Browsing by Author "Rojas, Victoria"
Now showing 1 - 4 of 4
Results Per Page
Sort Options
- ItemExperimental study of the thermal performance of living walls under semiarid climatic conditions(2015) Victorero Castaño, Felipe Andrés; Vera Araya, Sergio Eduardo; Bustamante Gómez, Waldo; Tori, Felipe; Bonilla Meléndez, Carlos Alberto; Gironás León, Jorge Alfredo; Rojas, Victoria; CEDEUS (Chile)
- ItemInfluence of plant and substrate characteristics of vegetated roofs on a supermarket energy performance located in a semiarid climate(2015) Vera Araya, Sergio Eduardo; Pinto, Camilo; Victorero Castaño, Felipe Andrés; Bustamante Gómez, Waldo; Bonilla Meléndez, Carlos Alberto; Gironás León, Jorge Alfredo; Rojas, Victoria; CEDEUS (Chile)
- ItemPorous media characterization to simulate water and heat transport through green roof substrates(2017) Sandoval, Victoria; Bonilla Meléndez, Carlos Alberto; Gironás León, Jorge Alfredo; Vera Araya, Sergio Eduardo; Victorero Castaño, Felipe Andrés; Bustamante Gómez, Waldo; Rojas, Victoria; Leiva, Eduardo; Pastén González, Pablo Arturo; Suárez Poch, Francisco Ignacio; CEDEUS (Chile)
- ItemSustainable Water Management in Urban Environment: Green Roof Experience in Semiarid Climate(IAHR-International Association of Hydro-Environment Engineering Research, 2015) Reyes Piña, Fermín Rodolfo; Vera Araya, Sergio Eduardo; Victorero Castaño, Felipe Andres; Bustamante Gómez, Waldo; Gironás León, Jorge Alfredo; Rojas, Victoria; Bonilla Meléndez, Carlos Alberto; CEDEUS (Chile)Most green roofs have been studied and built in humid climates, with many benefits such as thermal isolation and biodiversity. However, little is known about their performance in arid and semiarid climates where irrigation system affects the sustainability of this technology. In order to improve the water efficiency and get a sustainable water management, five 4-m2 modules of vegetated roofs were instrumented and monitored to evaluate the irrigation water requirements during the first year in Santiago, Chile (33 degrees 26 ' S, 70 degrees 39 ' W, 570 MASL). Based on the water retention properties, the maximum soil available water was 10%, the permanent wilting point was 17% and 27% at field capacity. Three substrate depths (5-cm, 10-cm and 20-cm) and three commercial drainage systems found in Chile were evaluated. The results showed that with the same drainage system and irrigation conditions, the substrate depth controls both, stored water and daily temperature oscillation during summer. While 5 and 10-cm substrates showed low water contents ( close to the minimum for plant survival) and peak temperatures (54 degrees C and 38 degrees C respectively), 20-cm substrate reached the minimum soil moisture only in days with high atmospheric demands reaching a peak soil temperature of 27 degrees C. To provide a better and sustainable condition for the 5-cm green roof modules, water retention capacity was incremented to resist the harsh summer atmospheric conditions. With a proper drainage system, substrate moisture in 5-cm green roof was equal or higher than the measured in the 20-cm green roof. However, peak temperatures were not reduced. Therefore, in addition to water requirements and plant species tolerance to drought and high temperatures, it is crucial to know the soil water retention properties and selecting a suitable type of drainage. These factors, along with the irrigation criterion, must be considered in order to get a sustainable water management on an urban green roof when built in semiarid climate.