2024-03-29T12:32:09Zhttp://repositorio.upct.es/oai/requestoai:repositorio.upct.es:10317/15712024-01-26T23:53:22Zcom_10317_1358com_10317_320com_10317_9206col_10317_1558
REPOSITORIO DIGITAL UPCT
author
Zamora Parra, Blas
author
Sánchez Kaiser, Antonio
investgroup
Mecánica de Fluidos e Ingeniería Térmica
2011-01-25T13:44:52Z
2011-01-25T13:44:52Z
2011
ZAMORA, Blas, KAISER, Antonio S. Numerical studies on laminar, transitional and turbulent convective airflows in channels with generalised geometry, including applications to thermal-ventilation passive systems. Technology and Knowledge Transfer e-Bulletin, vol.2, no.1: 1-5 p. 2011. ISSN 2172-0436
2172-0436
http://hdl.handle.net/10317/1571
The flows induced by natural convection appear in many engineering problems. Configurations formed by heated plates where these processes occur, were the topic of intense study in past years. However, new systems with a different constructive disposition and applications in several fields (bioclimatic architecture, electronic cooling, nuclear energy cooling systems) are at the moment of great interest. Since typical applications of buoyancy-driven airflows in smooth vertical channels are usually in small-scale devices (i.e. in electronic cooling equipment), most investigations were carried out for laminar flows. As a consequence of the great scale of certain passive ventilation systems, as solar chimneys, Trombe walls, or roof collectors, the flow established becomes transitional or even fully turbulent.
The regarded geometries frequently involve structures based on converging and sloped channels formed by heated plates, where buoyancy-driven flows take place. Therefore, the study of problems such as the transition to turbulent regime or flows with walled-channel geometries including sloped and converging walls are key to assertively find out the real heating transmission existing in these new systems in a more realistic manner.
Nowadays, the need to achieve human comfort by passive heating and ventilation techniques is greater as is the requirement for energy saving. Passive solar systems are the basic elements of bioclimatic design and they do not involve the use of mechanical or electrical devices. The Trombe Wall is the primary example of the technique called indirect gain, whose typical configuration is usually formed by a thick, darkened, masonry wall and a glazed wall. In ventilation applications, other passive systems, called thermosyphons, heat syphons or solar chimneys, can yield natural motions of air due to the induced temperature differences by solar heating.
Although several reported works provided useful results for the analysis and design of passive solar devices in buildings, these works cannot determine the necessary details of convection for numerical simulations. Furthermore, as an important lack of design correlations is detected, it is necessary to carry out a systematic study that supplied the heat transfer coefficient and the mass-flow rate as a function of relevant parameters, for several configurations.
eng
Atribución-NoComercial-SinDerivadas 3.0 España
Convección natural
Flujos turbulentos
Muro Trombe
Chimenea solar
Arquitectura bioclimática
Natural convection
Turbulent flow
Trombe Wall
Solar chimney
Bioclimatic architecture
Numerical studies on laminar, transitional and turbulent convective airflows in channels with generalised geometry, including applications to thermal-ventilation passive systems
info:eu-repo/semantics/article
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URL
https://repositorio.upct.es/bitstream/10317/1571/1/v.2-n.1
File
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URL
https://repositorio.upct.es/bitstream/10317/1571/6/v.2-n.1.txt
File
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v.2-n.1.txt
oai:repositorio.upct.es:10317/16322024-01-26T23:53:22Zcom_10317_1358com_10317_320com_10317_9206col_10317_1558
REPOSITORIO DIGITAL UPCT
author
Conesa Gallego, Encarnación
author
Vicente Colomer, María José
author
Álvarez Rogel, José
author
Franco Leemhuis, José Antonio
author
Martínez Sánchez, Juan José
investgroup
Grupo de Investigación de Hortofloricultura Mediterránea
2011-02-22T13:37:36Z
2011-02-22T13:37:36Z
2011
CONESA, E., VICENTE, M.J., ÁLVAREZ ROGEL, J., FRANCO, J.A., MARTÍNEZ SÁNCHEZ, J.J. Germination studies in Juncus acutus L. (Juncaceae), Schoenus nigricans L. (Cyperaceae) and Arthrocnemum macrostachyum (Moric.) Moris (Chenopodiaceae) for salt-marshes restorati. Technology and Knowledge Transfer e-Bulletin, vol.2, no 2: 1-3 p. ISSN 2172-0436
2172-0436
http://hdl.handle.net/10317/1632
Since the 1970’s, salt marshes have been reduced in area by a great antropogenic pressure derived from agriculture, and more recently, from demand for tourist urban facilities. Therefore, restoration and preservation of plant communities in salt marshes are needed. Among the perennial species that appear typically in maritime sands, on the Mediterranean region and western Europe Juncus acutus L. (Juncaceae), Schoenus nigricans L. (Cyperaceae) and Arthrocnemum macrostachyum (Moric.) Moris (Chenopodiaceae) frequently occur (Álvarez-Rogel et al., 2000; Vicente et al., 2007). On other hand soil salinity has traditionally been considered one of the most important physical factors in plant zonation of salt marshes (Fig.1). Álvarez-Rogel et al. (2006) related the increase in soil salinity in summer to a higher content in Cl−, Na+, SO42−, Ca2+, Mg2+ and K+. However, the relative percentages of Ca2+ and K+ decreased when salinity rose, leading to an imbalance in favour of the most toxic cations, such as Na+ and Mg2+. The same authors showed that the highest correlation coefficients for ions were between Cl− and Na+ and between Cl− and Mg2+.
The use of the above mentioned species in restoration programs require to know the germination responses to light and temperature and their salinity tolerance during germination.
eng
Atribución-NoComercial-SinDerivadas 3.0 España
Germinación de recuperación
Halófitas
Salinidad
Semilla ecológica
Germination recovery
Halophytes
Salinity
Salt marshes
Seed ecology
Marisma
Germination studies in Juncus acutus L. (Juncaceae), Schoenus nigricans L. (Cyperaceae) and Arthrocnemum macrostachyum (Moric.) Moris (Chenopodiaceae) for salt-marshes restorati
info:eu-repo/semantics/article
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URL
https://repositorio.upct.es/bitstream/10317/1632/1/v.2-n.2
File
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URL
https://repositorio.upct.es/bitstream/10317/1632/6/v.2-n.2
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URL
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oai:repositorio.upct.es:10317/16942024-01-26T23:53:22Zcom_10317_1358com_10317_320com_10317_9206col_10317_1558
REPOSITORIO DIGITAL UPCT
author
Moya Navarro, Daniel
author
Heras Ibáñez, Jorge de las
author
Ferrandis Gotor, Pablo
author
Herranz Sanz, José María
author
Martínez Sánchez, Juan José
investgroup
Hortofloricultura Mediterránea
2011-05-30T11:30:34Z
2011-05-30T11:30:34Z
2011
MOYA NAVARRO, Daniel et al. Fire resilience and forest restoration in Mediterranean fire-prone areas. Technology and Knowledge Transfer e-Bulletin, vol.2, no.3, 2011. ISSN 2172-0436
2172-0436
http://hdl.handle.net/10317/1694
Mediterranean ecosystems are of importance worldwide because they are biodiversity hot spots. In these areas, forest fires have been modelling the landscape since the Pleistocene Era. Consequently, plant communities inhabiting this fire-prone area have developed adaptive traits (e.g. serotiny) or life-history strategies to persist, exhibiting a high degree of survival or recovering after frequent fires or other disturbances, such as severe drought. In general, this implies high resilience, but in recent years aridity and fire dynamics have been increasing due to global climate change, which has strongly affected the Mediterranean Basin. These changes are inducing higher risks of soil loss and lower plant productivity in the long term, which influences the resilience of the community present before the disturbance. Some species are pirophytes (fire adapted), such as Cistus sp. (Ferrandis et al., 1999a), or pirophyles (fire dependant). Pinus halepensis Mill. and some populations of Pinus pinaster Aiton have been catalogued as pirophylous species. They are not promoted by fire (Martínez-Sánchez et al., 1996) but show colonizer behavior in the absence of fire (Ayari et al., 2011). The main four components of resilience are elasticity (recovery rate), amplitude (fire severity inducing no recovery), malleability (differences from the previous state) and damping (oscillation of ecosystem parameters). If the plant community does not recover after disturbance or natural characteristics do not achieve forest planning objectives, restoration and stand improvement through forest management are important choices for lowering the aridity risk.
eng
Atribución-NoComercial-SinDerivadas 3.0 España
Wildfire
Seed germination
Soil seed bank
Pinus halepensis Mill
Pinus pinaster Aiton
Cistus
Post-fire Management
Fire ecology
Incendios forestales
Germinación de semillas
Banco de semillas
Gestión después de un incendio
Ecología del fuego
Pino carrasco
Pino resinero
Pino marítimo
Jara
Fire resilience and forest restoration in Mediterranean fire-prone areas
info:eu-repo/semantics/article
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URL
https://repositorio.upct.es/bitstream/10317/1694/1/v.2-n.3.pdf
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oai:repositorio.upct.es:10317/17382024-01-26T23:53:22Zcom_10317_1358com_10317_320com_10317_9206col_10317_1558
REPOSITORIO DIGITAL UPCT
author
Fernández Trujillo, Juan Pablo
author
Martínez López, Juan Antonio
author
Alarcón Vera, Antonio Luis
author
Varó Vicedo, Plácido
author
Dos Santos Carrillo, Noelia
author
Obando Ulloa, Javier Mauricio
author
Bueso Sánchez, María del Carmen
2011-07-29T10:17:01Z
2011-07-29T10:17:01Z
2011
FERNÁNDEZ TRUJILLO, Juan Pablo et al. Identification of quantitative trait loci using near-isogenic lines of melon. A lines of melon. a research review covering potential applications in fruit quality. Technology and Knowledge Transfer e-Bulletin, vol.2, no.4, 2011. ISSN 2172-0436
2172-0436
http://hdl.handle.net/10317/1738
During the last seven years, the fruit quality differences based on a collection of near-isogenic lines (NILs) of melon (Cucumis melo L.) obtained from a cross between the Spanish cultivar “Piel de Sapo” (PS) (Figure 1) and the exotic Korean accession “Shongwan Charmi” [SC (PI 161375)] (Figure 2) have been studied to identify the quantitative trait loci (QTL) related to the most important fruit quality traits for the consumer.
eng
Atribución-NoComercial-SinDerivadas 3.0 España
Postharvest
Fruit ripening
Climacteric behavior
Global quality
Fruit quality traits
Aromas volátiles
Gas chromatography-mass spectrometry
Consumer perception
Fruit composition
Genotype
Multivariate statistics
Quality-oriented breeding
Identification of quantitative trait loci using near-isogenic lines of melon. A lines of melon. a research review covering potential applications in fruit quality
info:eu-repo/semantics/article
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URL
https://repositorio.upct.es/bitstream/10317/1738/1/v2-n3.pdf
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URL
https://repositorio.upct.es/bitstream/10317/1738/6/v2-n3.pdf.txt
File
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oai:repositorio.upct.es:10317/17632024-01-26T23:53:23Zcom_10317_1358com_10317_320com_10317_9206col_10317_1558
REPOSITORIO DIGITAL UPCT
author
Álvarez Rogel, José
author
Jiménez Cárceles, Francisco José
author
Egea Nicolás, Consuelo
author
María Cervantes, Antonio
author
Conesa Alcaraz, Hector Miguel
author
González Alcaraz, María Nazaret
2011-09-27T08:39:14Z
2011-09-27T08:39:14Z
2011-09
ÁLVAREZ ROGEL, José. Eutrophication in coastal areas of the Mar Menor lagoon: The mitigation role of the salt marshes. Technology and Knowledge Transfer e-Bulletin, vol.2, no.5, 2011. ISSN 2172-0436
http://hdl.handle.net/10317/1763
The Mar Menor lagoon is one of the largest coastal lagoons (135 km2 surface) of the Mediterranean basin. It receives runoff waters coming from the nearby intensive agricultural area of Campo de Cartagena, which have led this lagoon to be declared as a sensitive area for eutrophication in June 2001 under European Directive 91/271/EEC and as a vulnerable zone for nitrates contamination in December 2002 under Directive 91/676/EEC. Moreover, the existence of mining activities (nowadays discontinued) in the nearby area of Sierra de Cartagena-La Union has caused the spread of metal polluted wastes into the Mar Menor lagoon and its salt marshes. As a consequence, huge coastal areas are buried by metal enriched wastes, and although most of them have been colonized by vegetation, others remain bare and exposed to erosive agents (e.g. wind, water). At the same time, the Mar Menor and its salt marshes have been included in the Ramsar Convention on Wetlands. Also, it is a Special Protected Area of Mediterranean Interest (SPAMI), a Specially Protected Area (SPA) under the EU Wild Birds Directive and a Site of Community Importance (SCI) to be integrated in the Nature 2000 Network (EU Habitats Directive). In addition, the Campo de Cartagena- Mar Menor zone hosts important economic activities related with agriculture, fisheries and tourism (Conesa and Jiménez-Cárceles, 2007). Hence, the habitat conservation and the uses of the territory must be compatible and overcome the environmental problems of the zone.
This paper summarizes several studies carried out in the Mar Menor area from year 2000 till nowadays. The methodologies followed in these works were based on international scientific and technical protocols. The research included field and lab experiments. The first ones had the goal of answering questions such as what, where, when, by means of descriptive field survey studies (Álvarez-Rogel et al., 2000, 2001, 2006b, 2007a y c, Álvarez-Rogel et al., 2006a, 2007b; Jiménez-Cárceles, 2007; Jiménez-Cárceles et al., 2006; Jiménez-Cárceles and Álvarez-Rogel, 2008; Egea et al., 2011). Afterwards, the research had the goal of explaining how the processes occurred, by means of experimental set ups not included here (greenhouse experiments, columns, lab, etc.).
This chapter deals with the field survey studies in order to describe the nutrient dynamics and eutrophication risks in the coastal areas of the Mar Menor lagoon
eng
Atribución-NoComercial-SinDerivadas 3.0 España
Mar Menor
Eutrophication
Wetlands
Impacts of agriculture
Green filters
Eutrophication in coastal areas of the Mar Menor lagoon: The mitigation role of the salt marshes.
info:eu-repo/semantics/article
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URL
https://repositorio.upct.es/bitstream/10317/1763/1/v2-n5.pdf
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oai:repositorio.upct.es:10317/20752024-01-26T23:53:23Zcom_10317_1358com_10317_320com_10317_9206col_10317_1558
REPOSITORIO DIGITAL UPCT
author
Franco Leemhuis, José Antonio
2012-02-07T17:15:41Z
2012-02-07T17:15:41Z
2011-09
FRANCO LEEMHUIS, José Antonio. Root development under drought stress. Technology and Knowledge Transfer e-Bulletin, vol.2, no.6, 2011. ISSN 2172-0436
2172-0436
http://hdl.handle.net/10317/2075
Serving as interfaces between plant and the soil, roots are much more exposed to drought stress than the upper plant parts. Therefore, the root system can be as affected, or even more affected, than the aerial parts of the plant for drought stress (Franco et al., 2011). Nevertheless, the influence of this stress on root activity and development has been much less studied. Undoubtedly, this is due to limitations on accessibility for root observations; being studies on root system dynamics especially difficult because they require successive, non-destructive measurements (Franco and Abrisqueta, 1997; Franco et al., 2002a).
eng
Atribución-NoComercial-SinDerivadas 3.0 España
Root dynamic
Plant stress
Ornamentals
Xerogardening
Water deficit
Root development under drought stress
info:eu-repo/semantics/article
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URL
https://repositorio.upct.es/bitstream/10317/2075/1/rdu.pdf
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URL
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File
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oai:repositorio.upct.es:10317/20762024-01-26T23:53:23Zcom_10317_1358com_10317_320com_10317_9206col_10317_1558
REPOSITORIO DIGITAL UPCT
author
Zamora Parra, Blas
author
Sánchez Kaiser, Antonio
author
Lucas Miralles, Manuel
author
Ruiz Ramírez, Javier
2012-02-07T17:57:32Z
2012-02-07T17:57:32Z
2011-09
ZAMORA PARRA, Blas et al. Analysis of the air-water droplet motion through cooling tower drift eliminators, including comparative efficiency evaluations of several types of devices, by numerical investigation. Technology and Knowledge Transfer e-Bulletin, vol.2, no.7 2011. ISSN 2172-0436
2172-0436
http://hdl.handle.net/10317/2076
Mist eliminators (also called droplet eliminators, droplet separators or demisters) are devices that can remove liquid droplets from a gas flow. The gas flow laden with droplets is forced to pass through different channels, changing direction in a repetitive manner. Wave-plate (or vane type) eliminator are widely employed in chemical and industrial processes involving gas and vapour flows where mist removal is necessary for several reasons. For instance, one of the most important objectives is to restrict pollutant emission into the environment, as in cooling towers applications. Wave-plate mist eliminators can operate in vertical and horizontal situations, but in both cases, the removal of liquid droplets occurs mainly by inertial impaction. In cooling towers, spraying water is distributed over a heat transfer surface across or through which a stream of air is passing. Thus, water droplets can be captured by the stream of air and they will be carried out of the system. This phenomenon is known as drift. In countries with warm climate, inside the cooling towers the conditions of high temperature and humidity can strongly induce the spreading of pathogens agents, especially the Legionella pneumophila. The main disadvantage of installing mist (i.e., drift) eliminators is an increased pressure loss of the airflow. High-pressure loss contributes to lower flow rate of air or higher engine power of the ventilators. This fact leads to obtain lower overall efficiency values for the air-conditioning systems. Since a lack of systematic studies on comparative evaluation of morphologically similar separators has been detected, the behaviour of four wave-type eliminators having a similar geometry is studied. Both droplet collection efficiency and the pressure drop coefficient are calculated. Special emphasis is made on the validation of the numerical model with results taken from the literature, the study of the effects of relevant parameters, and the achievement of a procedure to evaluate the overall efficiency of each regarded type of eliminator. The obtained results may contribute to improve the passive droplets restraint systems in mechanical cooling towers, increasing the overall operation of the cooling tower on one side, and lowering their environmental impact on the other.
eng
Atribución-NoComercial-SinDerivadas 3.0 España
Particle flows
Droplets
Drift eliminator
Turbulence
CFD
Uncertainty analysis
Analysis of the air-water droplet motion through cooling tower drift eliminators, including comparative efficiency evaluations of several types of devices, by numerical investigation
info:eu-repo/semantics/article
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URL
https://repositorio.upct.es/bitstream/10317/2076/1/naa.pdf
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naa.pdf
URL
https://repositorio.upct.es/bitstream/10317/2076/6/naa.pdf.txt
File
MD5
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naa.pdf.txt