Stainless Steel 316L Tube Settler for Oil Gas Treatment
benefits of Using stainless steel 316L Tube Settler in Oil and gas treatment processes Stainless Steel 316L Tube Settlers are a crucial component in the oil and gas treatment process. These tube settlers are designed to efficiently separate solids from liquids, making them an essential tool in the industry. There are several benefits to using…
benefits of Using stainless steel 316L Tube Settler in Oil and gas treatment processes
Stainless Steel 316L Tube Settlers are a crucial component in the oil and gas treatment process. These tube settlers are designed to efficiently separate solids from liquids, making them an essential tool in the industry. There are several benefits to using stainless steel 316L tube settlers in oil and gas treatment processes. oilfield Casing PipesOne of the main advantages of using stainless steel 316L tube settlers is their durability. Stainless steel is known for its strength and resistance to corrosion, making it an ideal material for use in harsh industrial environments. This durability ensures that the tube settlers will have a long lifespan and require minimal Maintenance, saving time and money in the long run. In addition to their durability, stainless steel 316L tube settlers are also highly efficient at separating solids from liquids. The design of the tube settlers allows for a large surface area for the settling process to take place, ensuring that solids are effectively removed from the liquid stream. This efficiency helps to improve the overall quality of the treated water, making it suitable for reuse or discharge into the environment. Another benefit of using stainless steel 316L tube settlers in oil and gas treatment processes is their versatility. These tube settlers can be easily customized to fit the specific needs of a particular treatment system, making them a flexible option for a wide range of applications. Whether treating produced water from oil and gas operations or removing contaminants from wastewater, stainless steel 316L tube settlers can be tailored to meet the requirements of the process. Furthermore, stainless steel 316L tube settlers are environmentally friendly. By effectively removing solids from the liquid stream, these tube settlers help to reduce the amount of waste generated during the treatment process. This not only benefits the environment but also helps to comply with regulations regarding the disposal of wastewater in the oil and gas industry. In conclusion, stainless steel 316L tube settlers offer a range of benefits for oil and gas treatment processes. Their durability, efficiency, versatility, and environmental friendliness make them an ideal choice for separating solids from liquids in industrial applications. By using stainless steel 316L tube settlers, Companies can improve the quality of their treated water, reduce maintenance costs, and minimize their environmental impact. Overall, stainless steel 316L tube settlers are a valuable tool in the oil and gas industry, helping to ensure the efficient and effective treatment of wastewater and produced water.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. |