TY - JOUR A1 - Martin, Gugat A1 - Giesselmann, Jan A1 - Kunkel, Teresa T1 - Exponential synchronization of a nodal observer for a semilinear model for the flow in gas networks N2 - The flow of gas through networks of pipes can be modeled by coupling hyperbolic systems of partial differential equations that describe the flow through the pipes that form the edges of the graph of the network by algebraic node conditions that model the flow through the vertices of the graph. In the network, measurements of the state are available at certain points in space.Based upon these nodal observations, the complete system state can be approximated using an observer system. In this paper we present a nodal observer, and prove that the state of the observer system converges to the original state exponentially fast. Numerical experiments confirm the theoretical findings. Y1 - 2021 U6 - https://doi.org/10.1093/imamci/dnab029 CY - IMA Journal of Mathematical Control and Information ER - TY - INPR A1 - Egger, Herbert A1 - Giesselmann, Jan A1 - Philippi, Nora A1 - Kunkel, Teresa T1 - An asymptotic-preserving discretization scheme for gas transport in pipe networks N2 - We consider the simulation of barotropic flow of gas in long pipes and pipe networks. Based on a Hamiltonian reformulation of the governing system, a fully discrete approximation scheme is proposed using mixed finite elements in space and an implicit Euler method in time. Assuming the existence of a smooth subsonic solution bounded away from vacuum, a full convergence analysis is presented based on relative energy estimates. Particular attention is paid to establishing error bounds that are uniform in the friction parameter. As a consequence, the method and results also cover the parabolic problem arising in the asymptotic large friction limit. The error estimates are derived in detail for a single pipe, but using appropriate coupling conditions and the particular structure of the problem and its discretization, the main results directly generalize to pipe networks. Numerical tests are presented for illustration. Y1 - 2021 ER - TY - INPR A1 - Giesselmann, Jan A1 - Gugat, Martin A1 - Kunkel, Teresa T1 - Observer-based data assimilation for barotropic gas transport using distributed measurements N2 - We consider a state estimation problem for gas pipeline flow modeled by the one-dimensional barotropic Euler equations. In order to reconstruct the system state, we construct an observer system of Luenberger type based on distributed measurements of one state variable. First, we show the existence of Lipschitz-continuous semi-global solutions of the observer system and of the original system for initial and boundary data satisfying smallness and compatibility conditions for a single pipe and for general networks. Second, based on an extension of the relative energy method we prove that the state of the observer system converges exponentially in the long time limit towards the original system state. We show this for a single pipe and for star-shaped networks. Y1 - 2023 ER -