GIS platform for management of shallow geothermal resources
This thesis promotes an efficient use of shallow geothermal energy by means of an integrated management system to organize its exploitation. Shallow geothermal energy is a renewable resource based on thermal energy exchange with the ground. Due to the growth in demand for this energy, the developmen...
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| Formato: | tesis doctoral |
| Estado: | Versión publicada |
| Fecha de publicación: | 2016 |
| País: | España |
| Recursos: | CBUC, CESCA |
| Repositorio: | TDR. Tesis Doctorales en Red |
| OAI Identifier: | oai:www.tdx.cat:10803/393738 |
| Acesso em linha: | http://hdl.handle.net/10803/393738 https://dx.doi.org/10.5821/dissertation-2117-96311 |
| Access Level: | acceso abierto |
| Palavra-chave: | Àrees temàtiques de la UPC::Enginyeria civil 004 55 624 |
| Resumo: | This thesis promotes an efficient use of shallow geothermal energy by means of an integrated management system to organize its exploitation. Shallow geothermal energy is a renewable resource based on thermal energy exchange with the ground. Due to the growth in demand for this energy, the development of management techniques to organize the exploitation of this resource is mandatory to protect both groundwater and the users' rights. Shallow geothermal performance of underground is closely related to groundwater behavior, so it is necessary to understand and improve the knowledge about it. Thus, an integrated methodology is proposed for the 3D visualization of underground resources related to groundwater. A set of tools named HEROS3D was developed in a GIS environment to support the generation of 3D entities representing geological, hydrogeological, hydrochemical and geothermal features. The GIS technology also gives a wide-ranging support to environmental modeling, either conceptual or numerical, especially to groundwater modeling. However, there is a scarcity of tools to implement the conceptual model in numerical modeling platforms. This transition needs of specific methodologies to adapt the geometries and alpha-numerical data from the conceptual model to the numerical model to get optimal numerical results. Although most necessities can be satisfied with inherent GIS tools, there are particular steps in the implementation of hydrogeological conceptual model into the numerical modeling software that have not been solved yet. To overcome this gap, a set of tools is presented, named ArcArAz. It focuses on the configuration of geometry and parameterization for groundwater numerical models. Once both the hydrogeological conceptual model and the numerical model are defined, a solid basis for management of Shallow Geothermal energy is available. This thesis proposes two methodologies for the management of this energy resource at two different scales: for a regional scale and for a metropolitan scale. The first GIS methodology provides a response to the need for a regional quantification of the geothermal potential that can be extracted by Boreholes Heat Exchangers and its associated environmental impacts. For the first time, advection and dispersion heat transport mechanisms and the temporal evolution from the start of operation of the BHE are considered in the regional estimation of the variables of interest. A sensitivity analysis leads to the conclusion that the consideration of dispersion effects and temporal evolution of the exploitation prevent significant differences up to a factor 2.5 in the heat exchange rate accuracy and up to several orders of magnitude in the impacts generated. To deepen the management of Shallow Geothermal Energy, this thesis proposes to establish a market of shallow geothermal energy use rights which would allow managing this resource at a metropolitan scale. This methodology is based on a GIS framework and is composed of a geospatial database to store the main information required to manage the installations and a set of GIS tools used to define, implant and control this use rights market. Thermal impacts derived from the exploitation of this resource can also be registered geographically, by taking into account the groundwater flow direction and adjusting the thermal impact to the available plot. |
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