Design DocumentsProject:Upgrading t

Design Documents



Project:
Upgrading the Rainfall, Storm and Lightning Detection Capabilities of National Hydro-Meteorological Service, Vietnam



Package Number: FL-TB1

Draft: VietnamCC_Design_Document_20150902.docx
 


Table of Contents
LIST OF FIGURES 5
GENERAL INTRODUCTION OF PROJECT 9
1 LEGAL BASIS 11
1.1 LEGAL BASIS FOR CONSTRUCTION DESIGN 11
1.2 BASIS FOR TOTAL COST ESTIMATE 11
2 ANALYSING PRESENT STATUS, DESIGN TASK AND APPLICATION OF TECHNICAL CRITERIA 12
2.1 ANALYSING PRESENT STATUS 12
2.2 DESIGN TASK 18
2.2.1 Content 18
2.2.2 Requirements 19
2.3 APPLICATION OF TECHNICAL STANDARDS AND REGULATIONS 26
3 INTRODUCTION OF WEATHER RADAR AND LIGHTNING DETECTION SYSTEM 28
3.1 TECHNICAL SPECIFICATION OF WEATHER RADAR 28
3.1.1 C Band 28
3.1.2 S Band 28
3.1.3 Analyzing for Bands Selection 29
3.1.4 Analyzing for Applying Technology 29
3.2 TECHNICAL SPECIFICATION OF LIGHTNING DETECTION SYSTEM 34
3.2.1 Analyzing for Applying Technology 34
4 DESIGN FOR NEW BUILT WEATHER RADAR 38
4.1 ANALYZING THE SURVEY DATA 38
4.1.1 Viet Tri site 38
4.1.2 Nha Trang site 39
4.1.3 Qui Nhon site 41
4.1.4 Pleiku site 43
4.1.5 Pha Din site 44
4.2 GENERAL DESIGN 48
4.2.1 Radar System design overview 48
4.2.2 Antenna and Pedestal 50
4.2.3 Radome 59
4.2.4 Radar Safety System and Power Distribution 61
4.2.5 Radar Equipment Cabinet 64
4.2.6 IRIS™/Radar Data Acquisition Software 85
4.2.7 IRIS Analysis 87
4.2.8 Integration of other meteorological systems to IRIS 97
4.2.9 IRIS Display 99
4.2.10 IRIS Vision 100
4.2.11 Online user and admin help 105
4.2.12 Data Archiving and Retrieving with IRIS 106
4.3 DETAIL DESIGN 109
4.3.1 Weather Radars Overview 109
4.3.2 Weather Radar Central Site and Composite 112
5 DESIGN FOR UPGRADING WEATHER RADAR 115
5.1 ANALYZING THE SURVEY DATA 115
5.1.1 Nha Be 115
5.1.2 Tam Ky 117
5.1.3 Dong Ha 119
5.2 GENERAL DESIGN 121
5.3 DETAIL DESIGN 122
5.3.1 Weather Radar Upgrades 122
5.3.2 Description of upgrade components 123
6 DESIGN FOR LIGHTNING DETECTION SYSTEM 131
6.1 ANALYZING THE SURVEY DATA korjaa 131
6.1.1 Scope 131
6.1.2 Site Locations 132
6.1.3 Proposed Sites 134
6.2 GENERAL DESIGN 152
6.3 DETAIL DESIGN 163
7 DESIGN FOR INTEGRATING INFORMATION AND WEATHER PRODUCTION SYSTEM (SMARTMET) 168
7.1 GENERAL DESIGN 168
7.2 DETAIL DESIGN 177
8 DESIGN FOR INFRASTRUCTURE SYSTEM 180
8.1 NETWORK COMMUNICATION SYSTEM 180
8.1.1 Bandwidth requirement 180
8.1.2 Bandwidth and transmission capacity (link budget) calculation 180
8.1.3 Layout system 180
8.2 POWER SUPPLY SYSTEM 180
8.2.1 Demand and capacity calculation 180
8.2.2 System Design 181
8.2.3 System Layout 182
8.3 FOUNDATION AND TOWER OF WEATHER RADAR 183
8.3.1 WEATHER RADAR TOWER AND SHELTER 183
8.3.2 RADAR TOWER FOUNDATION 187
8.4 FOUNDATION AND MAST FOR LIGHTNING DETECTION SENSOR 189
8.4.1 Overview 189
8.4.2 Ground-Mount Installation 190
8.4.3 Sensor Site Layout and Alignment 190
8.4.4 Mast and Foundation General Information 192
9 DESIGN FOR SOFTWARE SYSTEM 194
9.1 TECHNOLOGY SOLUTION 194
9.1.1 Data flow diagram in the system 194
9.1.2 Architecture of software system 195
9.1.3 Data displaying and data mining layer 195
9.1.4 Data processing layer 197
9.1.5 Data warehousing layer 210
9.1.6 Deployment system model 210
9.2 TECHNICAL SPECIFICATION 211
9.2.1 General requirements 211
9.2.2 Functional requirements 211
9.2.3 Requirements for safety and security 211
9.2.4 Requirements for interface 211
9.2.5 Requirements for product 211
9.2.6 Requirements for OS 213
9.3 USECASE DESIGN 214
10 LIST OF INSTALLED EQUIPMENT 220
11 DESIGN DOCUMENTS, SPECIFICATIONS AND TECHNICAL INSTRUCTIONS 229
12 GUIDELINE FOR IMPLEMENTATION 230
13 TRAINING, TECHNOLOGY TRANSFER 232
14 TOTAL COST 237
14.1 SUMMARY OF TOTAL COSTS 237
14.2 DETAIL OF PROJECT COSTS TO BE CHANGED 237
15 IMPLEMENTATION PLAN 251
16 CONCLUSIONS AND RECOMMENDATIONS 253
16.1 CONCLUSION 253
16.2 RECOMMENDATIONS 253


 
LIST OF FIGURES
Figure 1 Beam blockage calculation 14
Figure 2 The locations of the new and existing weather radars 15
Figure 3 Example of radar composite in Malaysia 16
Figure 4 Lightning data overlay on Atlantic satellite images 17
Figure 5 Viet Tri radar location on top the hill 38
Figure 6 View from top 39
Figure 7 Path to hilltop 39
Figure 8 Road to Nha Trang site 40
Figure 9 Nha Trang site 41
Figure 10 Qui Nhon site 41
Figure 11 Masts next to Qui Nhon site 42
Figure 12 Road to Qui Nhon site and ATC radar 43
Figure 13 Pleiku radar site 44
Figure 14 View from Pleiku site 44
Figure 15 Pha Din tower 46
Figure 16 Road to radar site 46
Figure 17 Front yard 47
Figure 18 Tower top layout 47
Figure 19 WRM200 Block Diagram 49
Figure 20 Radar Cabinet 50
Figure 21 WRA111 Dual Polarization Antenna 51
Figure 22 Waveguides Connected to the Orthomode Feed 52
Figure 23 WRA111 Antenna Beam Pattern 53
Figure 24 Antenna set up time with 5 degrees elevation step 55
Figure 25 WRP211 Antenna Pedestal 56
Figure 26 Details of Pedestal Design 57
Figure 27 Pedestal Protection Unit (PPU) 58
Figure 28 Radome (logo not included in delivery) 59
Figure 29 Main Distribution Unit (MDU) 62
Figure 30 Backup Battery Unit 62
Figure 31 Weather Radar UPS 63
Figure 32 Radar Power Supply and Cabling Diagram 64
Figure 33 WRM200 Cabinet 65
Figure 34 Waveguide Assembly 66
Figure 35 Console with LCD Display, Keyboard and Mouse 67
Figure 36 Cabinet Protection Unit 67
Figure 37 Power Distribution Unit 67
Figure 38 Magnetron Transmitter 69
Figure 39 Receiver Signal Flow Diagram 70
Figure 40 Typical response curve of the receiver 71
Figure 41 Dual Polarization Receiver Configuration 72
Figure 42 The RVP900™ IF Digital Receiver (IFDR) 73
Figure 43 RCP8 IO62 PCI card and IO connector panel 74
Figure 44 Overview of the Lightning Protection System 76
Figure 45 BITEX Main Screen 77
Figure 46 BITEX Transmitter Screen 78
Figure 47 BITEX Receiver Screen 78
Figure 48 BITEX General Screen 78
Figure 49 BITEX Antenna Screen 79
Figure 50 BITEX time history plot 79
Figure 51 Example of Message Log File 80
Figure 52 Example of a Radar Network Configuration 80
Figure 53 ASCOPE Utility 81
Figure 54 ZAUTO Utility 82
Figure 55 ANTENNA Utility 83
Figure 56 IRIS Main Menu 84
Figure 57 Radar Status Menu 84
Figure 58 IRIS Main Menu 86
Figure 59 Radar Status Menu 86
Figure 60 IRIS Catch display 89
Figure 61 IRIS DWELL 90
Figure 62 IRIS DWELL 90
Figure 63 IRIS NDOP 92
Figure 64 IRIS COMP configuration 92
Figure 65 Projection menu 93
Figure 66 IRIS COMP Configuration 94
Figure 67 IRIS Shear example 96
Figure 68 IRIS Shear alert example 96
Figure 69 IRIS Ribbon Display 96
Figure 70 IRIS Lightning 97
Figure 71 IRIS Quick-Look Window 99
Figure 72 Live Action Tool 100
Figure 73 IRIS Vision user interface. 102
Figure 74 IRIS Vision servers and client connection 103
Figure 75 Normal user interface 104
Figure 76 Extended Kiosk view 105
Figure 77 Example weather radar system 109
Figure 78 Weather Radar System block diagram 110
Figure 79 Configuration example of the Central Station 112
Figure 80 Weather Radar Central Site and Composite system 113
Figure 81 Nha Be Radar 116
Figure 82 Nha Be Equipment 116
Figure 83 Tam Ky Radar 118
Figure 84 Tam Ky Equipment 118
Figure 85 Dong Ha Radar 120
Figure 86 Dong Ha Equipment 120
Figure 87 Block Diagram of Radar Upgrade 123
Figure 88 RVP900 Components 124
Figure 89 Custom Panel Interface 124
Figure 90 Functional block diagram of C-band receiver 125
Figure 91 C-band Radar Receiver Parts 126
Figure 92 KVM console 127
Figure 93 C-band transmitter 128
Figure 94 IRIS Display user interface 129
Figure 95 Weather Radar Upgrade 130
Figure 96 Vietnam Map Sensor Proposed Sites 132
Figure 97 Lao Cai site overview 134
Figure 98 Lao Cai site map 134
Figure 99 Viet Tri site overview 135
Figure 100 Viet Tri site map 135
Figure 101 Son La site overview 136
Figure 102 Son La site map 136
Figure 103 Cao Bang site overview 137
Figure 104 Cao Bang site map 137
Figure 105 Phu Lien site overview 138
Figure 106 Phu Lien site map 138
Figure 107 Ha Dong site overview 139
Figure 108 Ha Dong site map 139
Figure 109 Thanh Hoa site overview 140
Figure 110 Thanh Hoa site map 140
Figure 111 Tuong Duong site overview 141
Figure 112 Tuong Duong site map 141
Figure 113 Vinh site overview 142
Figure 114 Vinh site map 142
Figure 115 Dong Hoi site overview 143
Figure 116 Dong Hoi site map 143
Figure 117 Da Nang site overview 144
Figure 118 Da Nang site map 144
Figure 119 Quy Nhon site overview 145
Figure 120 Quy Nhon site map 145
Figure 121 Nha Trang site overview 146
Figure 122 Nha Trang site map 146
Figure 123 Phan Thiet site overview 147
Figure 124 Phan Thiet site map 147
Figure 125 Pleiku site overview 148
Figure 126 Pleiku site map 148
Figure 127 Chau doc site overview 149
Figure 128 Chau Doc site map 149
Figure 129 Ca Mau site overview 150
Figure 130 Ca Mau site map 150
Figure 131 Nha Be site overview 151
Figure 132 Nha Be site map 151
Figure 133 Magnetic Direction Finding 152
Figure 134 Time of Arrival technology 152
Figure 135 Standard ground mound setup. 153
Figure 136 Sensor View and Clearance. 154
Figure 137 LS7002 Sensor with standard 2m mast 155
Figure 138 Total Lightning Processor, web-based interface. 159
Figure 139 Total Lightning Processor, graphical tools. 159
Figure 140 Total Lightning Processor, performance mapping. 160
Figure 141 Total Lightning Processor, Archive management 160
Figure 142 LTS2005 Display , real-time thunderstorm cell mode. 162
Figure 143 LTS2005 Cell display for nowcasting 162
Figure 144 LTS2005 Display, real-time discharge mode. 163
Figure 145 Block diagram of the Lightning Detection Network 164
Figure 146 Estimated Cloud-to-Ground Lightning Detection Efficiency 165
Figure 147 Estimated Cloud-to-Ground Lightning Location Accuracy 165
Figure 148 LS7002 Lightning Detection Sensor 166
Figure 149 SmartMet Process from Observations to Products. 169
Figure 150 SmartMet Forecaster Workstation 169
Fi