Schematic diagram of reflections and transmissions that contribut...Figure 8.3 Angular transmittance for a particular example of a c‐Si module....Figure 8.4 Accumulation of sand particle on PV panels.Figure 8.5 The three types of pollutants used in the experiment.Figure 8.6 Efficiency differences between the clean and the polluted pair pa...Figure 8.7 Different categories of shading losses.Figure 8.8 Sample of a horizon line.Figure 8.9 Different PV power generators considered in the study. (a) Single...Figure 8.10 Static random and dynamic shading scenarios.Figure 8.11 I. P–V curves of the PV generators during different static rando...Figure 8.12 The numbers of the PV modules shaded by wire pole.Figure 8.13 I–V curves and P–V curves of the five shaded PV modules. (a) I–V...Figure 8.14 The I–V and P–V characteristics of the module before and after t...Figure 8.15 The I–V and P–V characteristics of the module before and after t...Figure 8.16 High temporal variability of solar irradiance caused by moving c...Figure 8.17 The electrical connections for the studied PV array configuratio...Figure 8.18 Relative mismatch losses of the east‐west‐oriented SP, TCT, and ...Figure 8.19 Various paths for the leakage current from cells to the grounded...Figure 8.20 Manufacturing mismatch losses at different working conditions....Figure 8.21 PV module performance during its life time.Figure 8.22 Efficiency curve of various solar inverters.Figure 8.23 Typical power duration curve of 100 kWp PV installation.Figure 8.24 General algorithm of hybrid methods.Figure 8.25 Increasing module load with different tilt angles for Ideematec'...Figure 8.26 Example of changing the wiring strings to reduce DC cable losses...Figure 8.27 Aux consumption of plant in broad view ranging from 1 to 20 MW [...Figure 8.28 Aux consumption of plant in broad view ranging from 1 to 20 MW....Figure 8.29 Classification of failures according to the involved technology....Figure 8.30 Distribution of the registered failures in each of the PV plants...Figure 8.31 Average number of failures per kW for the different defined grou...Figure 8.32 Reparation time per failure for different PV plant components....Figure 8.33 The procedure for predicting the energy yield of a PV plant [37]...Figure 8.34 Flowchart showing how to model GPI from measured GHI [37].Figure 8.35 Estimation of DNI using Erbs decomposition model on a cloudy day...Figure 8.36 Monthly mean bias error (% difference) between measured and mode...
Guide
5 Preface
7 Acronyms
8 Symbols
11 Index
12 WILEY END USER LICENSE AGREEMENT
Pages
1 iii
2 iv
3 v
4 xiii
5 xiv
6 xv
7 xvi
8 xvii
9 xviii
10 xix
11 xx
12 xxi
13 xxii
14 xxiii
15 1
16 2
17 3
18 4
19 5
20 6
21 7
22 8
23 9
24 10
25 11
26 12
27 13
28 14
29 15
30 16
31 17
32 19
33 20
34 21
35 22
36 23
37 24
38 25
39 26
40 27
41 28