Comparison between the Effects of Normal Rain and Acid Rain on Calcareous Stones under Laboratory Simulation

Acid rain is a problem that despite efforts to reduce atmospheric pollution, continues to impact not only countries where there is a high production of pollutants, but also transboundary areas to which the pollutants are transported. In addition to its effects on human health, there are also the eff...
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Gespeichert in:

Autor*in:	Indira Rodríguez [verfasserIn] Almudena Ortiz [verfasserIn] Pablo Caldevilla [verfasserIn] Sara Giganto [verfasserIn] Gabriel Búrdalo [verfasserIn] María Fernández-Raga [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2023

Schlagwörter:	rainfall simulator pollution acid rain limestones

Übergeordnetes Werk:	In: Hydrology - MDPI AG, 2015, 10(2023), 4, p 79
Übergeordnetes Werk:	volume:10 ; year:2023 ; number:4, p 79

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/hydrology10040079

Katalog-ID:	DOAJ089851145

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topic_title	Comparison between the Effects of Normal Rain and Acid Rain on Calcareous Stones under Laboratory Simulation rainfall simulator pollution acid rain limestones
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title	Comparison between the Effects of Normal Rain and Acid Rain on Calcareous Stones under Laboratory Simulation
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title_sort	comparison between the effects of normal rain and acid rain on calcareous stones under laboratory simulation
title_auth	Comparison between the Effects of Normal Rain and Acid Rain on Calcareous Stones under Laboratory Simulation
abstract	Acid rain is a problem that despite efforts to reduce atmospheric pollution, continues to impact not only countries where there is a high production of pollutants, but also transboundary areas to which the pollutants are transported. In addition to its effects on human health, there are also the effects on infrastructure and the consequences that this entails. This study on the effect of rain and acid rain on calcareous materials highlights the need for protection of buildings constructed from these materials, many of which are part of the cultural heritage. The effects caused by rain and acid rain were studied using a rain simulator whose features allow the simulation of natural conditions as realistically as possible. In the same way, the effect of a coating synthesized from nanomaterials, which has been shown to serve as protection against the degradation caused by rain, was analyzed. In addition to a long-lasting protection of the stone material, this type of coating avoids the need for the replacement of elements and the recurrent cleaning of degraded parts. It also avoids the accumulation of parts on the ground, the transport of personnel, work materials and raw materials, thereby contributing to the reduction of the carbon footprint and water savings, which in turn reduces the production of pollutants that cause acid rain.
abstractGer	Acid rain is a problem that despite efforts to reduce atmospheric pollution, continues to impact not only countries where there is a high production of pollutants, but also transboundary areas to which the pollutants are transported. In addition to its effects on human health, there are also the effects on infrastructure and the consequences that this entails. This study on the effect of rain and acid rain on calcareous materials highlights the need for protection of buildings constructed from these materials, many of which are part of the cultural heritage. The effects caused by rain and acid rain were studied using a rain simulator whose features allow the simulation of natural conditions as realistically as possible. In the same way, the effect of a coating synthesized from nanomaterials, which has been shown to serve as protection against the degradation caused by rain, was analyzed. In addition to a long-lasting protection of the stone material, this type of coating avoids the need for the replacement of elements and the recurrent cleaning of degraded parts. It also avoids the accumulation of parts on the ground, the transport of personnel, work materials and raw materials, thereby contributing to the reduction of the carbon footprint and water savings, which in turn reduces the production of pollutants that cause acid rain.
abstract_unstemmed	Acid rain is a problem that despite efforts to reduce atmospheric pollution, continues to impact not only countries where there is a high production of pollutants, but also transboundary areas to which the pollutants are transported. In addition to its effects on human health, there are also the effects on infrastructure and the consequences that this entails. This study on the effect of rain and acid rain on calcareous materials highlights the need for protection of buildings constructed from these materials, many of which are part of the cultural heritage. The effects caused by rain and acid rain were studied using a rain simulator whose features allow the simulation of natural conditions as realistically as possible. In the same way, the effect of a coating synthesized from nanomaterials, which has been shown to serve as protection against the degradation caused by rain, was analyzed. In addition to a long-lasting protection of the stone material, this type of coating avoids the need for the replacement of elements and the recurrent cleaning of degraded parts. It also avoids the accumulation of parts on the ground, the transport of personnel, work materials and raw materials, thereby contributing to the reduction of the carbon footprint and water savings, which in turn reduces the production of pollutants that cause acid rain.
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title_short	Comparison between the Effects of Normal Rain and Acid Rain on Calcareous Stones under Laboratory Simulation
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Comparison between the Effects of Normal Rain and Acid Rain on Calcareous Stones under Laboratory Simulation

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