public override void OnFixedUpdate()
{
if (IsEnabled)
{
if (active_mode == 0) // Fuel Reprocessing
{
double electrical_power_provided = consumeFNResource(GameConstants.basePowerConsumption * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / GameConstants.basePowerConsumption);
reprocessor.performReprocessingFrame(electrical_power_ratio);
if (reprocessor.getActinidesRemovedPerHour() > 0)
{
reprocessing_rate_d = reprocessor.getRemainingAmountToReprocess() / reprocessor.getActinidesRemovedPerHour();
}
else
{
ScreenMessages.PostScreenMessage("Unable to Reprocess Nuclear Fuel", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
else if (active_mode == 1) // Aluminium Electrolysis
{
double electrical_power_provided = consumeFNResource((GameConstants.baseELCPowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / GameConstants.baseELCPowerConsumption);
double density_alumina = PartResourceLibrary.Instance.GetDefinition("Alumina").density;
double aluminium_density = PartResourceLibrary.Instance.GetDefinition(PluginHelper.aluminium_resource_name).density;
double oxygen_density = PartResourceLibrary.Instance.GetDefinition(PluginHelper.oxygen_resource_name).density;
electrolysis_rate_d = electrical_power_provided / GameConstants.aluminiumElectrolysisEnergyPerTon / TimeWarp.fixedDeltaTime;
double alumina_consumption_rate = part.RequestResource("Alumina", electrolysis_rate_d * TimeWarp.fixedDeltaTime / density_alumina) / TimeWarp.fixedDeltaTime * density_alumina;
double mass_rate = alumina_consumption_rate;
electrolysis_rate_d = part.RequestResource(PluginHelper.aluminium_resource_name, -mass_rate * TimeWarp.fixedDeltaTime / aluminium_density) * aluminium_density;
electrolysis_rate_d += part.RequestResource(PluginHelper.oxygen_resource_name, -GameConstants.aluminiumElectrolysisMassRatio * mass_rate * TimeWarp.fixedDeltaTime / oxygen_density) * oxygen_density;
electrolysis_rate_d = electrolysis_rate_d / TimeWarp.fixedDeltaTime;
}
else if (active_mode == 2) // Sabatier ISRU
{
if (FlightGlobals.getStaticPressure(vessel.transform.position) * ORSAtmosphericResourceHandler.getAtmosphericResourceContentByDisplayName(vessel.mainBody.flightGlobalsIndex, "Carbon Dioxide") >= 0.01)
{
double electrical_power_provided = consumeFNResource((GameConstants.baseELCPowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / GameConstants.baseELCPowerConsumption);
electrolysis_rate_d = electrical_power_provided / GameConstants.electrolysisEnergyPerTon * vessel.atmDensity / TimeWarp.fixedDeltaTime;
double hydrogen_rate = electrolysis_rate_d / (1 + GameConstants.electrolysisMassRatio);
double oxygen_rate = hydrogen_rate * GameConstants.electrolysisMassRatio;
double density_h = PartResourceLibrary.Instance.GetDefinition(PluginHelper.hydrogen_resource_name).density;
double density_o = PartResourceLibrary.Instance.GetDefinition(PluginHelper.oxygen_resource_name).density;
double density_ch4 = PartResourceLibrary.Instance.GetDefinition(PluginHelper.methane_resource_name).density;
double h2_rate = part.RequestResource(PluginHelper.hydrogen_resource_name, hydrogen_rate * TimeWarp.fixedDeltaTime / density_h / 2);
if (h2_rate > 0)
{
double o_rate = part.RequestResource(PluginHelper.oxygen_resource_name, -oxygen_rate * TimeWarp.fixedDeltaTime / density_o);
double methane_rate = electrolysis_rate_d / 4.5;
methane_rate_d = -part.RequestResource(PluginHelper.methane_resource_name, -methane_rate * TimeWarp.fixedDeltaTime / density_ch4) * density_ch4 / TimeWarp.fixedDeltaTime;
}
}
else
{
ScreenMessages.PostScreenMessage("Ambient C02 insufficient.", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
else if (active_mode == 3) // Water Electrolysis
{
double density_h = PartResourceLibrary.Instance.GetDefinition(PluginHelper.hydrogen_resource_name).density;
double density_o = PartResourceLibrary.Instance.GetDefinition(PluginHelper.oxygen_resource_name).density;
double density_h2o = PartResourceLibrary.Instance.GetDefinition(PluginHelper.water_resource_name).density;
double electrical_power_provided = consumeFNResource((GameConstants.baseELCPowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / GameConstants.baseELCPowerConsumption);
electrolysis_rate_d = electrical_power_provided / GameConstants.electrolysisEnergyPerTon / TimeWarp.fixedDeltaTime;
double water_consumption_rate = part.RequestResource(PluginHelper.water_resource_name, electrolysis_rate_d * TimeWarp.fixedDeltaTime / density_h2o) / TimeWarp.fixedDeltaTime * density_h2o;
double hydrogen_rate = water_consumption_rate / (1 + GameConstants.electrolysisMassRatio);
double oxygen_rate = hydrogen_rate * GameConstants.electrolysisMassRatio;
electrolysis_rate_d = part.RequestResource(PluginHelper.hydrogen_resource_name, -hydrogen_rate * TimeWarp.fixedDeltaTime / density_h);
electrolysis_rate_d += part.RequestResource(PluginHelper.oxygen_resource_name, -oxygen_rate * TimeWarp.fixedDeltaTime / density_o);
electrolysis_rate_d = electrolysis_rate_d / TimeWarp.fixedDeltaTime * density_h;
}
else if (active_mode == 4) // Anthraquinone Process
{
double density_h2o = PartResourceLibrary.Instance.GetDefinition(PluginHelper.water_resource_name).density;
double density_h2o2 = PartResourceLibrary.Instance.GetDefinition(PluginHelper.hydrogen_peroxide_resource_name).density;
double electrical_power_provided = consumeFNResource((GameConstants.baseAnthraquiononePowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / GameConstants.baseAnthraquiononePowerConsumption);
anthra_rate_d = electrical_power_provided / GameConstants.anthraquinoneEnergyPerTon / TimeWarp.fixedDeltaTime;
double water_consumption_rate = part.RequestResource(PluginHelper.water_resource_name, anthra_rate_d * TimeWarp.fixedDeltaTime / density_h2o) / TimeWarp.fixedDeltaTime * density_h2o;
anthra_rate_d = -part.RequestResource(PluginHelper.hydrogen_peroxide_resource_name, -water_consumption_rate * TimeWarp.fixedDeltaTime / density_h2o2) * density_h2o2 / TimeWarp.fixedDeltaTime;
if (water_consumption_rate <= 0 && electrical_power_ratio > 0)
{
ScreenMessages.PostScreenMessage("Water is required to perform the Anthraquinone Process.", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
else if (active_mode == 5) // Monoprop Production
{
double density_h2o2 = PartResourceLibrary.Instance.GetDefinition(PluginHelper.hydrogen_peroxide_resource_name).density;
double density_ammonia = PartResourceLibrary.Instance.GetDefinition(PluginHelper.ammonia_resource_name).density;
double electrical_power_provided = consumeFNResource((GameConstants.basePechineyUgineKuhlmannPowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / GameConstants.basePechineyUgineKuhlmannPowerConsumption);
monoprop_rate_d = electrical_power_provided / GameConstants.pechineyUgineKuhlmannEnergyPerTon / TimeWarp.fixedDeltaTime;
double ammonia_consumption_rate = part.RequestResource(PluginHelper.ammonia_resource_name, 0.5 * monoprop_rate_d * (1 - GameConstants.pechineyUgineKuhlmannMassRatio) * TimeWarp.fixedDeltaTime / density_ammonia) * density_ammonia / TimeWarp.fixedDeltaTime;
double h202_consumption_rate = part.RequestResource(PluginHelper.hydrogen_peroxide_resource_name, 0.5 * monoprop_rate_d * GameConstants.pechineyUgineKuhlmannMassRatio * TimeWarp.fixedDeltaTime / density_h2o2) * density_h2o2 / TimeWarp.fixedDeltaTime;
if (ammonia_consumption_rate > 0 && h202_consumption_rate > 0)
{
double mono_prop_produciton_rate = ammonia_consumption_rate + h202_consumption_rate;
double density_monoprop = PartResourceLibrary.Instance.GetDefinition("MonoPropellant").density;
monoprop_rate_d = -ORSHelper.fixedRequestResource(part, "MonoPropellant", -mono_prop_produciton_rate * TimeWarp.fixedDeltaTime / density_monoprop) * density_monoprop / TimeWarp.fixedDeltaTime;
}
else
{
if (electrical_power_ratio > 0)
{
monoprop_rate_d = 0;
ScreenMessages.PostScreenMessage("Ammonia and Hydrogen Peroxide are required to produce Monopropellant.", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
}
else if (active_mode == 6)
{
double density_ammonia = PartResourceLibrary.Instance.GetDefinition(PluginHelper.ammonia_resource_name).density;
double density_uf4 = PartResourceLibrary.Instance.GetDefinition("UF4").density;
double density_un = PartResourceLibrary.Instance.GetDefinition("UraniumNitride").density;
double electrical_power_provided = consumeFNResource((GameConstants.baseUraniumAmmonolysisConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / GameConstants.baseUraniumAmmonolysisConsumption);
double lpersec = GameConstants.baseUraniumAmmonolysisRate * electrical_power_ratio;
double uf4persec = lpersec * 1.24597 / density_uf4;
double unpersec = lpersec / density_un;
double ammoniapersec = lpersec * 0.901 / density_ammonia;
double uf4_rate = ORSHelper.fixedRequestResource(part, "UF4", uf4persec * TimeWarp.fixedDeltaTime);
double ammonia_rate = ORSHelper.fixedRequestResource(part, PluginHelper.ammonia_resource_name, uf4persec * TimeWarp.fixedDeltaTime);
if (uf4_rate > 0 && ammonia_rate > 0)
{
uranium_nitride_rate_d = -ORSHelper.fixedRequestResource(part, "UraniumNitride", -uf4_rate * density_uf4 / 1.24597 / density_un) / TimeWarp.fixedDeltaTime * density_un;
}
else
{
if (electrical_power_ratio > 0)
{
uranium_nitride_rate_d = 0;
ScreenMessages.PostScreenMessage("Uranium Tetraflouride and Ammonia are required to produce Uranium Nitride.", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
}
}
else
{
}
}
public void UpdateFrame(double rateMultiplier, bool allowOverflow)
{
_current_power = PowerRequirements * rateMultiplier;
_current_rate = CurrentPower / PluginHelper.HaberProcessEnergyPerTon;
double ammoniaNitrogenFractionByMass = (1 - GameConstants.ammoniaHydrogenFractionByMass);
double hydrogen_rate = _current_rate * GameConstants.ammoniaHydrogenFractionByMass;
double nitrogen_rate = _current_rate * ammoniaNitrogenFractionByMass;
_hydrogen_consumption_rate = _part.RequestResource(InterstellarResourcesConfiguration.Instance.Hydrogen, hydrogen_rate * TimeWarp.fixedDeltaTime / _hydrogen_density) * _hydrogen_density / TimeWarp.fixedDeltaTime;
_atmospheric_nitrogen_rate = (FlightGlobals.getStaticPressure(_vessel.transform.position) / 100) * ORSAtmosphericResourceHandler.getAtmosphericResourceContentByDisplayName(_vessel.mainBody.flightGlobalsIndex, "Nitrogen") * _current_rate * 10;
if (_atmospheric_nitrogen_rate > nitrogen_rate)
{
_nitrogen_consumption_rate = nitrogen_rate;
}
else
{
_nitrogen_consumption_rate = _part.RequestResource(InterstellarResourcesConfiguration.Instance.Nitrogen, nitrogen_rate * TimeWarp.fixedDeltaTime / _nitrogen_density) * _nitrogen_density / TimeWarp.fixedDeltaTime;
}
if (_hydrogen_consumption_rate > 0 && _nitrogen_consumption_rate > 0)
{
_ammonia_production_rate = -_part.RequestResource(InterstellarResourcesConfiguration.Instance.Ammonia, -_nitrogen_consumption_rate / ammoniaNitrogenFractionByMass * TimeWarp.fixedDeltaTime / _ammonia_density) * _ammonia_density / TimeWarp.fixedDeltaTime;
}
updateStatusMessage();
}
public override void OnFixedUpdate()
{
if (!IsEnabled)
{
return;
}
if (active_mode == 0) // Fuel Reprocessing
{
double electrical_power_provided = consumeFNResource(reprocessor.PowerRequirements, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / reprocessor.PowerRequirements);
reprocessor.UpdateFrame(electrical_power_ratio);
if (reprocessor.getActinidesRemovedPerHour() > 0)
{
reprocessing_rate_d = reprocessor.getRemainingAmountToReprocess() / reprocessor.getActinidesRemovedPerHour();
}
else
{
ScreenMessages.PostScreenMessage("Unable to Reprocess Nuclear Fuel", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
else if (active_mode == 1) // Aluminium Electrolysis
{
double electrical_power_provided = consumeFNResource((PluginHelper.BaseELCPowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / PluginHelper.BaseELCPowerConsumption);
electrolysis_rate_d = electrical_power_provided / PluginHelper.AluminiumElectrolysisEnergyPerTon / TimeWarp.fixedDeltaTime;
double alumina_consumption_rate = part.RequestResource(InterstellarResourcesConfiguration.Instance.Alumina, electrolysis_rate_d * TimeWarp.fixedDeltaTime / density_alumina) / TimeWarp.fixedDeltaTime * density_alumina;
double mass_rate = alumina_consumption_rate;
electrolysis_rate_d = part.RequestResource(InterstellarResourcesConfiguration.Instance.Aluminium, -mass_rate * TimeWarp.fixedDeltaTime / density_aluminium) * density_aluminium;
electrolysis_rate_d += part.RequestResource(InterstellarResourcesConfiguration.Instance.Oxygen, -GameConstants.aluminiumElectrolysisMassRatio * mass_rate * TimeWarp.fixedDeltaTime / density_o) * density_o;
electrolysis_rate_d = electrolysis_rate_d / TimeWarp.fixedDeltaTime;
}
else if (active_mode == 2) // Sabatier ISRU
{
if (FlightGlobals.getStaticPressure(vessel.transform.position) * ORSAtmosphericResourceHandler.getAtmosphericResourceContentByDisplayName(vessel.mainBody.flightGlobalsIndex, "Carbon Dioxide") >= 0.01)
{
double electrical_power_provided = consumeFNResource((PluginHelper.BaseELCPowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / PluginHelper.BaseELCPowerConsumption);
electrolysis_rate_d = electrical_power_provided / PluginHelper.ElectrolysisEnergyPerTon * vessel.atmDensity / TimeWarp.fixedDeltaTime;
double hydrogen_rate = electrolysis_rate_d / (1 + GameConstants.electrolysisMassRatio);
double oxygen_rate = hydrogen_rate * (GameConstants.electrolysisMassRatio - 1);
double density_ch4 = PartResourceLibrary.Instance.GetDefinition(InterstellarResourcesConfiguration.Instance.Methane).density;
double h2_rate = part.RequestResource(InterstellarResourcesConfiguration.Instance.Hydrogen, hydrogen_rate * TimeWarp.fixedDeltaTime / density_h / 2);
double c02_rate = part.RequestResource(InterstellarResourcesConfiguration.Instance.CarbonDioxide, hydrogen_rate * TimeWarp.fixedDeltaTime / density_h / 2);
if (h2_rate > 0)
{
double o_rate = part.RequestResource(InterstellarResourcesConfiguration.Instance.Oxygen, -oxygen_rate * TimeWarp.fixedDeltaTime / density_o);
double methane_rate = oxygen_rate * 2;
methane_rate_d = -part.RequestResource(InterstellarResourcesConfiguration.Instance.Methane, -methane_rate * TimeWarp.fixedDeltaTime / density_ch4) * density_ch4 / TimeWarp.fixedDeltaTime;
}
}
else
{
ScreenMessages.PostScreenMessage("Ambient C02 insufficient.", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
else if (active_mode == 3) // Water Electrolysis
{
double electrical_power_provided = consumeFNResource((PluginHelper.BaseELCPowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / PluginHelper.BaseELCPowerConsumption);
electrolysis_rate_d = electrical_power_provided / PluginHelper.ElectrolysisEnergyPerTon / TimeWarp.fixedDeltaTime;
double water_consumption_rate = part.RequestResource(InterstellarResourcesConfiguration.Instance.Water, electrolysis_rate_d * TimeWarp.fixedDeltaTime / density_h2o) / TimeWarp.fixedDeltaTime * density_h2o;
double hydrogen_rate = water_consumption_rate / (1 + GameConstants.electrolysisMassRatio);
double oxygen_rate = hydrogen_rate * GameConstants.electrolysisMassRatio;
electrolysis_rate_d = part.RequestResource(InterstellarResourcesConfiguration.Instance.Hydrogen, -hydrogen_rate * TimeWarp.fixedDeltaTime / density_h);
electrolysis_rate_d += part.RequestResource(InterstellarResourcesConfiguration.Instance.Oxygen, -oxygen_rate * TimeWarp.fixedDeltaTime / density_o);
electrolysis_rate_d = electrolysis_rate_d / TimeWarp.fixedDeltaTime * density_h;
}
else if (active_mode == 4) // Anthraquinone Process
{
double electrical_power_provided = consumeFNResource((PluginHelper.BaseAnthraquiononePowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / PluginHelper.BaseAnthraquiononePowerConsumption);
anthra_rate_d = electrical_power_provided / PluginHelper.AnthraquinoneEnergyPerTon / TimeWarp.fixedDeltaTime;
double water_consumption_rate = part.RequestResource(InterstellarResourcesConfiguration.Instance.Water, anthra_rate_d * TimeWarp.fixedDeltaTime / density_h2o) / TimeWarp.fixedDeltaTime * density_h2o;
anthra_rate_d = -part.RequestResource(InterstellarResourcesConfiguration.Instance.HydrogenPeroxide, -water_consumption_rate * TimeWarp.fixedDeltaTime / density_h2o2) * density_h2o2 / TimeWarp.fixedDeltaTime;
if (water_consumption_rate <= 0 && electrical_power_ratio > 0)
{
ScreenMessages.PostScreenMessage("Water is required to perform the Anthraquinone Process.", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
else if (active_mode == 5) // Monoprop Production
{
double electrical_power_provided = consumeFNResource((PluginHelper.BasePechineyUgineKuhlmannPowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / PluginHelper.BasePechineyUgineKuhlmannPowerConsumption);
monoprop_rate_d = electrical_power_provided / PluginHelper.PechineyUgineKuhlmannEnergyPerTon / TimeWarp.fixedDeltaTime;
double ammonia_consumption_rate = part.RequestResource(InterstellarResourcesConfiguration.Instance.Ammonia, 0.5 * monoprop_rate_d * (1 - GameConstants.pechineyUgineKuhlmannMassRatio) * TimeWarp.fixedDeltaTime / density_ammonia) * density_ammonia / TimeWarp.fixedDeltaTime;
double h202_consumption_rate = part.RequestResource(InterstellarResourcesConfiguration.Instance.HydrogenPeroxide, 0.5 * monoprop_rate_d * GameConstants.pechineyUgineKuhlmannMassRatio * TimeWarp.fixedDeltaTime / density_h2o2) * density_h2o2 / TimeWarp.fixedDeltaTime;
if (ammonia_consumption_rate > 0 && h202_consumption_rate > 0)
{
double mono_prop_produciton_rate = ammonia_consumption_rate + h202_consumption_rate;
double density_monoprop = PartResourceLibrary.Instance.GetDefinition("MonoPropellant").density;
monoprop_rate_d = -ORSHelper.fixedRequestResource(part, "MonoPropellant", -mono_prop_produciton_rate * TimeWarp.fixedDeltaTime / density_monoprop) * density_monoprop / TimeWarp.fixedDeltaTime;
ORSHelper.fixedRequestResource(part, InterstellarResourcesConfiguration.Instance.Water, -mono_prop_produciton_rate * TimeWarp.fixedDeltaTime * 1.12436683185 / density_h2o);
}
else if (electrical_power_ratio > 0)
{
monoprop_rate_d = 0;
ScreenMessages.PostScreenMessage("Ammonia and Hydrogen Peroxide are required to produce Monopropellant.", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
else if (active_mode == 6) // Uranium Ammonolysis
{
double electrical_power_provided = consumeFNResource((PluginHelper.BaseUraniumAmmonolysisPowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / PluginHelper.BaseUraniumAmmonolysisPowerConsumption);
double lpersec = GameConstants.baseUraniumAmmonolysisRate * electrical_power_ratio;
double uf4persec = lpersec * 1.24597 / density_uf4;
double unpersec = lpersec / density_un;
double ammoniapersec = lpersec * 0.901 / density_ammonia;
double uf4_rate = ORSHelper.fixedRequestResource(part, InterstellarResourcesConfiguration.Instance.UraniumTetraflouride, uf4persec * TimeWarp.fixedDeltaTime);
double ammonia_rate = ORSHelper.fixedRequestResource(part, InterstellarResourcesConfiguration.Instance.Ammonia, uf4persec * TimeWarp.fixedDeltaTime);
if (uf4_rate > 0 && ammonia_rate > 0)
{
uranium_nitride_rate_d = -ORSHelper.fixedRequestResource(part, InterstellarResourcesConfiguration.Instance.UraniumNitride, -uf4_rate * density_uf4 / 1.24597 / density_un) / TimeWarp.fixedDeltaTime * density_un;
}
else
{
if (electrical_power_ratio > 0)
{
uranium_nitride_rate_d = 0;
ScreenMessages.PostScreenMessage("Uranium Tetraflouride and Ammonia are required to produce Uranium Nitride.", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
}
else if (active_mode == 7) // Haber Process
{
bool atmosphereNitrogenIsAvailable = false;
float nitrogen_available = 0;
if ((FlightGlobals.getStaticPressure(vessel.transform.position) * ORSAtmosphericResourceHandler.getAtmosphericResourceContentByDisplayName(vessel.mainBody.flightGlobalsIndex, "Nitrogen") >= 0.1))
{
atmosphereNitrogenIsAvailable = true;
}
else
{
List <PartResource> resourcesWithNitrogen = part.GetConnectedResources(InterstellarResourcesConfiguration.Instance.Nitrogen).ToList();
nitrogen_available = (float)resourcesWithNitrogen.Sum(res => res.amount);
}
if (atmosphereNitrogenIsAvailable || nitrogen_available > 0)
{
double electrical_power_provided = consumeFNResource((PluginHelper.BaseHaberProcessPowerConsumption) * TimeWarp.fixedDeltaTime, FNResourceManager.FNRESOURCE_MEGAJOULES);
electrical_power_ratio = (float)(electrical_power_provided / TimeWarp.fixedDeltaTime / PluginHelper.BaseHaberProcessPowerConsumption);
double hydrogen_rate_t = electrical_power_provided / PluginHelper.HaberProcessEnergyPerTon * GameConstants.ammoniaHydrogenFractionByMass / TimeWarp.fixedDeltaTime;
double ammonia_rate_to_add_t = ORSHelper.fixedRequestResource(part, InterstellarResourcesConfiguration.Instance.Hydrogen, hydrogen_rate_t * TimeWarp.fixedDeltaTime / density_h) * density_h / GameConstants.ammoniaHydrogenFractionByMass / TimeWarp.fixedDeltaTime;
double nitrogen_rate_to_add_t = atmosphereNitrogenIsAvailable ? 1
: ORSHelper.fixedRequestResource(part, InterstellarResourcesConfiguration.Instance.Nitrogen, hydrogen_rate_t * TimeWarp.fixedDeltaTime / density_nitrogen) * density_nitrogen / GameConstants.ammoniaHydrogenFractionByMass / TimeWarp.fixedDeltaTime;
if ((ammonia_rate_to_add_t > 0) && (nitrogen_rate_to_add_t > 0))
{
ammonia_rate_d = -ORSHelper.fixedRequestResource(part, InterstellarResourcesConfiguration.Instance.Ammonia, -ammonia_rate_to_add_t * TimeWarp.fixedDeltaTime / density_ammonia) * density_ammonia / TimeWarp.fixedDeltaTime;
}
else if (electrical_power_ratio > 0)
{
ScreenMessages.PostScreenMessage("Hydrogen is required to perform the Haber Process.", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
else
{
ScreenMessages.PostScreenMessage("Ambient Nitrogen Insufficient.", 5.0f, ScreenMessageStyle.UPPER_CENTER);
IsEnabled = false;
}
}
}
private bool HasAccessToNitrogen()
{
return((FlightGlobals.getStaticPressure(_vessel.transform.position) / 100) * ORSAtmosphericResourceHandler.getAtmosphericResourceContentByDisplayName(_vessel.mainBody.flightGlobalsIndex, "Nitrogen") >= 0.01 ||
_part.GetConnectedResources(InterstellarResourcesConfiguration.Instance.Nitrogen).Any(rs => rs.amount > 0));
}
