How to deduct obtained fuel value from initial weight

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Ke Yeun Yong on 21 Sep 2023

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Edited: Ke Yeun Yong on 21 Sep 2023

Hi, the following code is the initial calculation, I have obtained the fuel consumed to climb at each altitude (53 x 1 results) (the final code), I want to deduct this fuel consumption from the weight at every altitude (the weight is denoted is W) because weight reduced as the aircraft fly.

May I know how do I code it? I heard can use for-loop with different iteration? (because I have used a for-loop for other calculation before getting onto the coding below)

Please help. Very much appreciate :)

%% Coefficient of Lift
CDO = 0.023; % Zero-lift drag coefficient
K = 0.044; % Lift-induced drag factor
MTOW =  79010; % Maximum take-off mass [kg]
W = MTOW*9.81; % Weight in N
A= Thrust_22K/W;
B = sqrt((A.^2)+(12*CDO*K));
Cl = (6*CDO)./(A+B);
%% Drag Produced 
S = 125; % Wing area [m^2]
C = CDO + (K*(Cl.^2));
D = 0.5*Density_altitude.*(TAS.^2)*S.*C; % [N]
%% Power Available
P_available = TAS.*Thrust_22K;
%% Power Required
P_required = TAS.*D;
%% Excess Power 
P_excess = P_available - P_required; 
%% Rate of Climb (ROC)
ROC = (TAS.*(Thrust_22K - D))./W; % [m/s]
if any(ROC <=1.5)
    disp('Service Ceiling.')
else 
    disp ('Absolute Ceiling.')
end 
%% Climb Angle 
X = (Thrust_22K - D)./W;
Climb_angle = asind( X ); % [Degree]
%% Time Taken to Climb 
Time = Altitude./ROC; % [sec]
%% Mass Flow Rate
m_dot_f = TSFC_22K.*Thrust_22K; % [kg/s]
%% Fuel Consumed to Climb 
Fuel = m_dot_f.*Time;

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William Rose on 21 Sep 2023

Edited: William Rose on 21 Sep 2023

As @Dyuman Joshi pointed out, it is not clear what quantities are vectors and what quatities are scalars.

Dyuman Joshi on 21 Sep 2023

It will be better if you can attach your whole code including values for variables, as has been mentioned before.

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Answer 1

Torsten on 21 Sep 2023

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Edited: Torsten on 21 Sep 2023

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Most probably something like this. I don't know where you use some of the defined variables - they seem to be superfluous.

%% Coefficient of Lift
CDO = 0.023; % Zero-lift drag coefficient
K = 0.044; % Lift-induced drag factor
W(1) = MTOW*9.81; % Weight in N;
Time(1) = 0.0;
Fuel(1) = 0.0;
for i = 1:numel(Altitude)-1
  A = Thrust_22K/W(i);
  B = sqrt((A.^2)+(12*CDO*K));
  Cl = (6*CDO)./(A+B);
  %% Drag Produced 
  S = 125; % Wing area [m^2]
  C = CDO + (K*(Cl.^2));
  D = 0.5*(Density_altitude(i)+Density_altitude(i+1))/2.*(TAS.^2)*S.*C; % [N]
  %% Power Available
  P_available = TAS.*Thrust_22K;
  %% Power Required
  P_required = TAS.*D;
  %% Excess Power 
  P_excess = P_available - P_required; 
  %% Rate of Climb (ROC)
  ROC = (TAS.*(Thrust_22K - D))./W(i); % [m/s]
  if any(ROC <=1.5)
    disp('Service Ceiling.')
  else 
    disp ('Absolute Ceiling.')
  end 
  %% Climb Angle 
  X = (Thrust_22K - D)./W(i);
  Climb_angle = asind( X ); % [Degree]
  %% Time Taken to Climb 
  Time(i+1) = (Altitude(i+1)-Altitude(i))./ROC; % [sec]
  %% Mass Flow Rate
  m_dot_f = TSFC_22K.*Thrust_22K; % [kg/s]
  %% Fuel Consumed to Climb 
  Fuel(i+1) = m_dot_f.*Time(i+1);
  W(i+1) = W(i) - Fuel(i+1);
end

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Ke Yeun Yong on 21 Sep 2023

@Torsten @William Rose the following is the whole code.

% Clear all previous variables created in the workspace

clear all

% Clear all previous figures whose handles are not hidden

close all

% Clears all previous text from the Command Window

clc

%% Engine Data

load data.txt

Altitude = data(:,1); % m

Thrust_22K = (data(:,2)).*2; % N

TSFC_22K_hour = data(:,3); % per hour

TSFC_22K = TSFC_22K_hour/3600; % per sec

%% Density

To = 288.15; % Temperature in ISA [K]

% pre-allocate Ta to be the same size as Altitude (53x1), with all elements 216.65

Ta = 216.65*ones(size(Altitude));

% calculate the first 45 elements of Ta:

Ta(1:45) = To-0.0065*Altitude(1:45); % Temperature at altitude [K]

for i = 1:53

Po = 101325; % Pressure in ISA [Pa]

Pa_R(i) = Po*(1-2.2558E-5*Altitude(i))^5.25864; % Pressure in altitude (row format) [Pa]

Pa = Pa_R.';

R = 287.05; % [J/kgK]

Density_altitude_R(i) = Pa(i)/(R*Ta(i)); % Density at each altitude (row format) [kg/m^3]

Density_altitude = Density_altitude_R.';

%% Relative Density

Relative_density_R(i) = Density_altitude(i)/1.225; % (row format)

Relative_density = Relative_density_R.';

%% True Airspeed

IAS = 250/1.944; % [m/s]

CCF = 0.996; % Compressibility correction factor

TAS_R(i) = (IAS*CCF)*sqrt((1/Relative_density(i))); % (row format) [m/s]

TAS = TAS_R.';

end

%% Coefficient of Lift

CDO = 0.023; % Zero-lift drag coefficient

K = 0.044; % Lift-induced drag factor

MTOW = 79010; % Maximum take-off mass [kg]

W = MTOW*9.81; % Weight in N

A= Thrust_22K/W;

B = sqrt((A.^2)+(12*CDO*K));

Cl = (6*CDO)./(A+B);

%% Drag Produced

S = 125; % Wing area [m^2]

C = CDO + (K*(Cl.^2));

D = 0.5*Density_altitude.*(TAS.^2)*S.*C; % [N]

%% Power Available

P_available = TAS.*Thrust_22K;

%% Power Required

P_required = TAS.*D;

%% Excess Power

P_excess = P_available - P_required;

%% Rate of Climb (ROC)

ROC = (TAS.*(Thrust_22K - D))./W; % [m/s]

if any(ROC <=1.5)

disp('Service Ceiling.')

else

disp ('Absolute Ceiling.')

end

%% Climb Angle

X = (Thrust_22K - D)./W;

Climb_angle = asind( X ); % [Degree]

%% Time Taken to Climb

Time = Altitude./ROC; % [sec]

%% Mass Flow Rate

m_dot_f = TSFC_22K.*Thrust_22K; % [kg/s]

%% Fuel Consumed to Climb

Fuel = m_dot_f.*Time; % [kg]

Ke Yeun Yong on 21 Sep 2023

Edited: Ke Yeun Yong on 21 Sep 2023

@Torsten

I applied your coding and i got the following error in command window;

Unable to perform assignment because the left and right sides have a different number of elements.

Error in Copy_of_Calculation_22K (line 86)

Time(i+1) = (Altitude(i+1)-Altitude(i))./ROC; % [sec]

Furthermore, the time and fuel increases with altitude so i think i dont have to do sum for them. As the calculation shows the time and fuel at each altitude and not the difference between two altitude. Please correct me if I am wrong.

Thank you.

Torsten on 21 Sep 2023

Edited: Torsten on 21 Sep 2023

Open in MATLAB Online

ROC = (TAS.*(Thrust_22K - D))./W(i); % [m/s]

Use the local value for all arrays that are part of this expression.

Maybe

ROC = TAS(i)*(Thrust_22K(i)-D)/W(i);

?

We don't know. You must use the local values (at Altitude(i+1)) everywhere where needed.

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