GIS APPLIED TO INFORMATION MANAGEMENT OF ANDEAN AND
RAINFOREST PIPELINE
CAMISEA - PERÚ
INTRODUCTIONDESCRIPCTION OF THE PIPELINE’S TRANSPORTING
SYSTEM BY NG – NGL PIPES
CAMISEA - PERÚ
Malvinas
Lurin
Pisco
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ELEVATION PROFILE
COAST MOUNTAINS JUNGLE
4,827mts.
Cuzco JungleAndes HighlandsOcean Pacific Coast
NG PIPELINE COMPONENTSCAMISEA
CAMISEA
LURIN
32”24”18”
517.9 km 207.9 km734 km
PCS #1
469.9 km
216.1 km 310.0 km 207.9 km
COSTA SIERRA SELVA
Description NG Pipeline
24”
595 km699.6 km
105 km
CS #1
CAMISEA
300400
102.8 km 454.5 km
NGL LINEPISCO
14 ”10”454.5 km561 km
PRS #3
470.2 km PS#4
223.9 km
PS#3
207.7 km
PS#2
107.9 km
PS#1
0 km
PRS #2 PRS #1
COSTA SIERRA SELVA
Description NGL Pipeline
NGL PIPELINES COMPONENTSCAMISEA
GOALS AND IMPLEMENTATION OF THE GEOGRAPHIC INFORMATION SYSTEM
(GIS)
SYSTEM COMPONENTS
SYSTEM ARCHITECTURE
GIS DATA SERVER (Oracle)
(ArcGIS Pipeline Data Model ‐ APDM)
PIPELINE INTEGRITY MANAGMENT
NEGOCIATIONS
SCADA
SHAREPOINT MANAGEMENTDOCUMENTS
WEB GIS
DESKTOP(ArcGIS)
CUSTOMERSAPPLICATION SERVERS
PLATFORMCORPORATE INTEGRATION
ArcSDE
DATA ENTRY – UPDATING DATA
DATA BASE(APDM)
LEGAL
NEGOTIATIONS
ENGINEERINGINTEGRITY
ENVIRONMENTAL
COMMUNITY RELATIONS
GEOTECHNICAL
PREVENTIONDAMAGE
MAINTENANCE
TRANSPORTATION
TECHNOLOGYINFORMATION
TOOLS - SYSTEM USERS
• EDITOR• VIEW• WEB
• ArcInfo 2 license• ArcEditor 4 License• Arcview 4 License• ArcGis Server
USERSExtensions:• 3D Analyst• Spatial Analyst
GeoDatabase Information Organization - APDM for Risk Assessment
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PS-3
PS-4
CONTROL POINT
STATION SERIES
MAIN ELEMENTSGEODATABASE - APDM
MAIN ELEMENTS IN THE GEODATABASE
Core ElementsControl Point
Station Series
DATABASE(APDM)
INTEGRITY
THRE
ATS
INTERNALCORROSION
EXTERNAL CORROSION
STRESS CORRSION CRACKING
EXTERNAL FORCES
INCORRECT OPERATIONS
MECHANICAL DAMAGE
MANUFACTURING DEFFECT
EQUIPMENT FAILURE
CONSTRUCTION DEFFECTS
GEO‐HAZARDS
MAIN ELEMENTSGEODATABASE
OnLine Elements
OffLine Elements
OffLineLocation: 02 Registros
OffLine: 01 Registro
Station: 1100Station: 1000
BeginStation: 1050 EndStation: 1150
RIESGO TOTAL POR FUERZAS EXTERNAS
PIM Vs GIS INTEGRATIONPRESENTATION OF RESULTS
PIM Vs GIS INTEGRATIONPRESENTATION OF RESULTS
OTHER APPLICATIONS OF GEOGRAPHIC INFORMATION SYSTEM
TgP – COGA
BASIC FUNCTIONALITIES Owners / Possessors in the ROW
BASIC FUNCTIONALITIESSPATIAL REQUEST
BASIC FUNCTIONALITIES HISTORICAL INFORMATION - DOCUMENTS
SATELLITE IMAGES AND TOPOGRAPHIC SURVEYS WITH LASER
CONTINGENCY SCENARIOS ASSESSMENT OILMAP
OILMAPIs a numerical model
that calculates the path of a supposed spillage by
land and rivers
Punto de Rotura : 92+500Punto de Control : 12Volumen de Derrame : 2993 blsTiempo de Derrame : 5 horasVelocidad río : 1 m/sVelocidad viento : 1m/sDirección de Viento : NEAncho río : 99 metros
AIRMAP is an atmospheric dispersion model designed to predict the
path and destination of the gases produced toward the atmosphere
CONTINGENCY SCENARIOS ASSESSMENTAIRMAP
CONCLUSIONS
• The Geographic Information System (GIS) TGP ‐ Coga is used permanently for users,because it has updated and well organized. Due to the complicated our reality, we havewide variety of information which often can only be related spatially, GIS will thus facilitatethe user access to information from different areas and different types of information tofacilitate decision‐making accurately and quickly.
• Geographic Information Systems have become in recent years in an important andincreasingly necessary to manage information as well as for specific studies.
• The tools and functionality of GIS, allows us to display the spatial location of the high‐riskareas, allowing an integral analysis, identifying inside the area of influence of the system:village, river network, communities, location of facilities, roads , power lines, etc. that arerelated to pipeline integrity management
• Geodatabase based on the APDM data model may be applicable to any PipelineTransportation System to facilitate data management and ensuring that assessments ofrisk and integrity management are made on reliable information and efficient way.
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