Erika Paola Garduño Ruíz scite author profile

Erika Paola Garduño Ruíz

4Publications

16Citation Statements Received

16Citation Statements Given

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Affiliations

Universidad Nacional Autónoma de México

Publications

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General Criteria for Optimal Site Selection for the Installation of Ocean Thermal Energy Conversion (OTEC) Plants in the Mexican Pacific

Huante¹,

Cueto²,

Ruíz³

et al. 2020

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The purpose of this chapter is to provide an assessment of the resource potential for ocean thermal energy conversion (OTEC) in the Mexican Pacific Ocean (MPO). Research methodology adopted in this study is a combination of geographic information system (GIS), to identify the most promising site in the MPO for OTEC deployment. Site selection criteria rely on conditions such as distance to cold water pumping, bathymetry, thermal difference (not less than 20°C), and social and environmental aspects. Finally we concluded that sites located in the states of Guerrero and Oaxaca have the highest potential of the entire MPO, although there are other areas in the states of Baja California Sur, Nayarit, or Michoacan that might have some interest for OTEC technology.

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Validation of Sea-Surface Temperature Data for Potential OTEC Deployment in the Mexican Pacific

Huante¹,

Cueto²,

Contreras³

et al. 2021

Energies

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As the operation of an ocean thermal energy conversion (OTEC) plant depends on the temperature gradient between the surface and deeper water (SST), a variation in SST can significantly modify the energy produced. The aim of this paper is to present a comparative analysis of three sea-surface temperature databases (World Ocean Atlas (WOA), Satellite Oceanic Monitoring System (SATMO), and in situ sensor measurements). Simple linear regression and graphic comparisons allow correlations to be made between the distribution patterns of the SST data. The results show that there is no statistically significant difference between the three databases. To determine general regions where OTEC implementation is possible, at the macroscale, the WOA database is recommended, as a smaller amount of data must be analyzed. For meso- and microscales, such as specific areas of the Mexican exclusive economic zone. It is better to use SATMO and in situ measurements as a higher spatial resolution is required.

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Ocean Thermal Energy Conversion (OTEC) State of the Art

Ruíz¹,

Huante²,

Cueto³

et al. 2017

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The oceans function as large collectors of solar energy, which recently the human has had the interest to study. Ocean water retains approximately 15% of the totalof solar energy as thermal energy. The technology that allows generatingenergy through temperature differences the ocean is called Conversion Ocean Thermal Energy (otec). This type of energy is concentrated in the surface part of seawater and decreases exponentially with increasing depth, as the sea bottom

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Dissolved Copper, Nickel and Lead in Tampamachoco Lagoon and Tuxpan River Estuary in the SW Gulf of Mexico

Ruíz

Hoz

Carranza‐Edwards

2016

Bull Environ Contam Toxicol

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In order to estimate the effects of a thermal power plant, physicochemical parameters and the concentrations of copper, nickel and lead were evaluated in water from both Tampamachoco Lagoon and the estuary of the Tuxpan River. Average salinities were 33.66 ups in the lagoon area, 32.77 ups in the channel that joins the lagoon and the river, and 24.74 ups in the river estuary. Total average metal concentrations were 21.95 for Cu, 29.67 for Ni and 4.31 µ/L for Pb. Sampling point 1 and samples from the bottom water of the lagoon present the highest salinities and concentrations of suspended matter, TOC, Cu, Ni and Pb.These high values may be associated with the infiltration of sea water either from plant operation or from the channel that connects the lagoon with the sea.

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