Pipelines 2
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Transcript of Pipelines 2
PIPE SUPPORTS
1
Pipe supports inside the compression station and pumping stations
AUGUST 2014
PIPE SUPPORTS
2
PRINCIPLES OF PIPELINE DESIGN
The following points should be covered during
the design of pipeline:
1. Effect of the environment
2. Routing process
3. Approval and legal considerations
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PRINCIPLES OF PIPELINE DESIGN
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PRINCIPLES OF PIPELINE DESIGN
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PRINCIPLES OF PIPELINE DESIGN
6Environmental considerations for onshore pipelines
AUGUST 2014
PRINCIPLES OF PIPELINE DESIGN
7Environmental considerations for offshore pipelines
AUGUST 2014
PRINCIPLES OF PIPELINE DESIGN
8
ROUTING PROCESS
1. Pipeline route should be as short as possible
2. Onshore pipelines the route must take into consideration:
A. Sensitive areas (Areas of populations, national parks, …etc)
B. Environment (wildlife, archaeological);
C. Geography (rocky areas, fault lines, areas of erosion)
D. Crossing (road, rail ways, rivers)
E. Location of compressor / pumping stations
F. Location of above-ground installations
AUGUST 2014
PRINCIPLES OF PIPELINE DESIGN
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ROUTING PROCESS
In addition, the route of pipeline should avoid:
1. Running parallel with high-density traffic routes
2. Running parallel to electrical power lines and other oil or
gas pipelines
3. If crossing is required, the pipeline should cross
perpendicular to the road/ railway
AUGUST 2014
PRINCIPLES OF PIPELINE DESIGN
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Pipeline routing corridor
ROUTING PROCESS
AUGUST 2014
PRINCIPLES OF PIPELINE DESIGN
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ROUTING PROCESS
Transmission pipeline routing
AUGUST 2014
DETAILED DESIGN PARAMETERS
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The following points should be taken into consideration when
determining the route of a pipeline:
1. Pipeline diameter (nominal size)
2. Find out the wall thickness (from the standard tables)
3. Material grade (suitable for the environment)
4. Maximum operating pressure and flow conditions
5. Operating temperature (fluid& environment temp.)
6. Pressure drop
7. Corrosion protection which is suitable for this route.
AUGUST 2014
FACTORS THAT INFLUNCE THE LENGTH OF A PIPELINE
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These factors are:
1. Design pressure
2. Acceptable pressure drop,
3. Pipeline diameter,
4. Wall thickness, and
5. The temperature profile
AUGUST 2014
EQUATIONS USED IN CALCULATING THE BASIC FLOW PARAMETERS FOR GAS AND LIQUID PIPELINES
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CHOOSING THE WALL THICKNESS FOR THE PIPELINE
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PIPELINE COATING
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Why we coat pipelines?
The two main methods which are commonly
used to protect pipelines are:
1.Coating
2.Cathodic protection
(CP) system
AUGUST 2014
PIPELINE COATING REQUIREMENTS
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Pipeline coating must have the following characteristics:
1.Thermal stability (will not deform under high operating
temperatures)
2.Impermeability to water and moisture;
3.Chemical stability (does not degrade owing to chemical
reaction with soil or surroundings)
4. Ease of use;
5. Economical.
AUGUST 2014
TYPICAL PIPELINE COATING METHODS
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Typical onshore pipeline coatings
AUGUST 2014
TYPICAL PIPELINE COATING METHODS
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Typical offshore pipeline coatings
AUGUST 2014
PIPELINE PROTECTION
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Methods of pipeline protection include:
1. Concrete coating
2. Increased wall thickness
3. Burial;
4. Sleeve protection;
5. Marker tapes;
6. Protective concrete slabs
AUGUST 2014