P.A. Rodríguez-Aumente scite author profile

P.A. Rodríguez-Aumente

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5Publications

90Citation Statements Received

59Citation Statements Given

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Affiliations

Carlos III University of Madrid

Publications

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Domestic hot water consumption vs. solar thermal energy storage: The optimum size of the storage tank

Rodríguez-Hidalgo

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Rodríguez-Aumente

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et al. 2012

Applied Energy

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Many efforts have been made in order to adequate the production of a solar thermal collector field to the consumption of domestic hot water of the inhabitants of a building. In that sense, much has been achieved in different domains: research agencies, government policies and manufacturers. However, most of the design rules of the solar plants are based on steady state models, whereas solar irradiance, consumption and thermal accumulation are inherently transient processes. As a result of this lack of physical accuracy, thermal storage tanks are sometimes left to be as large as the designer decides without any aforementioned precise recommendation. This can be a problem if solar thermal systems are meant to be implemented in nowadays buildings, where there is a shortage of space. In addition to that, an excessive storage volume could not result more efficient in many residential applications, but costly, extreme in space consumption and in some cases too heavy. A proprietary transient simulation program has been developed and validated with a detailed measurement campaign in an experimental facility. In situ environmental data have been obtained through a whole year of operation. They have been gathered at intervals of 10 min for a solar plant of 50 m 2 with a storage tank of 3 m 3 , including the equipment for domestic hot water production of a typical apartment building. This program has been used to obtain the design and dimensioning criteria of DHW solar plants under daily transient conditions throughout a year and more specifically the size of the storage tank for a multi storey apartment building. Comparison of the simulation results with the current Spanish regulation applicable, "Código Técnico de la Edificación" (CTE 2006), offers fruitful details and establishes solar facilities dimensioning criteria.

Flat plate thermal solar collector efficiency: Transient behavior under working conditions. Part I: Model description and experimental validation

Rodríguez-Hidalgo

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Rodríguez-Aumente

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et al. 2011

Applied Thermal Engineering

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The efficiency of a solar collector is a key factor for the performance of thermal facilities. As the weather conditions vary continuously during the day, the instant collector efficiency depends not only on the components employed in its construction but also on the actual environmental conditions, the hot water temperature and aging. An experimental research was performed to describe the transient behavior of a flat plate collector field under outdoor working conditions. A transient collector model was assembled using thermal resistances and capacitances. Three thermocouples were added to measure the centre point temperature of the glass cover, box back surface and absorber plate of one of the

District heating and cooling for business buildings in Madrid

Rodríguez-Aumente

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Rodriguez-Hidalgo

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et al. 2013

Applied Thermal Engineering

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Flat plate thermal solar collector efficiency: Transient behavior under working conditions part II: Model application and design contributions

Rodríguez-Hidalgo

¹

,

Rodríguez-Aumente

²

,

³

et al. 2011

Applied Thermal Engineering

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Thermo-chemical storage for renewable energies based on absorption: Getting a uniform injection into the grid

Rodríguez-Hidalgo

¹

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Rodríguez-Aumente

²

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³

et al. 2019

Applied Thermal Engineering

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