Active Electrical Distribution Network. Группа авторов

on loss reduction for Case 9Table 18.17 Ranking of models regarding voltage improvement for Case 9Table 18.18 Ranking of models based on execution time for Case 9Table 18.19 Numerical results for Case 10Table 18.20 Ranking of models based on loss reduction for Case 10Table 18.21 Ranking of models regarding voltage improvement for Case 10Table 18.22 Ranking of models based on execution time for Case 10Table 18.23 Numerical results of proposed models for Case 11Table 18.24 List of models regarding loss minimization in Case 11Table 18.25 Models based on nodal voltage enhancement of Case 11Table 18.26 Classification of models according to running time in Case 11Table 18.27 Numerical results for Case 12Table 18.28 Ranking of models based on loss reduction for Case 12Table 18.29 Ranking of models regarding voltage improvement for Case 12Table 18.30 Ranking of models based on execution time for Case 12Table 18.31 Numerical results of proposed models for Case 13Table 18.32 Arrangement of the results based on power loss....Table 18.33 Computation times for Case 13Table 18.34 Numerical results compared to other methods for Case 14

      17 Chapter 19Table 19.1 Numerical results for Example 1.Table 19.2 Ranking of methods based on execution time for Example 1.Table 19.3 Numerical results for Example 2.Table 19.4 Ranking of methods based on execution time for Example 2.Table 19.5 Numerical results for Example 3.Table 19.6 Ranking of methods based on loss reduction for Example 3.Table 19.7 Ranking of methods regarding voltage improvement for Example 3.Table 19.8 Ranking of methods based on execution time for Example 3.Table 19.9 Numerical results for Example 4.Table 19.10 Ranking of methods based on computing time for Example 4.Table 19.11 Numerical results for Example 5.Table 19.12 Ranking of methods based on loss reduction for Example 5.Table 19.13 Ranking of methods regarding voltage improvement for Example 5.Table 19.14 Ranking of methods based on execution time for Example 5.Table 19.15 Numerical results for Example 6.Table 19.16 Arrangement of methods according to loss reduction for Example 6.Table 19.17 Methods based on computational time in Example 6.Table 19.18 Methods according to voltage enhancement in Example 6.Table 19.19 Numerical results compared to other methods for Example 7.Table 19.20 Ranking of methods based on loss reduction for Example 7.Table 19.21 Ranking of methods regarding voltage improvement for Example 7.Table 19.22 Ranking of methods based on execution time for Example 7.Table 19.23 Numerical results compared to other methods for Example 8.Table 19.24 Ranking of methods based on loss reduction for Example 8.Table 19.25 Ranking of methods regarding voltage improvement for Example 8.Table 19.26 Ranking of methods based on execution time for Example 8.Table 19.27 Numerical results compared to other methods for example 9.Table 19.28 Ranking of methods based on loss reduction for Example 9.Table 19.29 Ranking of methods based on execution time for Example 9.Table 19.30 Ranking of methods regarding voltage improvement for Example 9.Table 19.31 Numerical results compared to other methods for Example 10.Table 19.32 Ranking of methods based on loss reduction for Example 10.Table 19.33 Ranking of methods regarding voltage improvement for Example 10.Table 19.34 Ranking of methods based on execution time for Example 10.Table 19.35 Numerical results of proposed model compared...Table 19.36 List of methods regarding loss minimization in Example 11.Table 19.37 Methods based on nodal voltage enhancement of Example 11.Table 19.38 Classification of solution methods according to...Table 19.39 Numerical results compared to other methods for Example 12.Table 19.40 Ranking of methods based on loss reduction for Example 12.Table 19.41 Ranking of methods regarding voltage improvement for Example 12.Table 19.42 Ranking of methods based on execution time for Example 12.Table 19.43 Numerical results of proposed model compared to other methods...Table 19.44 Arrangement of the results based on power loss reduction in Example 13.Table 19.45 Computation times for Example 13.Table 19.46 Numerical results compared to other methods for Example 14.Table 19.47 Ranking of methods based on loss reduction for Example 14.Table 19.48 Ranking of methods regarding voltage improvement for Example 14.Table 19.49 Ranking of methods based on execution time for Example 14.Table 19.50 Numerical results compared to other methods for Example 15.Table 19.51 Ranking of methods based on loss reduction for Example 15.Table 19.52 Ranking of methods regarding voltage improvement for Example 15.Table 19.53 Ranking of methods based on execution time for Example 15.

      18 Chapter 21Table 21.1 Geographical coordinates of locationsTable 21.2 Illumination level for window orientation at New DelhiTable 21.3 Illumination level for window orientation at RomeTable 21.4 Illumination level for window orientation at ReykjavikTable 21.5 Illumination level for window orientation at NairobiTable 21.6 Illumination level for window orientation at SydneyTable 21.7 Illumination level for single- and double-pane...Table 21.8 Illumination level for single- and double-glazed...Table 21.9 Glass specification sheet (Blues)Table 21.10 Glass specification sheet (metals)Table 21.11 Glass specification sheet (greens)Table 21.12 Glass specification sheet (Neutrals)

      19 Chapter 22Table 22.1 Comparison between traditional and SM functions.

      Guide

      1  Cover

      2  Title page

      3  Copyright

      4 Table of Contents

      5  Foreword

      6  Preface

      7  Acknowledgments

      8  List of Contributors

      9  List of Abbreviations

      10  Begin Reading

      11  Index

      12  End User License Agreement

      Pages

      1  i

      2  ii

      3  iii

      4  iv

      5  v

      6  vi

      7  vii

      8  viii

      9  ix

      10  x

      11  xi

      12  xii

      13 xiii

      14  xiv

      15  xv

      16 

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