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+// A Texbook on POWER SYSTEM ENGINEERING

+// A.Chakrabarti, M.L.Soni, P.V.Gupta, U.S.Bhatnagar

+// DHANPAT RAI & Co.

+// SECOND EDITION 

+

+// PART I : GENERATION

+// CHAPTER 7: TARIFFS AND ECONOMIC ASPECTS IN POWER GENERATION

+

+// EXAMPLE : 7.12 :

+// Page number 76-77

+clear ; clc ; close ; // Clear the work space and console

+

+// Given data

+cap_installed = 500.0           // Installed capacity of the station(MW)

+CF = 0.45                       // Capacity factor

+LF = 0.6                        // Annual laod factor

+cost_fueloil = 10.0*10**7       // Annual cost of fuel,oil etc(Rs)

+capital_cost = 10**9            // Capital cost(Rs)

+interest = 0.15                 // Interest and depreciation

+

+// Calculations

+// Case(i)

+MD = cap_installed*CF/LF                                    // Maximum demand(MW)

+cap_reserve = cap_installed-MD                              // Reserve capacity(MW)

+// Case(ii)

+hours_year = 365.0*24                                       // Total hours in a year

+units_gen = MD*10**3*LF*hours_year                          // Units generated per annum(kWh)

+fixed_charge = interest*capital_cost                        // Annual fixed charges(Rs)

+running_charge = cost_fueloil                               // Annual running charges(Rs)

+annual_charge = fixed_charge+running_charge                 // Total annual charges(Rs)

+cost_unit = annual_charge*100/units_gen                     // Cost per kWh generated(Paise)

+

+// Results

+disp("PART I - EXAMPLE : 7.12 : SOLUTION :-")

+printf("\nCase(i) : Minimum reserve capacity of station = %.f MW", cap_reserve)

+printf("\nCase(ii): Cost per kWh generated = %.f paise", cost_unit)