Higher-Resolution Numerical Solution for 2-D Transient Natural Gas Pipeline Flows

Abstract: Reliable modeling and prediction of transients features in transmission pipelines are desirable for optimal control of gas deliverability, design and implementation of active controls, and modeling of operational behavior of network peripheral equipment (e.g., chokes, valves, compressors, etc.). A numerical procedure is developed to simulate transient phenomena in a 2-D natural gas flow. Natural gas flow in a pipe is governed by hydrodynamic equations that are highly non-linear and hyperbolic. In this paper, a… Show more

“…According to previous studies [6,7] the MOL technique has been proved a reliable method for the solution of transients in gas pipeline systems. A common feature of these approaches is the use of a fixed spatial mesh.…”

Transient gas flow simulation using an Adaptive Method of Lines

“…According to previous studies [6,7] the MOL technique has been proved a reliable method for the solution of transients in gas pipeline systems. A common feature of these approaches is the use of a fixed spatial mesh.…”

Transient gas flow simulation using an Adaptive Method of Lines

“…Ibraheem and Adewumi (1996) developed a numerical procedure to simulate transient phenomena in a 2-D natural gas flow using a special Runge-Kutta method to model accurate evolution of flow characteristics. Thus, the Total Variation Diminishing (TVD) technique can be used with higher-order accuracy in order to resolve sharp discontinuous fronts.…”

Virtual Pipeline System Testbed to Optimize the U.S. Natural Gas Transmission Pipeline System

Transient modeling of natural gas in pipeline networks by two non-iterative explicit and implicit finite volume methods