Fixed errors to get KER running in 1.0 and editor now shows correct atmosphere adjusted thrust.
Fixed errors to get KER running in 1.0 and editor now shows correct atmosphere adjusted thrust.

--- a/Documents/CHANGES.txt
+++ b/Documents/CHANGES.txt
@@ -1,4 +1,21 @@
-1.0.14.0,
+1.0.15.2, 13-02-2015
+    Padishar's Fixes:
+        Fixed: Calculation of per-stage resource mass.
+
+1.0.15.1, 13-02-2015
+    Rebuild
+    
+1.0.15.0, 08-02-2015
+    Padishar's Fixes:
+        Added: Support KIDS ISP thrust correction.
+        Fixed: Log spam for stage priority mode.
+        Fixed: Locked tanks preventing simulation from staging.
+        Fixed: No flow and all vessel modes to respect flow states.
+
+1.0.14.1, 28-12-2014
+    Fixed: Missing texture on the ER-7500 model.
+    
+1.0.14.0, 28-12-2014
     Added: Career mode that limits the Flight Engineer by:
         - Requiring an Engineer Kerbal of any level, or placement of an Engineer Chip or ER-7500 part.
         - Tracking station level 3 enables Flight Engineer everywhere.
@@ -13,6 +30,7 @@
     Changed: Editor Overlay Tabs start position moved over as to not overlap the parts menu.
     Fixed: Bug where STAGE_PRIORITY_FLOW resources would not be corrently disabled/enabled.
     Fixed: Issue with the formatting large Mass and Cost values.
+    Fixed: Error when loading the Engineer7500 part model.
 
 1.0.13.1, 16-12-2014
     Fixed: Issue with manoeuvre node readouts and low tier tracking station.

--- a/KerbalEngineer/CelestialBodies.cs
+++ b/KerbalEngineer/CelestialBodies.cs
@@ -124,7 +124,7 @@
                     this.CelestialBody = body;
                     this.Name = body.bodyName;
                     this.Gravity = 9.81 * body.GeeASL;
-                    this.Atmosphere = body.atmosphere ? 101.325 * body.atmosphereMultiplier : 0;
+                    this.Atmosphere = body.atmosphere ? body.atmospherePressureSeaLevel : 0;
                     this.Parent = parent;
 
                     // Set orbiting bodies information.

--- a/KerbalEngineer/Editor/BuildAdvanced.cs
+++ b/KerbalEngineer/Editor/BuildAdvanced.cs
@@ -133,6 +133,7 @@
                 this.bodiesList.DrawCallback = this.DrawBodiesList;
                 this.Load();
 
+                SimManager.UpdateModSettings();
                 SimManager.OnReady -= this.GetStageInfo;
                 SimManager.OnReady += this.GetStageInfo;
             }

--- a/KerbalEngineer/Editor/BuildOverlayVessel.cs
+++ b/KerbalEngineer/Editor/BuildOverlayVessel.cs
@@ -58,7 +58,7 @@
         #endregion
 
         #region Properties
-       
+
         public static bool Visible
         {
             get { return visible; }

--- a/KerbalEngineer/EngineerGlobals.cs
+++ b/KerbalEngineer/EngineerGlobals.cs
@@ -33,7 +33,7 @@
         /// <summary>
         ///     Current version of the Kerbal Engineer assembly.
         /// </summary>
-        public const string AssemblyVersion = "1.0.13.1";
+        public const string AssemblyVersion = "1.0.15.2";
 
         #endregion
 

--- a/KerbalEngineer/Flight/FlightEngineerCore.cs
+++ b/KerbalEngineer/Flight/FlightEngineerCore.cs
@@ -33,6 +33,7 @@
     using Sections;
     using Settings;
     using UnityEngine;
+    using VesselSimulator;
 
     #endregion
 
@@ -268,6 +269,9 @@
                 this.SectionWindows = new List<SectionWindow>();
                 this.SectionEditors = new List<SectionEditor>();
                 this.UpdatableModules = new List<IUpdatable>();
+
+                SimManager.UpdateModSettings();
+
                 Logger.Log("FlightEngineerCore->Awake");
             }
             catch (Exception ex)

--- a/KerbalEngineer/Flight/Readouts/Surface/AtmosphericProcessor.cs
+++ b/KerbalEngineer/Flight/Readouts/Surface/AtmosphericProcessor.cs
@@ -126,9 +126,9 @@
                     var drag = FlightGlobals.ActiveVessel.parts.Sum(p => p.GetWetMass() * p.maximum_drag);
                     var grav = FlightGlobals.getGeeForceAtPosition(FlightGlobals.ship_position).magnitude;
                     var atmo = FlightGlobals.ActiveVessel.atmDensity;
-                    var coef = FlightGlobals.DragMultiplier;
+                    //var coef = FlightGlobals.ActiveVessel.DragMultiplier;
 
-                    TerminalVelocity = Math.Sqrt((2 * mass * grav) / (atmo * drag * coef));
+                    //TerminalVelocity = Math.Sqrt((2 * mass * grav) / (atmo * drag * coef));
                 }
 
                 Efficiency = FlightGlobals.ship_srfSpeed / TerminalVelocity;

--- a/KerbalEngineer/Helpers/Units.cs
+++ b/KerbalEngineer/Helpers/Units.cs
@@ -20,7 +20,6 @@
 namespace KerbalEngineer.Helpers
 {
     #region Using Directives
-
     using System;
 
     #endregion
@@ -28,6 +27,7 @@
     public static class Units
     {
         #region Methods
+        public const double GRAVITY = 9.80665;
 
         public static string Concat(int value1, int value2)
         {
@@ -65,9 +65,9 @@
 
         public static string Cost(double value1, double value2, int decimals = 1)
         {
-            if (value1 >= 1e6 || value2 >= 1e6)
+            if (value1 >= 1000000.0 || value2 >= 1000000.0)
             {
-                return (value1 / 1000.0).ToString("N" + decimals) + " / " + (value2 / 1000.0f).ToString("N" + decimals) + "K";
+                return (value1 / 1000.0).ToString("N" + decimals) + " / " + (value2 / 1000.0).ToString("N" + decimals) + "K";
             }
             return value1.ToString("N" + decimals) + " / " + value2.ToString("N" + decimals);
         }
@@ -123,8 +123,8 @@
 
         public static string ToForce(double value1, double value2)
         {
-            var format1 = (value1 < 100000.0) ? (value1 < 10000.0) ? (value1 < 100.0) ? (Math.Abs(value1) < Double.Epsilon) ? "N0" : "N3" : "N2" : "N1" : "N0";
-            var format2 = (value2 < 100000.0) ? (value2 < 10000.0) ? (value2 < 100.0) ? (Math.Abs(value2) < Double.Epsilon) ? "N0" : "N3" : "N2" : "N1" : "N0";
+            string format1 = (value1 < 100000.0) ? (value1 < 10000.0) ? (value1 < 100.0) ? (Math.Abs(value1) < Double.Epsilon) ? "N0" : "N3" : "N2" : "N1" : "N0";
+            string format2 = (value2 < 100000.0) ? (value2 < 10000.0) ? (value2 < 100.0) ? (Math.Abs(value2) < Double.Epsilon) ? "N0" : "N3" : "N2" : "N1" : "N0";
             return value1.ToString(format1) + " / " + value2.ToString(format2) + "kN";
         }
 
@@ -135,9 +135,8 @@
                 return value.ToString("N" + decimals + 2) + "t";
             }
 
-                value *= 1000.0;
-                return value.ToString("N" + decimals) + "kg";
-
+            value *= 1000.0;
+            return value.ToString("N" + decimals) + "kg";
         }
 
         public static string ToMass(double value1, double value2, int decimals = 0)
@@ -146,11 +145,10 @@
             {
                 return value1.ToString("N" + decimals + 2) + " / " + value2.ToString("N" + decimals + 2) + "t";
             }
-   
-                value1 *= 1000.0;
-                value2 *= 1000.0;
-                return value1.ToString("N" + decimals) + " / " + value2.ToString("N" + decimals) + "kg";
-  
+
+            value1 *= 1000.0;
+            value2 *= 1000.0;
+            return value1.ToString("N" + decimals) + " / " + value2.ToString("N" + decimals) + "kg";
         }
 
         public static string ToPercent(double value, int decimals = 2)
@@ -182,7 +180,6 @@
         {
             return value.ToString((value < 100.0) ? (Math.Abs(value) < Double.Epsilon) ? "N0" : "N1" : "N0") + "kNm";
         }
-
         #endregion
     }
 }

--- a/KerbalEngineer/VesselSimulator/EngineSim.cs
+++ b/KerbalEngineer/VesselSimulator/EngineSim.cs
@@ -30,6 +30,8 @@
 
 namespace KerbalEngineer.VesselSimulator
 {
+    using Helpers;
+
     public class EngineSim
     {
         private readonly ResourceContainer resourceConsumptions = new ResourceContainer();
@@ -41,6 +43,21 @@
         public List<AppliedForce> appliedForces;
 
         public double thrust = 0;
+
+        public static double GetAdjustedEngineThrust(float minFuelFlow, float maxFuelFlow, double isp, float throttle)
+        {
+            return Mathf.Lerp(minFuelFlow, maxFuelFlow, throttle) * GetExhaustVelocity(isp);
+        }
+
+        public static double GetEngineThrust(float fuelFlow, double isp)
+        {
+            return fuelFlow * GetExhaustVelocity(isp);
+        }
+
+        public static double GetExhaustVelocity(double isp)
+        {
+            return isp * Units.GRAVITY;
+        }
 
         // Add thrust vector to account for directional losses
         public Vector3 thrustVec;
@@ -60,7 +77,7 @@
                          List<Propellant> propellants,
                          bool active,
                          bool correctThrust,
-                         List<Transform> thrustTransforms)
+                         List<Transform> thrustTransforms, float minFuelFlow, float maxFuelFlow)
         {
             StringBuilder buffer = null;
             //MonoBehaviour.print("Create EngineSim for " + theEngine.name);
@@ -73,7 +90,7 @@
             this.partSim = theEngine;
 
             this.isActive = active;
-            this.thrust = (maxThrust - minThrust) * (thrustPercentage / 100f) + minThrust;
+            //this.thrust = (maxThrust - minThrust) * (thrustPercentage / 100f) + minThrust;
             //MonoBehaviour.print("thrust = " + thrust);
 
             this.thrustVec = vecThrust;
@@ -81,51 +98,31 @@
             double flowRate = 0d;
             if (this.partSim.hasVessel)
             {
-                //MonoBehaviour.print("hasVessel is true");
-                this.actualThrust = isActive ? requestedThrust : 0.0;
+                this.isp = atmosphereCurve.Evaluate((float)this.partSim.part.staticPressureAtm);
+                if (this.isp == 0.0)
+                {
+                    MonoBehaviour.print("Isp at " + this.partSim.part.staticPressureAtm + " is zero. Flow rate will be NaN");
+                }
+
+                this.actualThrust = isActive ? GetAdjustedEngineThrust(minFuelFlow, maxFuelFlow, isp, thrustPercentage) : 0.0;
+                this.thrust = GetEngineThrust(maxThrust, isp);
                 if (velocityCurve != null)
                 {
                     this.actualThrust *= velocityCurve.Evaluate((float)velocity);
-                    //MonoBehaviour.print("actualThrust at velocity = " + actualThrust);
-                }
-
-                this.isp = atmosphereCurve.Evaluate((float)this.partSim.part.staticPressureAtm);
-                if (this.isp == 0d)
-                {
-                    MonoBehaviour.print("Isp at " + this.partSim.part.staticPressureAtm + " is zero. Flow rate will be NaN");
-                }
-
-                if (correctThrust && realIsp == 0)
-                {
-                    float ispsl = atmosphereCurve.Evaluate(0);
-                    if (ispsl != 0)
-                    {
-                        this.thrust = this.thrust * this.isp / ispsl;
-                    }
-                    else
-                    {
-                        MonoBehaviour.print("Isp at sea level is zero. Unable to correct thrust.");
-                    }
-                    //MonoBehaviour.print("corrected thrust = " + thrust);
-                }
-
-                if (velocityCurve != null)
-                {
                     this.thrust *= velocityCurve.Evaluate((float)velocity);
-                    //MonoBehaviour.print("thrust at velocity = " + thrust);
                 }
 
                 if (throttleLocked)
                 {
                     //MonoBehaviour.print("throttleLocked is true");
-                    flowRate = this.thrust / (this.isp * 9.82);
+                    flowRate = this.thrust / GetExhaustVelocity(isp);
                 }
                 else
                 {
                     if (this.partSim.isLanded)
                     {
                         //MonoBehaviour.print("partSim.isLanded is true, mainThrottle = " + FlightInputHandler.state.mainThrottle);
-                        flowRate = Math.Max(0.000001d, this.thrust * FlightInputHandler.state.mainThrottle) / (this.isp * 9.82);
+                        flowRate = Math.Max(0.000001d, this.thrust * FlightInputHandler.state.mainThrottle) / GetExhaustVelocity(isp);
                     }
                     else
                     {
@@ -138,45 +135,32 @@
                             }
 
                             //MonoBehaviour.print("requestedThrust > 0");
-                            flowRate = requestedThrust / (this.isp * 9.82);
+                            flowRate = requestedThrust / GetExhaustVelocity(isp);
                         }
                         else
                         {
                             //MonoBehaviour.print("requestedThrust <= 0");
-                            flowRate = this.thrust / (this.isp * 9.82);
+                            flowRate = this.thrust / GetExhaustVelocity(isp);
                         }
                     }
                 }
             }
             else
             {
-                //MonoBehaviour.print("hasVessel is false");
                 this.isp = atmosphereCurve.Evaluate((float)atmosphere);
                 if (this.isp == 0d)
                 {
                     MonoBehaviour.print("Isp at " + atmosphere + " is zero. Flow rate will be NaN");
                 }
-                if (correctThrust)
-                {
-                    float ispsl = atmosphereCurve.Evaluate(0);
-                    if (ispsl != 0)
-                    {
-                        this.thrust = this.thrust * this.isp / ispsl;
-                    }
-                    else
-                    {
-                        MonoBehaviour.print("Isp at sea level is zero. Unable to correct thrust.");
-                    }
-                    //MonoBehaviour.print("corrected thrust = " + thrust);
-                }
+
+                this.thrust = GetAdjustedEngineThrust(minFuelFlow, maxFuelFlow, isp, thrustPercentage);
 
                 if (velocityCurve != null)
                 {
                     this.thrust *= velocityCurve.Evaluate((float)velocity);
-                    //MonoBehaviour.print("thrust at velocity = " + thrust);
-                }
-
-                flowRate = this.thrust / (this.isp * 9.82);
+                }
+
+                flowRate = this.thrust / GetExhaustVelocity(isp);
             }
 
             if (SimManager.logOutput)
@@ -243,7 +227,7 @@
                 switch (ResourceContainer.GetResourceFlowMode(type))
                 {
                     case ResourceFlowMode.NO_FLOW:
-                        if (this.partSim.resources[type] > SimManager.RESOURCE_MIN)
+                        if (this.partSim.resources[type] > SimManager.RESOURCE_MIN && this.partSim.resourceFlowStates[type] != 0)
                         {
                             sourcePartSet = new HashSet<PartSim>();
                             //MonoBehaviour.print("SetResourceDrains(" + name + ":" + partId + ") setting sources to just this");
@@ -254,7 +238,7 @@
                     case ResourceFlowMode.ALL_VESSEL:
                         foreach (PartSim aPartSim in allParts)
                         {
-                            if (aPartSim.resources[type] > SimManager.RESOURCE_MIN)
+                            if (aPartSim.resources[type] > SimManager.RESOURCE_MIN && aPartSim.resourceFlowStates[type] != 0)
                             {
                                 if (sourcePartSet == null)
                                 {
@@ -270,7 +254,7 @@
                         var stagePartSets = new Dictionary<int, HashSet<PartSim>>();
                         var maxStage = -1;
 
-                        Logger.Log(type);
+                        //Logger.Log(type);
                         foreach (var aPartSim in allParts)
                         {
                             if (aPartSim.resources[type] <= SimManager.RESOURCE_MIN || aPartSim.resourceFlowStates[type] == 0) continue;

--- a/KerbalEngineer/VesselSimulator/PartSim.cs
+++ b/KerbalEngineer/VesselSimulator/PartSim.cs
@@ -202,7 +202,7 @@
                                                             engine.maxThrust,
                                                             engine.minThrust,
                                                             engine.thrustPercentage,
-                                                            engine.requestedThrust,
+                                                            engine.resultingThrust,
                                                             thrustvec,
                                                             engine.realIsp,
                                                             engine.atmosphereCurve,
@@ -211,7 +211,7 @@
                                                             engine.propellants,
                                                             engine.isOperational,
                                                             correctThrust,
-                                                            engine.thrustTransforms);
+                                                            engine.thrustTransforms, engine.minFuelFlow, engine.maxFuelFlow);
                         allEngines.Add(engineSim);
                     }
                 }
@@ -235,7 +235,7 @@
                                                             engine.maxThrust,
                                                             engine.minThrust,
                                                             engine.thrustPercentage,
-                                                            engine.requestedThrust,
+                                                            engine.resultingThrust,
                                                             thrustvec,
                                                             engine.realIsp,
                                                             engine.atmosphereCurve,
@@ -244,7 +244,7 @@
                                                             engine.propellants,
                                                             engine.isOperational,
                                                             correctThrust,
-                                                            engine.thrustTransforms);
+                                                            engine.thrustTransforms, engine.minFuelFlow, engine.maxFuelFlow);
                         allEngines.Add(engineSim);
                     }
                 }
@@ -266,7 +266,7 @@
                                                             engine.maxThrust,
                                                             engine.minThrust,
                                                             engine.thrustPercentage,
-                                                            engine.requestedThrust,
+                                                            engine.resultingThrust,
                                                             thrustvec,
                                                             engine.realIsp,
                                                             engine.atmosphereCurve,
@@ -275,7 +275,7 @@
                                                             engine.propellants,
                                                             engine.isOperational,
                                                             correctThrust,
-                                                            engine.thrustTransforms);
+                                                            engine.thrustTransforms, engine.minFuelFlow, engine.maxFuelFlow);
                         allEngines.Add(engineSim);
                     }
                 }
@@ -677,6 +677,19 @@
             return time;
         }
 
+        public bool EmptyOf(HashSet<int> types)
+        {
+            foreach (int type in types)
+            {
+                if (this.resources.HasType(type) && this.resourceFlowStates[type] != 0 && (double)this.resources[type] > SimManager.RESOURCE_MIN)
+                {
+                    return false;
+                }
+            }
+
+            return true;
+        }
+
         public int DecouplerCount()
         {
             int count = 0;

--- a/KerbalEngineer/VesselSimulator/SimManager.cs
+++ b/KerbalEngineer/VesselSimulator/SimManager.cs
@@ -46,17 +46,20 @@
         private static readonly object locker = new object();
         private static readonly Stopwatch timer = new Stopwatch();
 
-        // Support for RealFuels using reflection to check localCorrectThrust without dependency
-
-        private static FieldInfo RF_ModuleEngineConfigs_locaCorrectThrust;
-        private static FieldInfo RF_ModuleHybridEngine_locaCorrectThrust;
-        private static FieldInfo RF_ModuleHybridEngines_locaCorrectThrust;
         private static bool bRequested;
         private static bool bRunning;
         private static TimeSpan delayBetweenSims;
-        private static bool hasCheckedForRealFuels;
+
+        // Support for RealFuels using reflection to check localCorrectThrust without dependency
+
+        private static bool hasCheckedForMods;
         private static bool hasInstalledRealFuels;
-
+        private static FieldInfo RF_ModuleEngineConfigs_localCorrectThrust;
+        private static FieldInfo RF_ModuleHybridEngine_localCorrectThrust;
+        private static FieldInfo RF_ModuleHybridEngines_localCorrectThrust;
+        private static bool hasInstalledKIDS;
+        private static MethodInfo KIDS_Utils_GetIspMultiplier;
+        private static bool bKIDSThrustISP = false;
         #endregion
 
         #region Delegates
@@ -89,54 +92,112 @@
 
         #region Methods
 
+        private static void CheckForMods()
+        {
+            hasCheckedForMods = true;
+
+            foreach (var assembly in AssemblyLoader.loadedAssemblies)
+            {
+                MonoBehaviour.print("Assembly:" + assembly.assembly);
+
+                var name = assembly.assembly.ToString().Split(',')[0];
+
+                if (name == "RealFuels")
+                {
+                    MonoBehaviour.print("Found RealFuels mod");
+
+                    var RF_ModuleEngineConfigs_Type = assembly.assembly.GetType("RealFuels.ModuleEngineConfigs");
+                    if (RF_ModuleEngineConfigs_Type != null)
+                    {
+                        RF_ModuleEngineConfigs_localCorrectThrust = RF_ModuleEngineConfigs_Type.GetField("localCorrectThrust");
+                    }
+
+                    var RF_ModuleHybridEngine_Type = assembly.assembly.GetType("RealFuels.ModuleHybridEngine");
+                    if (RF_ModuleHybridEngine_Type != null)
+                    {
+                        RF_ModuleHybridEngine_localCorrectThrust = RF_ModuleHybridEngine_Type.GetField("localCorrectThrust");
+                    }
+
+                    var RF_ModuleHybridEngines_Type = assembly.assembly.GetType("RealFuels.ModuleHybridEngines");
+                    if (RF_ModuleHybridEngines_Type != null)
+                    {
+                        RF_ModuleHybridEngines_localCorrectThrust = RF_ModuleHybridEngines_Type.GetField("localCorrectThrust");
+                    }
+
+                    hasInstalledRealFuels = true;
+                    break;
+                }
+                else if (name == "KerbalIspDifficultyScaler")
+                {
+                    var KIDS_Utils_Type = assembly.assembly.GetType("KerbalIspDifficultyScaler.KerbalIspDifficultyScalerUtils");
+                    if (KIDS_Utils_Type != null)
+                    {
+                        KIDS_Utils_GetIspMultiplier = KIDS_Utils_Type.GetMethod("GetIspMultiplier");
+                    }
+
+                    hasInstalledKIDS = true;
+                }
+            }
+        }
+
         public static bool DoesEngineUseCorrectedThrust(Part theEngine)
         {
-            if (!hasInstalledRealFuels /*|| HighLogic.LoadedSceneIsFlight*/)
-            {
-                return false;
-            }
-
-            // Look for any of the Real Fuels engine modules and call the relevant method to find out
-            if (RF_ModuleEngineConfigs_locaCorrectThrust != null && theEngine.Modules.Contains("ModuleEngineConfigs"))
-            {
-                var modEngineConfigs = theEngine.Modules["ModuleEngineConfigs"];
-                if (modEngineConfigs != null)
-                {
-                    // Check the localCorrectThrust
-                    if ((bool)RF_ModuleEngineConfigs_locaCorrectThrust.GetValue(modEngineConfigs))
-                    {
-                        return true;
-                    }
-                }
-            }
-
-            if (RF_ModuleHybridEngine_locaCorrectThrust != null && theEngine.Modules.Contains("ModuleHybridEngine"))
-            {
-                var modHybridEngine = theEngine.Modules["ModuleHybridEngine"];
-                if (modHybridEngine != null)
-                {
-                    // Check the localCorrectThrust
-                    if ((bool)RF_ModuleHybridEngine_locaCorrectThrust.GetValue(modHybridEngine))
-                    {
-                        return true;
-                    }
-                }
-            }
-
-            if (RF_ModuleHybridEngines_locaCorrectThrust != null && theEngine.Modules.Contains("ModuleHybridEngines"))
-            {
-                var modHybridEngines = theEngine.Modules["ModuleHybridEngines"];
-                if (modHybridEngines != null)
-                {
-                    // Check the localCorrectThrust
-                    if ((bool)RF_ModuleHybridEngines_locaCorrectThrust.GetValue(modHybridEngines))
-                    {
-                        return true;
-                    }
-                }
+            if (hasInstalledRealFuels)
+            {
+                // Look for any of the Real Fuels engine modules and call the relevant method to find out
+                if (RF_ModuleEngineConfigs_localCorrectThrust != null && theEngine.Modules.Contains("ModuleEngineConfigs"))
+                {
+                    var modEngineConfigs = theEngine.Modules["ModuleEngineConfigs"];
+                    if (modEngineConfigs != null)
+                    {
+                        // Return the localCorrectThrust
+                        return (bool)RF_ModuleEngineConfigs_localCorrectThrust.GetValue(modEngineConfigs);
+                    }
+                }
+
+                if (RF_ModuleHybridEngine_localCorrectThrust != null && theEngine.Modules.Contains("ModuleHybridEngine"))
+                {
+                    var modHybridEngine = theEngine.Modules["ModuleHybridEngine"];
+                    if (modHybridEngine != null)
+                    {
+                        // Return the localCorrectThrust
+                        return (bool)RF_ModuleHybridEngine_localCorrectThrust.GetValue(modHybridEngine);
+                    }
+                }
+
+                if (RF_ModuleHybridEngines_localCorrectThrust != null && theEngine.Modules.Contains("ModuleHybridEngines"))
+                {
+                    var modHybridEngines = theEngine.Modules["ModuleHybridEngines"];
+                    if (modHybridEngines != null)
+                    {
+                        // Return the localCorrectThrust
+                        return (bool)RF_ModuleHybridEngines_localCorrectThrust.GetValue(modHybridEngines);
+                    }
+                }
+            }
+
+            if (hasInstalledKIDS && HighLogic.LoadedSceneIsEditor)
+            {
+                return bKIDSThrustISP;
             }
 
             return false;
+        }
+
+        public static void UpdateModSettings()
+        {
+            if (!hasCheckedForMods)
+            {
+                CheckForMods();
+            }
+
+            if (hasInstalledKIDS)
+            {
+                // (out ispMultiplierVac, out ispMultiplierAtm, out extendToZeroIsp, out thrustCorrection, out ispCutoff, out thrustCutoff);
+                object[] parameters = new object[6];
+                KIDS_Utils_GetIspMultiplier.Invoke(null, parameters);
+                bKIDSThrustISP = (bool)parameters[3];
+            }
         }
 
         public static String GetVesselTypeString(VesselType vesselType)
@@ -171,9 +232,9 @@
 
         public static void RequestSimulation()
         {
-            if (!hasCheckedForRealFuels)
-            {
-                GetRealFuelsTypes();
+            if (!hasCheckedForMods)
+            {
+                CheckForMods();
             }
 
             lock (locker)
@@ -215,42 +276,6 @@
             failMessage = "";
             Stages = null;
             LastStage = null;
-        }
-
-        private static void GetRealFuelsTypes()
-        {
-            hasCheckedForRealFuels = true;
-
-            foreach (var assembly in AssemblyLoader.loadedAssemblies)
-            {
-                MonoBehaviour.print("Assembly:" + assembly.assembly);
-
-                if (assembly.assembly.ToString().Split(',')[0] == "RealFuels")
-                {
-                    MonoBehaviour.print("Found RealFuels mod");
-
-                    var RF_ModuleEngineConfigs_Type = assembly.assembly.GetType("RealFuels.ModuleEngineConfigs");
-                    if (RF_ModuleEngineConfigs_Type != null)
-                    {
-                        RF_ModuleEngineConfigs_locaCorrectThrust = RF_ModuleEngineConfigs_Type.GetField("localCorrectThrust");
-                    }
-
-                    var RF_ModuleHybridEngine_Type = assembly.assembly.GetType("RealFuels.ModuleHybridEngine");
-                    if (RF_ModuleHybridEngine_Type != null)
-                    {
-                        RF_ModuleHybridEngine_locaCorrectThrust = RF_ModuleHybridEngine_Type.GetField("localCorrectThrust");
-                    }
-
-                    var RF_ModuleHybridEngines_Type = assembly.assembly.GetType("RealFuels.ModuleHybridEngines");
-                    if (RF_ModuleHybridEngines_Type != null)
-                    {
-                        RF_ModuleHybridEngines_locaCorrectThrust = RF_ModuleHybridEngines_Type.GetField("localCorrectThrust");
-                    }
-
-                    hasInstalledRealFuels = true;
-                    break;
-                }
-            }
         }
 
         private static void RunSimulation(object simObject)

--- a/KerbalEngineer/VesselSimulator/Simulation.cs
+++ b/KerbalEngineer/VesselSimulator/Simulation.cs
@@ -531,7 +531,7 @@
 
                 // Store the magnitude of the deltaV vector
                 stage.deltaV = this.vecStageDeltaV.magnitude;
-                stage.resourceMass = this.stepStartMass - this.stepEndMass;
+                stage.resourceMass = this.stageStartMass - this.stepEndMass;
 
                 // Recalculate effective stage isp from the stage deltaV (flip the standard deltaV calculation around)
                 // Note: If the mass doesn't change then this is a divide by zero
@@ -783,7 +783,7 @@
                     }
                     //buffer.AppendFormat("isSepratron = {0}\n", partSim.isSepratron ? "true" : "false");
 
-                    if (!partSim.isSepratron && !partSim.Resources.EmptyOf(this.drainingResources))
+                    if (!partSim.isSepratron && !partSim.EmptyOf(this.drainingResources))
                     {
                         if (SimManager.logOutput)
                         {

--- a/KerbalEngineer/VesselSimulator/Stage.cs
+++ b/KerbalEngineer/VesselSimulator/Stage.cs
@@ -29,27 +29,28 @@
 {
     public class Stage
     {
-        public double actualThrust = 0f;
-        public double actualThrustToWeight = 0f;
-        public double cost = 0d;
-        public double deltaV = 0f;
-        public double inverseTotalDeltaV = 0f;
-        public double isp = 0f;
-        public double mass = 0f;
-        public double maxThrustToWeight = 0f;
+        public double actualThrust = 0.0;
+        public double actualThrustToWeight = 0.0;
+        public double cost = 0.0;
+        public double deltaV = 0.0;
+        public double inverseTotalDeltaV = 0.0;
+        public double isp = 0.0;
+        public double mass = 0.0;
+        public double rcsMass = 0.0;
+        public double maxThrustToWeight = 0.0;
         public int number = 0;
-        public double thrust = 0f;
-        public double thrustToWeight = 0f;
-        public double time = 0f;
-        public double totalCost = 0;
-        public double totalDeltaV = 0f;
-        public double totalMass = 0f;
-        public double totalTime = 0f;
+        public double thrust = 0.0;
+        public double thrustToWeight = 0.0;
+        public double time = 0.0;
+        public double totalCost = 0.0;
+        public double totalDeltaV = 0.0;
+        public double totalMass = 0.0;
+        public double totalTime = 0.0;
         public int totalPartCount = 0;
         public int partCount = 0;
         public double resourceMass = 0.0;
-        public double maxThrustTorque = 0f;
-        public double thrustOffsetAngle = 0f;
+        public double maxThrustTorque = 0.0;
+        public double thrustOffsetAngle = 0.0;
 
         public void Dump()
         {

 Binary files a/Output/KerbalEngineer/KerbalEngineer.dll and b/Output/KerbalEngineer/KerbalEngineer.dll differ
--- a/Output/KerbalEngineer/KerbalEngineer.version
+++ b/Output/KerbalEngineer/KerbalEngineer.version
@@ -5,8 +5,8 @@
 	{
 		"MAJOR":1,
 		"MINOR":0,
-		"PATCH":13,
-		"BUILD":1
+		"PATCH":15,
+		"BUILD":2
 	},
 	"KSP_VERSION":
 	{

 Binary files /dev/null and b/Output/KerbalEngineer/Parts/Engineer7500/model000.mbm differ
--- a/Output/KerbalEngineer/Parts/Engineer7500/part.cfg
+++ b/Output/KerbalEngineer/Parts/Engineer7500/part.cfg
@@ -7,7 +7,6 @@
 	
 	// --- asset parameters ---
 	mesh = model.mu
-	texture = model000.mbm
 	rescaleFactor = 0.8
 
 	PhysicsSignificance = 1

 Binary files a/Output/KerbalEngineer/Parts/Engineer7500/textures/model000.mbm and /dev/null differ