How to deduct obtained fuel value from initial weight

Question

Ke Yeun Yong 2023 年 9 月 21 日

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https://jp.mathworks.com/matlabcentral/answers/2024207-how-to-deduct-obtained-fuel-value-from-initial-weight

編集済み: Ke Yeun Yong 2023 年 9 月 21 日

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 2023 年 9 月 21 日

編集済み: William Rose 2023 年 9 月 21 日

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

Dyuman Joshi 2023 年 9 月 21 日

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 2023 年 9 月 21 日

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https://jp.mathworks.com/matlabcentral/answers/2024207-how-to-deduct-obtained-fuel-value-from-initial-weight#answer_1315402

編集済み: Torsten 2023 年 9 月 21 日

MATLAB Online で開く

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 2023 年 9 月 21 日

@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 2023 年 9 月 21 日

編集済み: Ke Yeun Yong 2023 年 9 月 21 日

@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 2023 年 9 月 21 日

編集済み: Torsten 2023 年 9 月 21 日

MATLAB Online で開く

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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