B1.2 - Gas Source State Estimation with Reynolds-Averaged Dispersion Model and Time-Averaged Measurements

A. Raffeiner; R. Pohle; J. Chen; A. J. Lilienthal

B1.2 - Gas Source State Estimation with Reynolds-Averaged Dispersion Model and Time-Averaged Measurements

Event: SMSI 2025
2025-05-06 - 2025-05-08
Nürnberg
Band: Lectures
Chapter: B1 - Multimodal IoT Devices
Author(s): A. Raffeiner, R. Pohle - Siemens AG, Munich (Germany), J. Chen, A. Lilienthal - Technical University of Munich, Munich (Germany)
Pages: 75 - 76
DOI: 10.5162/SMSI2025/B1.2
ISBN: 978-3-910600-06-5
Price: free

Abstract

In this work, the Gas Source State Estimation (GSSE) problem in non-trivial geometries is approached by combining a non-stationary gas dispersion Partial Differential Equation (PDE) with in-situ gas measurements under the assumption of known flow. The GSSE problem is formulated as an optimization problem with PDE constraints and solved efficiently using the adjoint method. The approach is simulatively validated on a 2D problem with laminar flow around a circular obstacle and data from gas dispersion simulations. Thereby, a single Gaussian gas source could be localized accurately for most trials with randomly placed sensor.

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