeLengthlabel.Text = "Total Tube Length " + tbxWetOutDataTotalTube.Text + " ft";
lblWetOutDataForColumnLabel.Text = tbxWetOutDataTubeForColumn.Text + " ft for Column";
lblWetOutDataDryFtLabel.Text = "Dry " + tbxWetOutDataTubeForStartDry.Text + " ft";
lblWetOutDataWetOutLengthlabel.Text = "Wet-Out Length " + tbxWetOutDataLengthtToWetOut.Text + " ft";
lblWetOutDataDryFtEndLabel.Text = "Dry " + tbxWetOutDataTubeForColumn.Text + " ft";
lblWetOutDataTailEndlabel.Text = "Tail End";
lblWetOutDataColumnEndlabel.Text = "Column End";
lblWetOutDataRollerGapLabel.Text = "Roller Gap " + tbxWetOutDataRollerGap.Text + " mm";
// ... ... Inversion Liner Size
tbxInversionDataLinerSize.Text = confirmedSize + " ins x " + tubeThickness + " mm";
// ... ... Inversion Gray texts
lblInversionDataSubtitle.Text = "For: " + ddlWetOutDataLinerTube.SelectedValue;
lblInversionDataLinerInfoGrey.Text = linerTube + " tube with " + resinMake + " " + resinType + " " + resinNumber + " resin";
lblInversionDataHeadsGrey.Text = "Heads Ideal: " + tbxWetOutDataTubeIdealHead.Text + " ft (" + tbxWetOutDataTubeIdealHeadPSI.Text + "); Max Hot: " + tbxWetOutDataTubeMaxHotHead.Text + " ft (" + tbxWetOutDataTubeMaxHotHeadPSI.Text + "psi); Max Cold: " + tbxWetOutDataTubeMaxColdHead.Text + " ft (" + tbxWetOutDataTubeMaxColdHeadPSI.Text + ")";
// ... ... .... Validate data for calcs
if ((ddlInversionDataInversionPipeType.SelectedValue != "(Select)") && (ddlInversionDataPipeCondition.SelectedValue != "(Select)") && (ddlInversionDataGroundMoisture.SelectedValue != "(Select)") && (tbxInversionDataBoilerSize.Text != "") && (tbxInversionDataPumpsTotalCapacity.Text != "") && (tbxInversionDataLayflatSize.Text != "") && (tbxInversionDataLayflatQuantityTotal.Text != ""))
{
if ((tbxInversionDataWaterStartTempTs.Text != "") && (tbxInversionDataTempT1.Text != "") && (tbxInversionDataHoldAtT1For.Text != "") && (tbxInversionDataTempT2.Text != "") && (tbxInversionDataCookAtT2For.Text != "") && (tbxInversionDataCoolDownFor.Text != "") && (tbxInversionDataCoolToTemp.Text != "") && (tbxInversionDataDropInPipeRun.Text != ""))
{
// ... ... Inversion Pipe Slope Of
Decimal dropInPipeRun = Decimal.Parse(tbxInversionDataDropInPipeRun.Text);
Decimal pipeSlopeOf = Decimal.Round(dropInPipeRun, 1) / Decimal.Parse(lengthToLine.ToString())*100;
tbxInversionDataPipeSlopeOf.Text = Decimal.Round(decimal.Parse(pipeSlopeOf.ToString()), 2).ToString();
// ... ... Inversion 45F120F
double odsIns = confirmedSize;
double tIns = (tubeThickness / 25.4);
double inversionId = (odsIns - 2 * tIns);
lblInversionData45F120F.Text = tbxInversionDataWaterStartTempTs.Text + "°F-" + tbxInversionDataTempT1.Text + "°F (hr)";
// ... ... Inversion Hold
tbxInversionDataHold.Text = Decimal.Round(decimal.Parse(tbxInversionDataHoldAtT1For.Text), 1).ToString();
// ... ... Inversion 120F185F
lblInversionData120F185F.Text = tbxInversionDataTempT1.Text + "°F-" + tbxInversionDataTempT2.Text + "°F (hr)";
double pipeTypeFactor = 0d;
string pipeType = ddlInversionDataInversionPipeType.SelectedValue;
if (pipeType == "Clay") pipeTypeFactor = 0.90;
if (pipeType == "Concrete") pipeTypeFactor = 0.80;
if (pipeType == "Brick") pipeTypeFactor = 1.00;
double pipeConditionFactor = 0d;
string pipeCondition = ddlInversionDataPipeCondition.SelectedValue;
if (pipeCondition == "Good") pipeConditionFactor = 1.00;
if (pipeCondition == "Fair") pipeConditionFactor = 0.90;
if (pipeCondition == "Poor") pipeConditionFactor = 0.80;
if (pipeCondition == "Badly Broken") pipeConditionFactor = 0.60;
double groundMoistureFactor = 0d;
string groundMoisture = ddlInversionDataGroundMoisture.SelectedValue;
if (groundMoisture == "Dry") groundMoistureFactor = 1.00;
if (groundMoisture == "Typical") groundMoistureFactor = 0.80;
if (groundMoisture == "Wet") groundMoistureFactor = 0.60;
double boilerSize = double.Parse(tbxInversionDataBoilerSize.Text);
double matFactorF1 = pipeTypeFactor;
double conditionFactorF2 = pipeConditionFactor;
double groundMoistureFactorF3 = groundMoistureFactor;
double overallFactorF3 = matFactorF1 * conditionFactorF2 * groundMoistureFactorF3;
double ianCorrectionFactor = 0.85;
double tubeMaxColdHead = double.Parse(tbxWetOutDataTubeMaxColdHead.Text);
double totalTubee = tubeMaxColdHead + lengthToLine;
double idForLinerFt = inversionId / 12;
double particalCalc = Math.Pow(idForLinerFt, 2);
double areaFt2 = (pi * particalCalc) / 4;
double ft3PerFt = areaFt2 * 1;
double usgPerFt = 7.481 * ft3PerFt;
double totalUsg = totalTubee * usgPerFt;
double cubFt = totalUsg / 7.481;
double punds = cubFt * 62.4;
double temp1 = double.Parse(tbxInversionDataTempT1.Text);
double temp2 = double.Parse(tbxInversionDataTempT2.Text);
double ts = double.Parse(tbxInversionDataWaterStartTempTs.Text);
double t1t2Btus = ((temp2 - temp1) * punds);
double netBtu = (ianCorrectionFactor * overallFactorF3 * boilerSize);
double timeHrs = (t1t2Btus / netBtu);
tbxInversionData120F185F.Text = Decimal.Round(decimal.Parse(timeHrs.ToString()), 1).ToString();
double tsT1Btus = (temp1 - ts) * punds;
double timeHrs1 = tsT1Btus / netBtu;
tbxInversionData45F120F.Text = Decimal.Round(decimal.Parse(timeHrs1.ToString()), 1).ToString();
// ... ... Inversion Cook Time
tbxInversionDataCookTime.Text = Decimal.Round(decimal.Parse(tbxInversionDataCookAtT2For.Text), 1).ToString(); ;
// ... ... Inversion Cool Time
tbxInversionDataCoolTime.Text = Decimal.Round(decimal.Parse(tbxInversionDataCoolDownFor.Text), 1).ToString();
// ... ... Inversion Aprox Total
double f45f120 = timeHrs1;
double hold = Double.Parse(tbxInversionDataHold.Text);
double f120f185 = timeHrs;
double cookTime = Double.Parse(tbxInversionDataCookTime.Text);
double coolTime = Double.Parse(tbxInversionDataCoolTime.Text);
tbxInversionDataAproxTotal.Text = Decimal.Round(decimal.Parse((f45f120 + hold + f120f185 + cookTime + coolTime).ToString()), 1).ToString();
// ... ... Inversion pumping circulation subtitle
double pumpsTotalCapacity = double.Parse(tbxInversionDataPumpsTotalCapacity.Text);
lblInversionDataPumpingCirculationSubtitle.Text = "Pumping and Circulation Parameters at " + tbxInversionDataPumpsTotalCapacity.Text + "usgpm (= " + (pumpsTotalCapacity * 60).ToString() + " usgph)";
// ... ... Inversion water changes per hour
double totalLinerInWaterCol = totalUsg;
double pumpsTotalCapacity60 = pumpsTotalCapacity * 60;
double changesPerHour = pumpsTotalCapacity60 / totalLinerInWaterCol;
decimal waterChangesPerHour = Decimal.Round(decimal.Parse(changesPerHour.ToString()), 2);
tbxInversionDataWaterChangesPerHour.Text = Decimal.Round(decimal.Parse(waterChangesPerHour.ToString()), 2).ToString();
// ... ... Inversion return water velocity
double layFlatQuantity = double.Parse(tbxInversionDataLayflatQuantityTotal.Text);
double layFlatSize = double.Parse(tbxInversionDataLayflatSize.Text);
double middleCalcEach = Math.Pow(layFlatSize, 2);
double areaLayFlatft2Each = ((pi * (middleCalcEach)) / 4) / 144;
double areaLayflatft2 = areaLayFlatft2Each * layFlatQuantity;
double qInCfs = pumpsTotalCapacity / 448.8;
double netQAreaFt2 = areaFt2 - areaLayflatft2;
double returnFlowArea = netQAreaFt2;
double returnsWaterVelocity = qInCfs / returnFlowArea;
tbxInversionDataReturnWaterVelocity.Text = Decimal.Round(decimal.Parse(returnsWaterVelocity.ToString()), 2).ToString();
// ... ... Inversion layflat back pressure
double c = 130;
double dFt = layFlatSize / 12;
double flowPerLayFlat = pumpsTotalCapacity / layFlatQuantity;
double qCfm = flowPerLayFlat * 0.1336;
double qCfs = qCfm / 60;
double middleCalcAreaIns2 = Math.Pow(layFlatSize, 2);
double areaIns2 = (pi * middleCalcAreaIns2) / 4;
double areaft2 = areaIns2 / 144;
double vFtS = qCfs / areaft2;
double wetOutLenght = double.Parse(tbxInversionDataWetOutLenght.Text);
double totalLfLength = tubeMaxColdHead + wetOutLenght;
double hfFtL = (Math.Pow((1.816 / c), 1.852) * ((totalLfLength / (Math.Pow(dFt, 1.167))) * Math.Pow(vFtS, 1.852)));
double hfPsiL = hfFtL * 0.4335;
double layFlatBackPressure = hfPsiL;
tbxInversionDataLayflatBackPressure.Text = Decimal.Round(decimal.Parse(layFlatBackPressure.ToString()), 1).ToString();
// ... ... Inversion pump lift at ideal head
double pumpHeightAboveGround = double.Parse(tbxWetOutDataPumpHeightAboveGround.Text);
double pumpFromInvert = pumpHeightAboveGround + depthOfInversionMH;
double lift = pumpFromInvert - idealHead;
double pumpLiftAtIdealHead = lift;
tbxInversionDataPumpLiftAtIdealHead.Text = Decimal.Round(decimal.Parse(pumpLiftAtIdealHead.ToString()), 1).ToString();
// ... ... Inversion water to fil liner column
double waterToFillLinerColumn = totalUsg;
tbxInversionDataWaterToFillLinerColumn.Text = Decimal.Round(decimal.Parse(waterToFillLinerColumn.ToString()), 0).ToString();
// ... ... Inversion water per ft
double waterPerFt = usgPerFt;
tbxInversionDataWaterPerFit.Text = Decimal.Round(decimal.Parse(waterPerFt.ToString()), 2).ToString();
// ... ... graphic labels
lblInversionDataMaxColdForTubeLabel.Text = tbxWetOutDataTubeMaxColdHead.Text + " ft = Max Cold for tube";
lblInversionDataMaxHotForTubeLabel.Text = tbxWetOutDataTubeMaxHotHead.Text + " ft = Max Hot for tube";
lblInversionDataIdelForTubeLabel.Text = tbxWetOutDataTubeIdealHead.Text + " ft = Ideal for tube";
double maxColdForTubeEnd = double.Parse(tbxWetOutDataTubeMaxColdHead.Text) + double.Parse(tbxInversionDataDropInPipeRun.Text);
lblInversionDataMaxColdForTubeEndLabel.Text = decimal.Round(decimal.Parse(maxColdForTubeEnd.ToString()), 1).ToString() + " ft";
double maxHotForTubeEnd = double.Parse(tbxWetOutDataTubeMaxHotHead.Text) + double.Parse(tbxInversionDataDropInPipeRun.Text);
lblInversionDataMaxHotForTubeEndLabel.Text = decimal.Round(decimal.Parse(maxHotForTubeEnd.ToString()), 1).ToString() + " ft";
double idealForTubeEnd = double.Parse(tbxWetOutDataTubeIdealHead.Text) + double.Parse(tbxInversionDataDropInPipeRun.Text);
lblInversionDataIdelForTubeEndLabel.Text = decimal.Round(decimal.Parse(idealForTubeEnd.ToString()), 1).ToString() + " ft";
lblInversionDataPumpHeightLabel.Text = " " + tbxWetOutDataPumpHeightAboveGround.Text + " ft";
lblInversionDataLinerSizeLabel.Text = confirmedSize.ToString() + " ins x" + tubeThickness.ToString() + " Liner";
lblInversionDataRunLengthLabel.Text = "Run Length: " + tbxInversionDataRunLength.Text + " ft; Fall: " + tbxInversionDataDropInPipeRun.Text + " ft";
lblInversionDataDepthOfInversionMHLabel.Text = " " + tbxWetOutDataDepthOfInversionMH.Text + " ft";
lblInversionDataEndLabel.Text = "End";
}
}
}
}
}
protected void tbxPercentageByWeightEdit_TextChanged(object sender, EventArgs e)
{
int companyId = Int32.Parse(hdfCompanyId.Value);
int catalystId = Int32.Parse(((Label)grdCatalysts.Rows[grdCatalysts.EditIndex].Cells[2].FindControl("lblCatalystIdEdit")).Text);
double percentageByWeight = Double.Parse(((TextBox)grdCatalysts.Rows[grdCatalysts.EditIndex].Cells[3].FindControl("tbxPercentageByWeightEdit")).Text);
if (catalystId != -1)
{
// .. Resin Information
if ((ddlWetOutDataResins.SelectedValue != "-1") && (ddlWetOutDataPoundsDrums.SelectedValue != "(Select)"))
{
int resinId = Int32.Parse(ddlWetOutDataResins.SelectedValue);
WorkFullLengthLiningResinsGateway workFullLengthLiningResinsGateway = new WorkFullLengthLiningResinsGateway();
workFullLengthLiningResinsGateway.LoadByResinId(resinId, companyId);
int lbDrums = Int32.Parse(workFullLengthLiningResinsGateway.GetLbDrums(resinId).ToString());
double activeResin = double.Parse(workFullLengthLiningResinsGateway.GetActiveResin(resinId).ToString()) / 100;
string applyCatalystTo = workFullLengthLiningResinsGateway.GetApplyCatalystTo(resinId);
// Calc the other columms
// ... ... For Mix Quantity
string forMixQuantity = "";
if (percentageByWeight.ToString() == "-1")
{
forMixQuantity = "-";
}
else
{
double totalMixQuantity = double.Parse(tbxWetOutDataTotalMixQuantity.Text);
double catalyse = 0d;
if (applyCatalystTo == "(Select)")
{
catalyse = -1;
}
else
{
if (applyCatalystTo == "Active Resin & Filter")
{
catalyse = 1;
}
else
{
catalyse = activeResin;
}
}
if (catalyse != -1)
{
double pureResin = totalMixQuantity * catalyse;
forMixQuantity = (pureResin * totalMixQuantity / 100).ToString();
((Label)grdCatalysts.Rows[grdCatalysts.EditIndex].Cells[4].FindControl("lblLbsForMixQuantityEdit")).Text = forMixQuantity; ;
}
else
{
((Label)grdCatalysts.Rows[grdCatalysts.EditIndex].Cells[4].FindControl("lblLbsForMixQuantityEdit")).Text = "ERROR";
}
}
// ... ... For Lbs For Drums
string firstPart = "";
double percentageToCatalyse = -1;
if (ddlWetOutDataPoundsDrums.SelectedValue == "Pounds & Drums") // OP 1
{
if (percentageByWeight == -1)
{
firstPart = "-";
}
else
{
if (applyCatalystTo == "(Select)")
{
percentageToCatalyse = -1;
}
else
{
if (applyCatalystTo == "Active Resin & Filter")
{
percentageToCatalyse = 1;
}
else
{
percentageToCatalyse = activeResin;
}
}
if (percentageToCatalyse != -1)
{
double drumRes = lbDrums * percentageToCatalyse;
double catalystPerDrum = drumRes * percentageByWeight / 100;
firstPart = catalystPerDrum.ToString();
}
else
{
firstPart = "ERROR";
}
}
}
else
{
firstPart = "-";
}
string secondPart = "";
if (ddlWetOutDataPoundsDrums.SelectedValue == "Pounds & Drums") // OP 1
{
if (percentageByWeight == -1)
{
secondPart = "-";
}
else
{
double drumRes = lbDrums * percentageToCatalyse;
double catalystPerDrum = drumRes * percentageByWeight / 100;
double roundUp = RoundUp(catalystPerDrum, 0);
string upDown = "";
if ((roundUp - catalystPerDrum) > 0.05)
{
upDown = "Down";
}
else
{
upDown = "Up";
}
double fulllbs = 0d;
if (upDown == "Up")
{
fulllbs = roundUp;
}
else
{
double roundDown = RoundDown(catalystPerDrum, 0);
fulllbs = roundDown;
}
double partLbs = 0d;
if (upDown == "Up")
{
partLbs = 0;
}
else
{
partLbs = catalystPerDrum - fulllbs;
}
double ozes = double.Parse(decimal.Round(decimal.Parse(partLbs.ToString()) * 16, 0).ToString());
string lbOzes = " = (" + fulllbs.ToString() + " lbs + " + ozes.ToString() + " oz) per drum";
secondPart = lbOzes;
}
}
else
{
secondPart = "-";
}
((Label)grdCatalysts.Rows[grdCatalysts.EditIndex].Cells[4].FindControl("lblLbsForDrumEdit")).Text = firstPart + "lb/Drum " + secondPart;
}
}
}
protected void ddlNameFooter_SelectedIndexChanged(object sender, EventArgs e)
{
int companyId = Int32.Parse(hdfCompanyId.Value);
int catalystId = Int32.Parse(((DropDownList)grdCatalysts.FooterRow.FindControl("ddlNameFooter")).SelectedValue);
if (catalystId != -1)
{
// Load catalyst data
WorkFullLengthLiningCatalystsGateway workFullLengthLiningCatalystsGateway = new WorkFullLengthLiningCatalystsGateway();
workFullLengthLiningCatalystsGateway.LoadByCatalystId(catalystId, companyId);
double defaultPercentageByWeight = double.Parse(decimal.Round(decimal.Parse(workFullLengthLiningCatalystsGateway.GetDefaultPercentageByWeight(catalystId).ToString()), 2).ToString());
// .. Resin Information
if ((ddlWetOutDataResins.SelectedValue != "-1") && (ddlWetOutDataPoundsDrums.SelectedValue != "(Select)") && (tbxWetOutDataTotalMixQuantity.Text != ""))
{
int resinId = Int32.Parse(ddlWetOutDataResins.SelectedValue);
WorkFullLengthLiningResinsGateway workFullLengthLiningResinsGateway = new WorkFullLengthLiningResinsGateway();
workFullLengthLiningResinsGateway.LoadByResinId(resinId, companyId);
int lbDrums = Int32.Parse(workFullLengthLiningResinsGateway.GetLbDrums(resinId).ToString());
double activeResin = double.Parse(workFullLengthLiningResinsGateway.GetActiveResin(resinId).ToString()) / 100;
string applyCatalystTo = workFullLengthLiningResinsGateway.GetApplyCatalystTo(resinId);
// Set data to grid
((TextBox)grdCatalysts.FooterRow.FindControl("tbxPercentageByWeightFooter")).Text = defaultPercentageByWeight.ToString();
// Calc the other columms
// ... ... For Mix Quantity
string forMixQuantity = "";
if (defaultPercentageByWeight.ToString() == "-1")
{
forMixQuantity = "-";
}
else
{
double totalMixQuantity = double.Parse(tbxWetOutDataTotalMixQuantity.Text);
double catalyse = 0d;
if (applyCatalystTo == "(Select)")
{
catalyse = -1;
}
else
{
if (applyCatalystTo == "Active Resin & Filter")
{
catalyse = 1;
}
else
{
catalyse = activeResin;
}
}
if (catalyse != -1)
{
double pureResin = totalMixQuantity * catalyse;
decimal forMixQuantityDecimal = decimal.Parse((pureResin * (defaultPercentageByWeight) / 100).ToString());
forMixQuantity = decimal.Round(forMixQuantityDecimal,2).ToString();
((Label)grdCatalysts.FooterRow.FindControl("lblLbsForMixQuantityFooter")).Text = forMixQuantity;
}
else
{
((Label)grdCatalysts.FooterRow.FindControl("lblLbsForMixQuantityFooter")).Text = "ERROR";
}
}
// ... ... For Lbs For Drums
string firstPart = "";
double percentageToCatalyse = -1;
if (ddlWetOutDataPoundsDrums.SelectedValue == "Pounds & Drums") // OP 1
{
if (defaultPercentageByWeight == -1)
{
firstPart = "-";
}
else
{
if (applyCatalystTo == "(Select)")
{
percentageToCatalyse = -1;
}
else
{
if (applyCatalystTo == "Active Resin & Filter")
{
percentageToCatalyse = 1;
}
else
{
percentageToCatalyse = activeResin;
}
}
if (percentageToCatalyse != -1)
{
double drumRes = lbDrums * percentageToCatalyse;
double catalystPerDrum = drumRes * defaultPercentageByWeight / 100;
decimal catalystPerDrumDecimal = Decimal.Parse(catalystPerDrum.ToString());
catalystPerDrumDecimal = decimal.Round(catalystPerDrumDecimal,2);
firstPart = catalystPerDrumDecimal.ToString();
}
else
{
firstPart = "ERROR";
}
}
}
else
{
firstPart = "-";
}
string secondPart = "";
if (ddlWetOutDataPoundsDrums.SelectedValue == "Pounds & Drums") // OP 1
{
if (defaultPercentageByWeight == -1)
{
secondPart = "-";
}
else
{
double drumRes = lbDrums * percentageToCatalyse;
double catalystPerDrum = drumRes * defaultPercentageByWeight / 100;
double roundUp = RoundUp(catalystPerDrum, 0);
string upDown = "";
if ((roundUp - catalystPerDrum) > 0.05)
{
upDown = "Down";
}
else
{
upDown = "Up";
}
double fulllbs = 0d;
if (upDown == "Up")
{
fulllbs = roundUp;
}
else
{
double roundDown = RoundDown(catalystPerDrum, 0);
fulllbs = roundDown;
}
double partLbs = 0d;
if (upDown == "Up")
{
partLbs = 0;
}
else
{
partLbs = catalystPerDrum - fulllbs;
}
double ozes = double.Parse(decimal.Round(decimal.Parse(partLbs.ToString()) * 16, 0).ToString());
string lbOzes = " = (" + fulllbs.ToString() + " lbs + " + ozes.ToString() + " oz) per drum";
secondPart = lbOzes;
}
}
else
{
secondPart = "-";
}
((Label)grdCatalysts.FooterRow.FindControl("lblLbsForDrumFooter")).Text = firstPart + "lb/Drum " + secondPart;
// Addition is available
((ImageButton)grdCatalysts.FooterRow.FindControl("ibtnAdd")).Visible = true;
}
else
{
// Addition is not available
((ImageButton)grdCatalysts.FooterRow.FindControl("ibtnAdd")).Visible = false;
}
}
}
