Fixes for the bug where LaRCsim gets no fuel and won't start,
and also a bug with the EGT being displayed at running values when cranking without starting.
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parent
fe5d1643cf
commit
de2b5f50e9
3 changed files with 22 additions and 17 deletions
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@ -97,7 +97,7 @@ void FGNewEngine::init(double dt) {
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Fuel_Flow_gals_hr = 0;
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// Torque = 0;
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Torque_SI = 0;
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CHT_degK = 298.0; //deg Kelvin
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CHT = 298.0; //deg Kelvin
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CHT_degF = (CHT_degF * 1.8) - 459.67; //deg Fahrenheit
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Mixture = 14;
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Oil_Pressure = 0; // PSI
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@ -133,12 +133,13 @@ void FGNewEngine::update() {
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// cout << "n = " << RPM << " rpm\n";
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// cout << "T_amb = " << T_amb << '\n';
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// cout << "running = " << running << '\n';
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// cout << "fuel = " << fgGetFloat("/consumables/fuel/tank[0]/level-gal_us") << '\n';
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cout << "Percentage_Power = " << Percentage_Power << '\n';
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cout << "current_oil_temp = " << current_oil_temp << '\n';
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cout << "fuel = " << fgGetFloat("/consumables/fuel/tank[0]/level-gal_us") << '\n';
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// cout << "Percentage_Power = " << Percentage_Power << '\n';
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// cout << "current_oil_temp = " << current_oil_temp << '\n';
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cout << "EGT = " << EGT << '\n';
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}
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count1++;
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if(count1 == 600)
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if(count1 == 100)
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count1 = 0;
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*/
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@ -252,11 +253,13 @@ void FGNewEngine::update() {
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}
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//Calculate Exhaust gas temperature
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Calc_EGT();
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if(running)
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Calc_EGT();
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else
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EGT = 298.0;
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// Calculate Cylinder Head Temperature
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CHT_degK = Calc_CHT(CHT_degK);
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CHT_degF = (CHT_degK * 1.8) - 459.67;
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Calc_CHT();
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// Calculate oil temperature
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current_oil_temp = Calc_Oil_Temp(current_oil_temp);
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@ -288,8 +291,13 @@ void FGNewEngine::update() {
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} else if((RPM <= 480) && (cranking)) {
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//Make sure the engine noise dosn't play if the engine won't start due to eg mixture lever pulled out.
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running = false;
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EGT = 298.0;
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}
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}
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// And finally, do any unit conversions from internal units to output units
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EGT_degF = (EGT * 1.8) - 459.67;
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CHT_degF = (CHT * 1.8) - 459.67;
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}
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//*****************************************************************************************************
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@ -395,7 +403,7 @@ float FGNewEngine::Power_Mixture_Correlation(float thi_actual)
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// Calculate Cylinder Head Temperature
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// Crudely models the cylinder head as an arbitary lump of arbitary size and area with one third of combustion energy
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// as heat input and heat output as a function of airspeed and temperature. Could be improved!!!
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float FGNewEngine::Calc_CHT(float CHT)
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void FGNewEngine::Calc_CHT()
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{
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float h1 = -95.0; //co-efficient for free convection
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float h2 = -3.95; //co-efficient for forced convection
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@ -440,8 +448,6 @@ float FGNewEngine::Calc_CHT(float CHT)
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dCHTdt = dqdt_cylinder_head / HeatCapacityCylinderHead;
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CHT += (dCHTdt * time_step);
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return(CHT);
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}
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// Calculate exhaust gas temperature
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@ -464,8 +470,6 @@ void FGNewEngine::Calc_EGT()
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//For now we will aim for a peak of around 400 degC (750 degF)
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EGT *= 0.444 + ((0.544 - 0.444) * Percentage_Power / 100.0);
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EGT_degF = (EGT * 1.8) - 459.67;
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}
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// Calculate Manifold Pressure based on Throttle lever Position
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@ -89,7 +89,7 @@ private:
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float Fuel_Flow_gals_hr; // USgals/hour
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float Torque_lbft; // lb-ft
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float Torque_SI; // Nm
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float CHT_degK; // Cylinder head temperature deg K
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float CHT; // Cylinder head temperature deg K
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float CHT_degF; // Ditto in deg Fahrenheit
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float Mixture;
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float Oil_Pressure; // PSI
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@ -158,8 +158,9 @@ private:
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float Calculate_Delta_T_Exhaust(void);
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// Calculate cylinder head temperature
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float FGNewEngine::Calc_CHT(float CHT);
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void FGNewEngine::Calc_CHT(void);
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// Calculate exhaust gas temperature
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void FGNewEngine::Calc_EGT(void);
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// Calculate fuel flow in gals/hr
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@ -125,11 +125,11 @@ void FGLaRCsim::update( int multiloop ) {
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if ( ! fuel_freeze->getBoolValue() ) {
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//Assume we are using both tanks equally for now
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fgSetDouble("/consumables/fuel/tank[0]/level-gal_us",
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fgGetDouble("/consumables/fuel/tank[0]")
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fgGetDouble("/consumables/fuel/tank[0]/level-gal_us")
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- (eng.get_fuel_flow_gals_hr() / (2 * 3600))
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* get_delta_t());
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fgSetDouble("/consumables/fuel/tank[1]/level-gal_us",
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fgGetDouble("/consumables/fuel/tank[1]")
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fgGetDouble("/consumables/fuel/tank[1]/level-gal_us")
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- (eng.get_fuel_flow_gals_hr() / (2 * 3600))
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* get_delta_t());
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}
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