Albert-Miquel Sánchez scite author profile

[1] Using the geomagnetic records of Ebro geomagnetic observatory and taking the plane wave assumption for the external current source and a homogeneous Earth conductivity, a prediction of the effects of the geomagnetic activity on the Catalonian (northeastern Spain) power transmission system has been developed. Although the area is located at midlatitudes, determination of the geoelectric field on the occasion of the largest geomagnetic storms during the last solar cycles indicates amplitudes that are higher than those recorded in southern Africa, where some transformer failures on large transmission systems have been reported. A DC network model of the grid has been constructed, and the geomagnetically induced current (GIC) flows in the power network have been calculated for such extreme events using the electric field at Ebro as a regional proxy. In addition, GICs have been measured at one transformer neutral earthing of the power grid, so that there the accuracy of the model has been assessed. Although the agreement is quite satisfactory, results indicate that better knowledge of the ground conductivity structure is needed. This represents the first attempt to study and measure GICs in southern European power grids, a region considered to have low GIC-risk up to the present.

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Estimating the Underwater Diffuse Attenuation Coefficient with a Low-Cost Instrument: The KdUINO DIY Buoy

Bardají

Sánchez

Simon

et al. 2016

Sensors

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A critical parameter to assess the environmental status of water bodies is the transparency of the water, as it is strongly affected by different water quality related components (such as the presence of phytoplankton, organic matter and sediment concentrations). One parameter to assess the water transparency is the diffuse attenuation coefficient. However, the number of subsurface irradiance measurements obtained with conventional instrumentation is relatively low, due to instrument costs and the logistic requirements to provide regular and autonomous observations. In recent years, the citizen science concept has increased the number of environmental observations, both in time and space. The recent technological advances in embedded systems and sensors also enable volunteers (citizens) to create their own devices (known as Do-It-Yourself or DIY technologies). In this paper, a DIY instrument to measure irradiance at different depths and automatically calculate the diffuse attenuation Kd coefficient is presented. The instrument, named KdUINO, is based on an encapsulated low-cost photonic sensor and Arduino (an open-hardware platform for the data acquisition). The whole instrument has been successfully operated and the data validated comparing the KdUINO measurements with the commercial instruments. Workshops have been organized with high school students to validate its feasibility.

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Characterization of Power-Line Filters and Electronic Equipment for Prediction of Conducted Emissions

Pérez

Sánchez

Regue

et al. 2008

IEEE Trans. Electromagn. Compat.

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Circuital and Modal Characterization of the Power-Line Network in the PLC Band

Pérez

Sánchez

Regue

et al. 2009

IEEE Trans. Power Delivery

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Device Modeling for Nonstationary Conducted Emissions Based on Frequency- and Time-Domain Measurements

Sánchez

Pignari

Regue

et al. 2012

IEEE Trans. Electromagn. Compat.

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In this paper, a new circuit model and measurement methodology for the characterization of electric and electronic devices emitting nonstationary (as well as stationary) conducted emissions (CEs) are presented. The new circuit model combines a frequency-domain characterization of the passive behavior of a device, obtained from its S-parameter measurements, with a characterization of the CE sources obtained from time-domain measurements. It overcomes limitations of previous works providing a robust, efficient, and mathematically accurate description of the interference generation process, in particular in the nonstationary case. The validity and utility of this methodology are assessed by comparing its predictions with measurements performed according to standard procedures. Finally, it is shown how it can be effectively used in the computer-aided design of power-line filters for devices emitting nonstationary CE

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