Are similar. That is certainly why the price of the rest with the low voltage elements has been calculated for the cases studied, along with a possible regression has been generated that represents the cost variation in /Module as a function from the quantity of modules [36]. Within the generation of the prior graph, the price of the TS has been discounted, to include things like only the expenses that could be anticipated in low voltage. If the presence of a transformation center is essential to improve tension, its value should be regarded separately. On the other hand, in the case of utilizing modules of 60 cells, that are proportionally smaller and much less potent than the modules of 72 cells, the equation may have to become corrected having a correction issue. Therefore, the equation developed that permits calculating the sale value of a photovoltaic installation benefits:1000 Pmodule Pinv Pest]Pp439.9Nmod f cNmod)-0.259 HV (1- GM)CAPEX =(15)where, Pmodule: Module cost, in EUR/Wp. Pinv: Inverters’ expense, in EUR/Wp Pest: Structures expense, in EUR/Wp Pp: Total peak power in the installation, calculated in step 1.Energies 2021, 14,14 offc: Correction issue. Values: 60-cell modules, fc = 5/6 72-cell modules, fc = 1 This correction factor makes it possible for that within the plant’s final cost, it’s regarded as that the 60-cell modules present much less power. Consequently, the cost of wiring, grounds, and protections that they entail is proportionally reduced than the 72-cell modules. Nmod: number of modules from the plant, calculated by clearing Equation (7). HV: price from the voltage raising method if essential GM: gross margin with the facility, office charges, and industrial profit. 12 (six 6) is proposed as a reference value The OPEX is obtained straight from Equation (1). 2.5.four. Numerical Modeling with the LCOE The calculation in the LCOE for the case of photovoltaic energy is translated into Equation (2). When developing a numerical model, the complication is the fact that this equation is decomposed into a set of components in both summations on the equation, so its calculation can’t be created quickly. Nonetheless, some equations simplify the calculation, producing an error related to the discount rate value. The created equation features a capital recovery issue, CRF, which corrects the depreciation impact more than time triggered by the discount price. This CRF has the equation [37,38]: r (1 r) n CFR = (16) (1 r) n – 1 Multiplying this factor by the elements in the equation that enter the money flow in year 0 (CAPEX) The following equation is generated: LCOE MWh=(1 L)(1( r)n) 1 APEX OPEX -Productionyear 1 ( MWh)r 1rnyear(17)exactly where L is the price from the creating license with respect to CAPEX, r the discount rate, and n the years with the valuable life of the installation. The following approximation has been made: a=0 In other words, the effects of the degradation with the modules will not be regarded. This simplification increases the precision on the model because the tendency for high discount rates is always to give LCOE values higher than the anticipated value. For that reason, eliminating the impact with the degradation on the modules inside the equation, the values predicted by the model are closer towards the actual values [38]. 3. Benefits and Discussion three.1. Installable Energy Evaluation Figure four shows the installable energy for every single of the 30 simulated installations obtained in the final results in the Helioscope software. As is often seen, an increase within the inclination causes a decrease within the installable power for flat roofs given that it is Karrikinolide site actually essential to enhance th.