Casing Tube: Tubing&casing and 2803 other B2B products

The Benefits of Using casing Tube for Oil and gas Exploration Casing tube is an essential tool for oil and gas exploration. It is used to protect the wellbore from collapsing and to prevent the contamination of the oil and gas reserves. Casing tube also helps to ensure the safety of personnel and equipment during…

The Benefits of Using casing Tube for Oil and gas Exploration

Casing tube is an essential tool for oil and gas exploration. It is used to protect the wellbore from collapsing and to prevent the contamination of the oil and gas reserves. Casing tube also helps to ensure the safety of personnel and equipment during the exploration process.

The use of casing tube offers a number of benefits. Firstly, it helps to ensure that the wellbore remains stable and secure during the exploration process. This helps to reduce the risk of accidents and damage to the wellbore. Secondly, casing tube helps to prevent the contamination of the oil and gas reserves. This helps to ensure that the reserves remain in their natural state and are not contaminated by other substances.

casing Pipe china good factory,oil tube wholesaleprice highquality good chinese,casing pipe Chinese high-quality factory,Thirdly, casing tube helps to reduce the risk of blowouts. Blowouts can occur when the pressure of the oil and gas reserves is too high and the casing tube is not able to contain it. This can lead to serious accidents and damage to the wellbore. By using casing tube, the risk of blowouts is greatly reduced.

Finally, casing tube helps to reduce the cost of exploration. By using casing tube, the cost of drilling and exploration is reduced as it helps to reduce the amount of time and money spent on the exploration process.

In conclusion, the use of casing tube for oil and gas exploration offers a number of benefits. It helps to ensure the stability and security of the wellbore, prevents contamination of the oil and gas reserves, reduces the risk of blowouts, and reduces the cost of exploration.

understanding the different Types of Casing Tube and Their Applications in the Oil and Gas industry

Casing tubes are an essential component of the oil and gas industry, as they are used to protect and support the wellbore. Casing tubes come in a variety of sizes and materials, and each type has its own unique application. In this article, we will discuss the different types of casing tubes and their applications in the oil and gas industry.

The first type of casing tube is the surface casing. This type of casing is used to protect the wellbore from the surface environment, such as water, debris, and other contaminants. Surface casing is typically made from steel or plastic and is usually cemented in place.

Labels a           Calculated Mass c
    Nominal Linear Mass T& C b,c Wall Thick- ness       em, Mass Gain or Loss Due to End Finishing d
  Outside diameter     Inside Diameter Drift Diameter Plain- end kg
              Round Thread Buttress Thread
            wpe        
  D kg/m t D mm kg/m Short Long RC SCC
  mm   mm mm            
1 2 3 4 5 6 7 8 9 10 11 12
13 3/8 48 339.72 71.43 8.38 322.96 318.99 68.48 15.04 — 17.91
13 3/8 54.5 339.72 81.1 9.65 320.42 316.45 78.55 13.88 16.44
13 3/8 61 339.72 90.78 10.92 317.88 313.91 88.55 12.74 14.97
13 3/8 68 339.72 101.19 12.19 315.34 311.37 98.46 11.61 14.97
13 3/8 68 339.72 101.19 12.19 315.34 311.37 98.46 11.67 f 14.33
13 3/8 72 339.72 107.15 13.06 313.6 311.15 e 105.21 10.98 13.98
13 3/8 72 339.72 107.15 13.06 313.6 311.15 e 309.63 309.63 105.21 10.91 f 14.33
13 3/8 72 339.72 107.15 13.06 313.6   105.21 10.98 13.98
13 3/8 72 339.72 107.15 13.06 313.6   105.21 10.91 e  
16 65 406.4 96.73 9.53 387.4 382.57 96.73 18.59 — 20.13
16 75 406.4 111.61 11.13 384.1 379.37 108.49 16.66 18.11
16 84 406.4 125.01 12.57 381.3 376.48 122.09 14.92
16 109 406.4 162.21 16.66 373.1 368.3 160.13  
18 5/8 87.5 473.08 130.21 11.05 450.98 446.22 125.91 33.6 39.25
20 94 508 139.89 11.13 485.7 480.97 136.38 20.5 27.11 24.78
20 94 508 139.89 11.13 485.7 480.97 136.38 20.61 27.26 g 24.27 17.84 24.78
20 106.5 508 158.49 12.7 482.6 477.82 155.13 18.22   22
20 133 508 197.93 16.13 475.7 470.97 195.66 13.03   16.02
NOTE See also Figures D.1, D.2, and D.3.
a Labels are for information and assistance in ordering.
b Nominal linear masses, threaded and coupled (Column 4) are shown for information only.
c The densities of martensitic chromium steels ( L80 Types 9Cr and 13Cr) are less than those of carbon steels; The masses shown are therefore not accurate for martensitic chromium steels; A mass correction factor of 0.989 shall be used.
d Mass gain or loss due to end finishing; See 8.5.
e Drift diameter for most common bit size; This drift diameter shall be specified in the purchase agreement and marked on the pipe; See 8.10 for drift requirements.
f Based on 758 mPa minimum yield strength or greater.
g Based on 379 mPa minimum yield strength.

The second type of casing tube is the intermediate casing. This type of casing is used to protect the wellbore from the pressure and temperature changes that occur deeper in the well. Intermediate casing is typically made from steel or plastic and is usually cemented in place.

alt-4212

The third type of casing tube is the production casing. This type of casing is used to protect the wellbore from the pressure and temperature changes that occur deeper in the well, as well as to provide a pathway for the production of oil and gas. Production casing is typically made from steel or plastic and is usually cemented in place.

Finally, the fourth type of casing tube is the liner. This type of casing is used to protect the wellbore from the pressure and temperature changes that occur deeper in the well, as well as to provide a pathway for the production of oil and gas. Liner casing is typically made from steel or plastic and is usually cemented in place.

In conclusion, there are four main types of casing tubes used in the oil and gas industry: surface casing, intermediate casing, production casing, and liner casing. Each type of casing has its own unique application and is typically made from steel or plastic and is usually cemented in place. Understanding the different types of casing tubes and their applications is essential for successful oil and gas operations.

 API 5CT L80 Casing Tubingdimensions and Masses for standard Casing and for Casing Threaded with
API Round Thread and Buttress Thread
Labels a           Calculated Mass c
    Nominal Linear Mass T& C b,c Wall Thick- ness       em, Mass Gain or Loss Due to End Finishing d
  Outside Diameter     Inside Diameter Drift Diameter Plain- end kg
              Round Thread Buttress Thread
            wpe        
  D kg/m t D mm kg/m Short Long RC SCC
  mm   mm mm            
1 2 3 4 5 6 7 8 9 10 11 12
4 1/2 9.5 114.3 14.38 5.21 103.88 100.7 14.02 3.64 — 4.53 — 1.12
4 1/2 10.5 114.3 15.73 5.69 102.92 99.74 15.24 3.33 — 3.61 4.32 0.91
4 1/2 11.6 114.3 17.38 6.35 101.6 98.42 16.91 3.18 3.35 4.07 0.6
4 1/2 13.5 114.3 19.87 7.37 99.56 96.38 19.44 3.53 3.64 0.24
4 1/2 15.1 114.3 22.69 8.56 97.18 94 22.32      
5 11.5 127 17.19 5.59 115.82 112.64 16.74 4.32 — 4.85 — 5.38 — 1.24
5 13 127 19.69 6.43 114.14 110.96 19.12 4 4.51 4.99 0.61
5 15 127 22.69 7.52 111.96 108.78 22.16 3.71 4.52 4.4 0.22
5 18 127 27.19 9.19 108.62 105.44 26.7 3.45 3.76 –0.62
5 21.4 127 32.13 11.1 104.8 101.62 31.73 3.15 3.42 –0.96
5 23.2 127 34.76 12.14 102.72 99.54 34.39 2.99 3.23 –1.14
5 24.1 127 36.15 12.7 101.6 98.42 35.8      
5 1/2 14 139.7 20.91 6.2 127.3 124.12 20.41 4.6 — 5.26 — 5.71 — 0.87
5 1/2 15.5 139.7 23.48 6.98 125.74 122.56 22.85 4.36 5.31 5.41 0.58
5 1/2 17 139.7 25.72 7.72 124.26 121.08 25.13 4.14 4.5 4.84 0.45
5 1/2 20 139.7 30.05 9.17 121.36 118.18 29.52 4.37 4.31 -0.52
5 1/2 23 139.7 34.05 10.54 118.62 115.44 33.57
5 1/2 26.8 139.7 40.15 12.7 114.3 111.12 39.78
5 1/2 29.7 139.7 44.47 14.27 111.16 107.98 44.14
5 1/2 32.6 139.7 48.74 15.88 107.94 104.76 48.49
5 1/2 35.3 139.7 52.8 17.45 104.8 101.62 52.61
5 1/2 38 139.7 56.82 19.05 101.6 98.42 56.68
5 1/2 40.5 139.7 60.64 20.62 98.46 95.28 60.55
5 1/2 43.1 139.7 64.41 22.22 95.26 92.08 64.38      
6 5/8 20 168.28 29.76 7.32 153.64 150.46 29.06 5.58 6.23 6.35 0.89
6 5/8 24 168.28 35.72 8.94 150.4 147.22 35.13 4.42 5.48 5.52 0.68
6 5/8 28 168.28 41.67 10.59 147.1 143.92 41.18 4.73 4.71 –0.75
6 5/8 32 168.28 47.62 12.06 144.16 140.98 46.46 4.73 4 –1.46

Similar Posts