2 7 8 J55 Tubing
The Benefits of Using J55 tubing in oil and gas operations 2 7 8 J55 Tubing J55 tubing is a type of steel tubing that is commonly used in oil and gas operations. It is known for its durability and strength, making it an ideal choice for these demanding applications. In this article, we will…
The Benefits of Using J55 tubing in oil and gas operations
2 7 8 J55 Tubing J55 tubing is a type of steel tubing that is commonly used in oil and gas operations. It is known for its durability and strength, making it an ideal choice for these demanding applications. In this article, we will explore the benefits of using J55 tubing in oil and gas operations. One of the main benefits of J55 tubing is its high resistance to corrosion. In oil and gas operations, the tubing is exposed to various corrosive substances, such as hydrogen sulfide and carbon dioxide. These substances can cause significant damage to the tubing, leading to leaks and other issues. However, J55 tubing is specifically designed to withstand these corrosive environments, ensuring the integrity of the well. Another advantage of J55 tubing is its excellent mechanical properties. It has a high tensile strength, which means it can withstand high pressure and heavy loads. This is crucial in oil and gas operations, where the tubing is subjected to extreme conditions. The high tensile strength of J55 tubing ensures that it can handle the stress and strain of these operations without failing. for Weishaupt Oil BurnerFurthermore, J55 tubing has good ductility, which allows it to be easily formed and bent without cracking. This is important in oil and gas operations, where the tubing needs to be shaped to fit the specific requirements of the well. The ductility of J55 tubing makes it easier to install and maintain, saving time and effort. In addition to its mechanical properties, J55 tubing is also known for its excellent weldability. welding is a common method used to join sections of tubing together in oil and gas operations. The weldability of J55 tubing ensures that the joints are strong and reliable, minimizing the risk of leaks or failures. This is crucial for the safety and efficiency of the operation. Another benefit of J55 tubing is its cost-effectiveness. compared to other types of tubing, such as stainless steel or alloy tubing, J55 tubing is more affordable. This makes it a popular choice for oil and gas Companies looking to reduce costs without compromising on quality. The cost-effectiveness of J55 tubing allows companies to allocate their resources more efficiently, leading to increased profitability. Furthermore, J55 tubing is readily available in the market. It is a standard grade of tubing that is widely used in the industry. This means that companies can easily source J55 tubing from various Suppliers, ensuring a steady supply for their operations. The availability of J55 tubing reduces the risk of delays or disruptionsLabels 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. |