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Environmental Earth Sciences
Erschienen in: Environmental Earth Sciences 6/2014

01.03.2014 | Thematic Issue

Combined optimization of a wind farm and a well field for wind-enabled groundwater production

verfasst von: E. Annette Hernandez, Venkatesh Uddameri, Sreeram Singaraju

Erschienen in: Environmental Earth Sciences | Ausgabe 6/2014

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Abstract

Energy requirements constitute a significant cost in groundwater production and can also add to a large carbon footprint when fossil fuels are used for power. Wind-enabled water production is advantageous as it minimizes air pollution impacts associated with groundwater production and relies on a renewable resource. Also, as groundwater extraction represents a deferrable load (i.e., it can be carried out when energy demands within an area are low), it provides a convenient way to overcome the intermittency issue associated with wind power production. Multiple turbine wind farms are needed to generate large quantities of power needed for large-scale groundwater production. Turbines must be optimally located in these farms to ensure proper propagation of kinetic energy throughout the system. By the same token, well placement must reconcile the competing objectives of minimizing interferences between production wells while ensuring the drawdowns at the property boundary are within acceptable limits. A combined simulation–optimization based model is developed in this study to optimize the combined wind energy and water production systems. The wind farm layout optimization model is solved using a re-sampling strategy, while the well field configuration is obtained using the simulated annealing technique. The utility of the developed model is to study wind-enabled water production in San Patricio County, TX. Sensitivity analysis indicated that identifying optimal placement of turbines is vital to extract maximum wind power. The variability of the wind speeds has a critical impact on the amount of water that can be produced. Innovative technologies such as variable flow pumping devices and aquifer storage recovery must be used to smooth out wind variability. While total groundwater extraction is less sensitive to uncertainty in hydrogeological parameters, improper estimation of aquifer transmissivity and storage characteristics can affect the feasibility of wind-driven groundwater production.
Vorheriger Artikel A multi-media planning model for assessing co-located energy and desalination plants
Nächster Artikel Heavy metal contamination in dust from kindergartens and elementary schools in Xi’an, China

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Metadaten
Titel
Combined optimization of a wind farm and a well field for wind-enabled groundwater production
verfasst von
E. Annette Hernandez
Venkatesh Uddameri
Sreeram Singaraju
Publikationsdatum
01.03.2014
Verlag
Springer Berlin Heidelberg
Erschienen in
Environmental Earth Sciences / Ausgabe 6/2014
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI
https://doi.org/10.1007/s12665-013-2907-9

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