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Browsing Centros UC by browse.metadata.fuente "Converis"
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- ItemA behavioural comparison of route choice on metro networks : time transfers crowding topology and socio-demographics(2014) Raveau Feliú, Sebastián; Guo, Z.; Muñoz Abogabir, Juan Carlos; Wilson, N.; CEDEUS (Chile)
- ItemA comparison of bus passengers' and car drivers' valuation of casualty risk reductions in their routes(2019) Flugel, Stefan; Veisten, Knut; Rizzi Campanella, Luis Ignacio; Ortúzar Salas, Juan de Dios; Elvik, Rune; CEDEUS (Chile)
- ItemA comprehensive perspective of unreliable public transport services' costs(2020) Muñoz Abogabir, Juan Carlos; Soza Parra, Jaime Antonio; Raveau Feliú, Sebastián; CEDEUS (Chile)
- ItemA congested and dwell time dependent transit corridor assignment model(2016) Borja, Alonso; Muñoz Abogabir, Juan Carlos; Ibeas Henríquez, Miguel Ángel; Moura, José, Luis; CEDEUS (Chile)
- ItemA critical review of heat and mass transfer in vegetative roof models used in building energy and urban enviroment simulation tools(2018) Vera Araya, Sergio Eduardo; Pinto, Camilo; Tabares Velasco, Paulo Cesar; Bustamante Gómez, Waldo; CEDEUS (Chile)
- ItemA Dynamic, Multivariate Sustainability Measure for Robust Analysis of Water Management under Climate and Demand Uncertainty in an Arid Environment(2015) Hunter Cure, Christian Kent; Gironás León, Jorge Alfredo; CEDEUS (Chile)
- ItemA flexible and time-efficient schedule-based communication tool for integrated lighting and thermal simulations of spaces with controlled artificial lighting and complex fenestration systems(2016) Vera Araya, Sergio Eduardo; Bustamante Gómez, Waldo; Molina, G.; Uribe, D.; CEDEUS (Chile)
- ItemA GIS-based urban and peri-urban landscape representation toolbox for hydrological distributed modeling(2017) Sanzana Cuevas, Pedro Pablo; Gironás León, Jorge Alfredo; Brand, I.; Branger, F.; Rodríguez, F.; Vargas, X.; Hitschfeld, N.; Muñoz Pardo, José Francisco; Vicuña, Sebastián; Mejía, A.; Jankowski, S.; CEDEUS (Chile)
- ItemA lightweight fiber-based approach to reduce the risk of concrete detachment in shotcrete fortified tunnels(2020) Ortiz, C.; Lillo Gallardo, Patricio Andrés; López Casanova, Mauricio Alejandro; CEDEUS (Chile)
- ItemA long panel survey to elicit variation in preferences and attitudes in the choice of electric vehicles(2014) Jensen, A.; Cherchi, E.; Ortúzar Salas, Juan de Dios; CEDEUS (Chile)
- ItemA method for solving the multi-objective transit frequency optimization problem(2016) Giesen Encina, Ricardo; Martínez, H.; Mauttone, A.; Urquhart, M.; CEDEUS (Chile)
- ItemA methodology for assessing the chemical and physical potential of industrially sourced rice husk ash on strength development and early-age hydration of cement paste(2017) Zunino Sommariva, Franco; López Casanova, Mauricio Alejandro; CEDEUS (Chile)
- ItemA modeling approach to determining the relationship between vegetative filter strip design and sediment composition(2017) Lobo, G.; Bonilla Meléndez, Carlos Alberto; CEDEUS (Chile)
- ItemA new solution framework for the limited-stop bus service design problem(2017) Soto, G.; Larraín Izquierdo, Homero; Muñoz Abogabir, Juan Carlos; CEDEUS (Chile)
- ItemA numerical model for linking soil organic matter decay and wildfire severity(2021) Aedo Quililongo, Sebastián Alejandro; Bonilla Meléndez, Carlos Alberto; CEDEUS (Chile)Wildfires are a critical phenomenon in terrestrial ecosystems, and the intensity and frequency of these events have increased in recent years. High temperatures in the topsoil during wildfires can induce changes in soil physical, chemical, and biological properties due to the loss of soil organic matter (SOM). Therefore, the main objective of this study was to develop a numerical model to predict SOM decay during wildfire events. The model identifies the main parameters controlling SOM decay and predicts its decline by coupling the energy balance for soil heating and species conservation for water and SOM using high temperature-induced vaporization and combustion kinetics. Fluid flow was not included; however, the radiative energy conducted through soil pores was incorporated as a volumetric pore radius function. When the radiative term in the thermal conductivity was not considered, the model predicted the soil thermal evolution with a determination coefficient r(2) > 0.91 and with an r(2) > 0.98 when the volumetric pore radius was adjusted. The main parameters controlling SOM decay were soil texture, oxygen availability, and initial soil water and SOM contents. SOM decay was also dependent on the wildfire temperature and exposure time. In terms of soil texture, SOM decay increases as sand increases or clay reduces. The main results showed that the soil water content controlled the amount of heat consumed during vaporization, the normalized SOM decay does not depend on the initial SOM content, and the restricted oxidation limited SOM decay. Finally, this study reduces the number of parameters when studying SOM decay and second-order fire effects for post-fire assessment and restoration. Also, because it provides a better understanding of how wildfires affect SOM, implemented as an additional routine, the model can enhance other existing computer models for describing ecological processes.
- ItemA polarized logit model(2013) De Grange, Louis; González, Felipe; Vargas Cucurella, Ignacio Tomás; Muñoz Abogabir, Juan Carlos; CEDEUS (Chile)
- ItemA quasi-equilibrium approach for market clearing in land use microsimulations(2017) Hurtubia González, Ricardo; Martínez, F.; Bierlaire, M.; CEDEUS (Chile)
- ItemA stochastic model for bus injection in an unscheduled public transport service(2020) Morales Navarrete, Diego Fabián; Muñoz Abogabir, Juan Carlos; Gazmuri S., Pedro; CEDEUS (Chile)
- ItemA trade-off analysis between penetration rate and sampling frequency of mobile sensors in traffic state estimation(2014) Bucknell Riderelli, Christopher Paul; Herrera Maldonado, Juan Carlos; CEDEUS (Chile)
- ItemA transient model for temperature prediction in a salt-gradient solar pond and the ground beneath it(2017) Amigo, J.; Meza, Francisco Javier; Suárez, F.; CEDEUS (Chile)