期刊
JOURNAL OF HYDROLOGY
卷 557, 期 -, 页码 668-678出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.jhydrol.2017.12.060
关键词
Shallow groundwater temperature; 3D subsurface heat transport model; Regional thermal groundwater management; Vertically averaged groundwater temperature; Time-depth diagram of groundwater temperature
资金
- Austrian Ministry for Transport, Innovation and Technology (BMVIT) through the Zielvereinbarungsprojekt Kompetenzzentrum Grundwasser modellierung
For the shallow Westliches Leibnitzer feld aquifer (45 km(2)) we applied the recently developed methodology by Kupfersberger et al. (2017a) to derive the thermal upper boundary for a 3D heat transport model from observed air temperatures. We distinguished between land uses of grass and agriculture, sealed surfaces, forest and water bodies. To represent the heat flux from heated buildings and the mixture between different land surfaces in urban areas we ran the 1D vertical heat conduction module SoilTemp which is coupled to the heat transport model (using FEFLOW) on a time step basis. Over a simulation period of 23 years the comparison between measured and observed groundwater temperatures yielded NSE values ranging from 0.41 to 0.92 including readings at different depths. The model results showed that the thermal input signals lead to distinctly different vertical groundwater temperature distributions. To overcome the influence of specific warm or cold years we introduced the computation of an annual averaged groundwater temperature profile. With respect to the use of groundwater cooling or heating facilities we evaluated the application of vertically averaged statistical groundwater temperature distributions compared to the use of temperature distributions at selected dates. We concluded that the heat transport model serves well as an aquifer scale management tool to optimize the use of the shallow subsurface for thermal purposes and to analyze the impacts of corresponding measures on groundwater temperatures. (C) 2017 Elsevier B.V. All rights reserved.
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