Abstract
The present paper, shows the application of geo mathematic tools [Mangin,1981; Molerio,1997] for the design of a radioisotopes monitoring network in order to modelling the groundwater dynamics processes and hydrodynamic management of a Karstic Basin (Almendares-Vento watershed), which is very difficult to evaluate due to the physical-geographical, geologic and hydrogeological characteristics. The Almendares Vento watershed (AVW) is close to the Jaruco-Aguacate watershed, with a similar hydrogeologic and geologic structure, therefore similar result must be expected. In the AVW case is necessary to identify, with more precision, the water propagation limits of the stratified layers according to the waters transit times, recharges and dynamics aquifers, residence time, groundwater contamination and the groundwater-surface water interaction due to the dam placed on the basin. The paper allowed the identification of a monitoring points network, taking into account, between other statistical approaches, the good correlation, the high memory effect, etc. According to the analysis of the variances spectral, have been obtained and optimized the sampling frequency of the network points in the Basin. Besides, it have been identified the necessities to include the detailed evaluation of a specific point of the network in the hydrodynamic study (Vento watershed). In order to evaluate the optimization
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Peralta, J L;
Gil, R;
Leyva, D;
[1]
Molerio, L F;
[2]
Pin, M
[3]
- Centro de Proteccion e Higiene de las Radiaciones, La Habana (Cuba)
- Instituto de Geofisica y Astronomia IGA, La Habana (Cuba)
- Empresa de Aguas de la Habana, La Habana (Cuba)
Citation Formats
Peralta, J L, Gil, R, Leyva, D, Molerio, L F, and Pin, M.
Geo mathematic tools for the design of a radioisotopes monitoring network in order to modelling the groundwater dynamics processes and hydrodynamic management; Empleo de herramientas geomatematicas para el disenno de una red de Monitoreo radioisotopico en el modelaje hidrodinamico de un Recurso hidrico complejo.
Cuba: N. p.,
2004.
Web.
Peralta, J L, Gil, R, Leyva, D, Molerio, L F, & Pin, M.
Geo mathematic tools for the design of a radioisotopes monitoring network in order to modelling the groundwater dynamics processes and hydrodynamic management; Empleo de herramientas geomatematicas para el disenno de una red de Monitoreo radioisotopico en el modelaje hidrodinamico de un Recurso hidrico complejo.
Cuba.
Peralta, J L, Gil, R, Leyva, D, Molerio, L F, and Pin, M.
2004.
"Geo mathematic tools for the design of a radioisotopes monitoring network in order to modelling the groundwater dynamics processes and hydrodynamic management; Empleo de herramientas geomatematicas para el disenno de una red de Monitoreo radioisotopico en el modelaje hidrodinamico de un Recurso hidrico complejo."
Cuba.
@misc{etde_20801494,
title = {Geo mathematic tools for the design of a radioisotopes monitoring network in order to modelling the groundwater dynamics processes and hydrodynamic management; Empleo de herramientas geomatematicas para el disenno de una red de Monitoreo radioisotopico en el modelaje hidrodinamico de un Recurso hidrico complejo}
author = {Peralta, J L, Gil, R, Leyva, D, Molerio, L F, and Pin, M}
abstractNote = {The present paper, shows the application of geo mathematic tools [Mangin,1981; Molerio,1997] for the design of a radioisotopes monitoring network in order to modelling the groundwater dynamics processes and hydrodynamic management of a Karstic Basin (Almendares-Vento watershed), which is very difficult to evaluate due to the physical-geographical, geologic and hydrogeological characteristics. The Almendares Vento watershed (AVW) is close to the Jaruco-Aguacate watershed, with a similar hydrogeologic and geologic structure, therefore similar result must be expected. In the AVW case is necessary to identify, with more precision, the water propagation limits of the stratified layers according to the waters transit times, recharges and dynamics aquifers, residence time, groundwater contamination and the groundwater-surface water interaction due to the dam placed on the basin. The paper allowed the identification of a monitoring points network, taking into account, between other statistical approaches, the good correlation, the high memory effect, etc. According to the analysis of the variances spectral, have been obtained and optimized the sampling frequency of the network points in the Basin. Besides, it have been identified the necessities to include the detailed evaluation of a specific point of the network in the hydrodynamic study (Vento watershed). In order to evaluate the optimization of the designed monitoring network, the geo mathematic study developed was compared with the results of the mathematical model AQUIMPE, the final result showed the validation of the obtained design. The results of the work allow the best monitoring of the parameters in order to determine the aquifer recharge, residence times, the vulnerability to the waters contamination and the groundwater-surface water interaction.}
place = {Cuba}
year = {2004}
month = {Jul}
}
title = {Geo mathematic tools for the design of a radioisotopes monitoring network in order to modelling the groundwater dynamics processes and hydrodynamic management; Empleo de herramientas geomatematicas para el disenno de una red de Monitoreo radioisotopico en el modelaje hidrodinamico de un Recurso hidrico complejo}
author = {Peralta, J L, Gil, R, Leyva, D, Molerio, L F, and Pin, M}
abstractNote = {The present paper, shows the application of geo mathematic tools [Mangin,1981; Molerio,1997] for the design of a radioisotopes monitoring network in order to modelling the groundwater dynamics processes and hydrodynamic management of a Karstic Basin (Almendares-Vento watershed), which is very difficult to evaluate due to the physical-geographical, geologic and hydrogeological characteristics. The Almendares Vento watershed (AVW) is close to the Jaruco-Aguacate watershed, with a similar hydrogeologic and geologic structure, therefore similar result must be expected. In the AVW case is necessary to identify, with more precision, the water propagation limits of the stratified layers according to the waters transit times, recharges and dynamics aquifers, residence time, groundwater contamination and the groundwater-surface water interaction due to the dam placed on the basin. The paper allowed the identification of a monitoring points network, taking into account, between other statistical approaches, the good correlation, the high memory effect, etc. According to the analysis of the variances spectral, have been obtained and optimized the sampling frequency of the network points in the Basin. Besides, it have been identified the necessities to include the detailed evaluation of a specific point of the network in the hydrodynamic study (Vento watershed). In order to evaluate the optimization of the designed monitoring network, the geo mathematic study developed was compared with the results of the mathematical model AQUIMPE, the final result showed the validation of the obtained design. The results of the work allow the best monitoring of the parameters in order to determine the aquifer recharge, residence times, the vulnerability to the waters contamination and the groundwater-surface water interaction.}
place = {Cuba}
year = {2004}
month = {Jul}
}