Читать книгу Smart Grids and Micro-Grids - Umashankar Subramaniam - Страница 26
1.4.3 Comparative Analysis
ОглавлениеThe parameters of SDM are obtained using various analytical and heuristic based optimization techniques in the literature. Tables 1.8 and 1.9 presents the results of maximum voltage, current and power obtained at the MPP of SDM solar PV using Sandia model, solution using simulation of equivalent parameters, adaptive neuro-fuzzy inference system (ANFIS), GS and NR method. On calculating the absolute error (AE) of maximum power (70 W) obtained at STC for Shell SP70 using various techniques presented, the AE is minimum (0.112) using NR technique compared to other approaches. Similarly, the parameter estimation of SDM were solved by calculating the root mean square error or AE using various heuristic optimization technique like adaptive differential evolution algorithm [3], Flower Pollination Algorithm [11], slime mould optimization algorithm [7] and so on. However, these optimization techniques are stochastic and implementation of these techniques in real-time requires large number of iteration for its convergence which is not suitable for MPP estimation.
Figure 1.4 Simulation results of KD245GX (a) P-V characteristics (b) I-V characteristics.
Figure 1.5 Simulation results of SHELL SP70 (a) P-V characteristics (b) I-V characteristics.
Table 1.6 Experimental data observed from the HST60FXXXP PV module.
| T (°C) | G (W/m2) | A | Rse | Rsh | ILG | Isat | Vmpp | Impp | Pmpp |
| 36.9 | 929 | 0.8055 | 0.2716 | 7.09E4 | 7.9896 | 1.62E-11 | 30.001 | 4.7991 | 147.33 |
Figure 1.6 (a) Experimental set up of HST60FXXXP 250 W SPV panel (b) Simulated and experimental I-V curves (c) Simulated and experimental P-V curves.
Table 1.7 I-V and P-V data obtained from NR simulation and experimental set up of HST60FXXXP 250 W SPV Panel.
| NR- simulation results | Experimental results | ||||
| V(V) | I(A) | P(W) | V(V) | I(A) | P(W) |
| 37 | 0 | 0 | 37 | 0 | 0 |
| 33 | 4.0363 | 133.2 | 32.2 | 4.0559 | 130.6 |
| 31.5 | 4.8432 | 152.56 | 30.001 | 4.7991 | 147.33 |
| 21.2 | 5.6833 | 120.5 | 21 | 5.5242 | 116.01 |
| 20 | 5.775 | 115.5 | 19.8 | 5.5278 | 109.45 |
| 0 | 8.65 | 0 | 0 | 8.45 | 0 |
Table 1.8 Comparative analysis on voltage and current at MPP for Shell SP70 panel with T=25°C.
| Sandia model [22] | Based on equivalent parameters [18] | ANFIS [18] | GS [15] | NR | ||||||
| G (W/m2) | Vmpp(V) | Impp(A) | Vmpp(V) | Impp(A) | Vmpp(V) | Impp(A) | Vmpp(V) | Impp(A) | Vmpp(V) | Impp(A) |
| 1000 | 16.5 | 4.24 | 16.37 | 4.25 | 16.29 | 4.27 | 16.51 | 4.25 | 16.4975 | 4.2498 |
| 800 | 16.56 | 3.42 | 16.43 | 3.39 | 16.38 | 3.41 | 16.59 | 3.41 | 16.5814 | 3.4061 |
| 600 | 16.55 | 2.57 | 16.41 | 2.53 | 16.39 | 2.54 | 16.49 | 2.55 | 16.4755 | 2.5542 |
| 400 | 16.35 | 1.72 | 16.24 | 1.66 | 16.26 | 1.67 | 16.12 | 1.7 | 16.0935 | 1.6979 |
| 200 | 15.87 | 0.87 | 15.66 | 0.79 | 15.73 | 0.81 | 15.18 | 0.84 | 15.1603 | 0.8415 |
Table 1.9 Comparative analysis of maximum power at MPP for Shell SP70 panel with T=25°C.
| G(W/m2) | Sandia model [22] | Based on actual equivalent parameters [18] | ANFIS [18] | GS [15] | NR |
| 1000 | 69.96 | 69.5725 | 69.5583 | 70.16 | 70.1122 |
| 800 | 56.6352 | 55.6977 | 55.8558 | 56.52 | 56.4832 |
| 600 | 42.5335 | 41.5173 | 41.6306 | 42.11 | 42.0926 |
| 400 | 28.122 | 26.9584 | 27.1542 | 27.35 | 27.3231 |
| 200 | 13.8069 | 12.3714 | 12.7413 | 12.77 | 12.7591 |
