It can be used to calculate the natural gas pipeline flow rate with the Weymouth equation, the Panhandle A equation and the Panhandle B equation. PE Pipe Dimensions . Example Spreadsheet for Natural Gas Pipeline Flow Calculations A spreadsheet for Natural Gas Pipeline Flow Calculations is partially shown in the image below. You can use the calculator for flow rate and pressure drop calculation in a constant diameter, natural gas pipeline. Panhandle-B, IGT equation.\displaystyle \displaystyle Q = 433.49*E\left(\frac{T_{b}}{P_{b}}\right)\left(\frac{P_{1}^{2}-e^{s}P_{2}^{2}}{GT_{f}L_{e}Z}\right)^{0.5}*D^{8/3} \displaystyle \displaystyle Q = 77.54\left(\frac{T_{b}}{P_{b}}\right)\left(\frac{P_{1}^2-e^sP_{2}^2}{GT_{f}L_{e}Zf}\right)^{0.5}*D^{2.5}\displaystyle \displaystyle Re = 0.0004778\left(\frac{P_{b}}{T_{b}}\right)\left(\frac{GQ}{\mu D}\right)\displaystyle \displaystyle \frac{1}{\sqrt{f}} = -2.\log_{10}\left(\frac{\epsilon}{3.7D}+\frac{2.51}{Re\sqrt{f}}\right)\displaystyle \displaystyle Q = 77.54\left(\frac{T_{b}}{P_{b}}\right)\left(\frac{P_{1}^2-e^sP_{2}^2}{GT_{f}L_{e}Zf}\right)^{0.5}*D^{2.5}\displaystyle \displaystyle F = \frac{2}{\sqrt{f}}\displaystyle \displaystyle F = 4\log_{10}\frac{3.7D}{\epsilon}\displaystyle \displaystyle F = 4D_{f}\log_{10}\frac{Re}{1.4125F_{t}}\displaystyle \displaystyle F_{t} = 4\log_{10}\frac{Re}{F_{t}}-0.6\displaystyle \displaystyle Q = 435.87E\left(\frac{T_{b}}{P_{b}}\right)^{1.0788}\left(\frac{P_{1}^2-e^sP_{2}^2}{T_{f}L_{e}ZG^{0.8538}}\right)^{0.5394}D^{2.6182}\displaystyle \displaystyle Q = 737E\left(\frac{T_{b}}{P_{b}}\right)^{1.02}\left(\frac{P_{1}^2-e^sP_{2}^2}{T_{f}L_{e}ZG^{0.961}}\right)^{0.51}D^{2.53}\displaystyle \displaystyle Q = 136.9E\left(\frac{T_{b}}{P_{b}}\right)\left(\frac{P_{1}^2-e^sP_{2}^2}{T_{f}L_{e}\mu^{0.2}G^{0.8}}\right)^{0.555}D^{2.667} At the gas processing facility, natural gas liquids (NGLs) like ethane, propane and butane, are separated from the natural gas, and contaminants like water, carbon dioxide and hydrogen sulfide are removed, before being transported via liquid pipelines to oil r… Friction factor calculated for pipe roughness and Reynolds number; most popular equation for general gas transmission pipelines.Modified Colebrook equation based on US Bureau of Mines experiments; gives higher pressure drop compared to original Colebrook equation.Does not consider pipe roughness; uses an efficiency factor used for high-pressure gas gathering systems; most conservative equation that gives highest pressure drop for given flow rate.Transmission factor calculated for partially turbulent and fully turbulent flow considering roughness, bend index, and Reynolds number.Panhandle equations do not consider pipe roughness; instead, an efficiency factor is used; less conservative than Colebrook or AGA.The IGT equation proposed by the Institute of Gas Technology is also known as the IGT distribution equation. This reduces the volume of the natural gas being transported (by up to 600 times), as …

inch. Natural Gas Pipeline - Flow Rate. Wall Thickness, t. inch.

Pipe Nominal Size (NPS) Schedule. The calculator enables calculation when natural gas is considered as a compressible or incompressible fluid. Outer Diameter, OD. q = 3550 k ( h / l SG) 1/2 (1) where . Imperial Metric Steel Pipe Dimensions . Natural Gas Pipeline Sizing Home Fluid Flow Natural Gas Pipeline Sizing This web application does the Natural Gas Pipeline Sizing calculation based on General flow equation, AGA, Weymouth, Panhandle-A, Panhandle-B, IGT equation. d = inside diameter pipe (in) There are numerous equations that can be used to make natural gas pipeline flow calculations depending upon various factors, such as the magnitude of the pressure drop, the pipe diameter, the length of the pipeline, the Reynolds number, and whether the flow can be considered isothermal or adiabatic. This calculator is designed to calculate the flow or pressure drop in gas pipelines and gas distribution networks. The capacity of a low pressure natural gas (less than 1 psi, 6.9 kPa) pipe line with a small pressure loss can be calculated with the Spitzglass formula. The calculator also includes a calculation of the pressure dr…

q = natural gas volume flow (cfh) h = pressure drop (in Water Column) l = length of pipe (ft) k = [d 5 / (1 + 3.6 / d + 0.03 d)] 1/2. Natural gas that is transported through interstate pipelines travels at high pressure in the pipeline, at pressures anywhere from 200 to 1500 pounds per square inch (psi). This web application does the Natural Gas Pipeline Sizing calculation based on General flow equation, AGA, Weymouth, Panhandle-A, Calculate the compressibility factor for natural gas with specified average gas pressure and temperature and known specific gravity. Clearing the Area.

Pipe Dimension Standard. Natural gas comes out of the ground under pressure, so the most effective way to transport it is using a series of compressor stations along the pipeline. Familiarity with the natural gas properties, density, specific gravity, molecular weight, compressibility factor, and viscosity, and their use in pipeline flow calculations. The next phase involves clearing the path for the natural gas pipeline and …


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