Your search keyword '"Francisco Javier Castilla Pascual"' showing total 5 results

1. Application of low-cost sensors for accurate ambient temperature monitoring

Author

Behnam Mobaraki, Seyedmilad Komarizadehasl, Francisco Javier Castilla Pascual, José Antonio Lozano-Galant, and Universitat Politècnica de Catalunya. Doctorat en Enginyeria de la Construcció

Subjects

Monitorització de salut estructural, Structural health monitoring, building monitoring, Arduino microcontroller, thermal analysis, low-cost sensor, statistical analysis, indoor temperature, Statistical analysis, Indoor temperature, Architecture, Building monitoring, Enginyeria civil::Materials i estructures [Àrees temàtiques de la UPC], Building and Construction, Thermal analysis, Low-cost sensor, Civil and Structural Engineering

Abstract

In structures with reduced monitoring budgets, the high cost of commercial metering devices is always an obstacle for monitoring structural health. This might be an issue when temperatures must be measured for both structural and environmental reasons. To fill this gap, in this paper, a novel monitoring system is proposed for the accurate measurement of indoor temperature in buildings. This protocol is characterized by its generality, as it can be easily adapted to measure any structural or environmental parameters on site. The proposed monitoring system uses from one to eight low-cost sensors to obtain multiple measurements of the ambient temperatures. The accuracy ranges of the developed monitoring systems with different numbers of sensors are statistically analysed. The results indicate that the discrepancy of the measurements decreases with the increase in the number of sensors, as the maximum standard deviation of 10 sensors (0.42) decreases to 0.32 and 0.27 for clusters of 20 and 30 sensors, respectively. This research was funded by the Spanish Ministry of Economy and Competitiveness (grant number BIA2013-47290-R, BIA2017-86811-C2-1-R, and BIA2017-86811-C2-2-R) and by the Universidad de Castilla La Mancha (grant number 2018-COB-9092).

Published

2022

2. Evaluation of the Thermal Comfort and Energy Demand in a Building with Rammed Earth Walls in Spain: Influence of the Use of In Situ Measured Thermal Conductivity and Estimated Values

Author

Miguel Ángel Mellado Mascaraque, Francisco Javier Castilla Pascual, Víctor Pérez Andreu, and Guillermo Adrián Gosalbo Guenot

Subjects

Building construction, indoor monitoring, energy demand, thermal transmittance, Architecture, comfort, thermal conductivity, Building and Construction, rammed earth, building simulation, code compliance, TH1-9745, Civil and Structural Engineering

Abstract

This paper describes the influence of thermal parameters—conductivity, transmittance, and thermal mass—in the estimation of comfort and energy demand of a building with rammed earth walls, and consequently, the compliance with standards. It is known that nominal design data does not match in situ measured values, especially in traditionally constructed buildings. We have therefore monitored a room in a building with rammed earth walls, designed a computerised model, and compared four different alternatives where we have changed the value for the thermal conductivity (in situ vs. estimated) and the consideration of thermal mass. When we then analyse the compliance with the Spanish energy saving code, using measured values would result in lower differences with the standards’ limits and even comply with the global thermal transmittance (K-value) requirement. This would mean a more realistic approach to the restoration of traditional buildings leading to the use of thinner and more suitable insulation and retrofitting systems, encouraging the use of rammed earth in new buildings, and therefore reducing the carbon footprint due to materials used in construction. Results show that the building model that uses in situ values and considers thermal mass (S1) is closer to reality when assessing thermal comfort. Finally, using nominal data would result in requiring 43% more energy in the selected winter period and 102% more energy in the selected summer period to keep the same comfort conditions as in the alternative where measured values are used.

Published

2021

3. A Novel Data Acquisition System for Obtaining Thermal Parameters of Building Envelopes

Author

Behnam Mobaraki, Seyedmilad Komarizadehasl, Francisco Javier Castilla Pascual, José Antonio Lozano-Galant, Rocio Porras Soriano, and Universitat Politècnica de Catalunya. Doctorat en Enginyeria de la Construcció

Subjects

Monitorització de salut estructural, Structural health monitoring, HEAT, building thermal monitoring, temperature-based method, energy efficiency, transmittance parameter, low-cost sensors, Enginyeria civil::Materials i estructures [Àrees temàtiques de la UPC], Building and Construction, Temperature-based method, Energy efficiency, Transmittance parameter, Hardware_GENERAL, Architecture, Building thermal monitoring, Low-cost sensors, Civil and Structural Engineering

Abstract

Owing to the high energy consumption in the building sector, appraising the thermal performance of building envelopes is an increasing concern. Recently, a few in situ methodologies to diagnose the thermal parameters of buildings have been considered. However, because of their limitations such as low accuracy, limited number of measurements, and the high cost of monitoring devices, researchers are seeking a new alternative. In this study, a novel hyper-efficient Arduino transmittance-meter was introduced to overcome these limitations and determine the thermal parameters of building envelopes. Unlike conventional methodologies, the proposed transmittance-meter is based on synchronized measurements of different parameters necessary to estimate the transmittance parameter. To verify the applicability of the transmittance-meter, an experimental study was conducted wherein a temperature-controlled box model was thermally monitored, and the outputs of the transmittance-meter employed were compared with those captured by a commercial device. The results revealed a high level of reduction in cost and a low range of difference compared with the latter, thereby validating the applicability of the proposed thermal monitoring system. This research was funded by the Spanish Ministry of Economy and Competitiveness, grant numbers BIA2013-47290-R, BIA2017-86811-C2-1-R, and BIA2017-86811-C2-2-R, and Ministerio de Ciencia Innovación y Universidades: PRE2018-085172.

Published

2022

4. Application of Low-Cost Sensors for Building Monitoring: A Systematic Literature Review

Author

Rocio Porras Soriano, Francisco Javier Castilla Pascual, Fidel Lozano-Galant, and Behnam Mobaraki

Subjects

Building construction, building monitoring, Computer science, 020209 energy, 010401 analytical chemistry, systematic literature review, Monitoring system, state of the art, 02 engineering and technology, Building and Construction, communication protocol, 01 natural sciences, low-cost sensor, 0104 chemical sciences, Microcontroller, Systematic review, microcontroller, Architecture, 0202 electrical engineering, electronic engineering, information engineering, Systems engineering, State (computer science), Communications protocol, TH1-9745, Civil and Structural Engineering

Abstract

In recent years, many scholars have dedicated their research to the development of low-cost sensors for monitoring of various parameters. Despite their high number of applications, the state of the art related to low-cost sensors in building monitoring has not been addressed. To fill this gap, this article presents a systematic review, following well-established methodology, to analyze the state of the art in two aspects of structural and indoor parameters of buildings, in the SCOPUS database. This analysis allows to illustrate the potential uses of low-cost sensors in the building sector and addresses the scholars the preferred communication protocols and the most common microcontrollers for installation of low-cost monitoring systems. In addition, special attention is paid to describe different areas of the two mentioned fields of building monitoring and the most crucial parameters to be monitored in buildings. Finally, the deficiencies in line with limited number of studies carried out in various fields of building monitoring are overviewed and a series of parameters that ought to be studied in the future are proposed.

Published

2021

5. Performance and energetic cost in the construction of adobe and compressed soil block walls

Author

Fernando Vela Cossío, David Rivera Gómez, Luis Maldonado Ramos, and Francisco Javier Castilla Pascual

Subjects

Engineering, Environmental Engineering, business.industry, Building and Construction, Plan (drawing), Research process, Test (assessment), Architecture, Constructive analysis, business, Humanities, Research center, Civil and Structural Engineering

Abstract

This study synthetically sets forth the results of a research financed as a Special Action by the R+D National Plan; said research had as a main objective the scientific test of the advantages of building with earth in its improved present applications, starting from the sustainable bioclimatic qualities which were already traditionally known. The research process was divided between the constructive analysis of the traditional homes of the North-east Area of Segovia and the proofs obtained in laboratory at the Eduardo Torroja Institute, the School of Architecture of Madrid and the facilities of the Traditional Architecture Research Center (CIAT) in Boceguillas (Segovia). Este artículo expone sintéticamente los resultados de una investigación financiada como Acción Especial por el Plan Nacional de I+D; dicha investigación tenía como objeto la demostración científica de las ventajas de la construcción con tierra en sus aplicaciones actuales mejoradas, partiendo de las cualidades bioclimáticas y sostenibles que ya eran conocidas tradicionalmente. El proceso investigador se repartió entre el análisis constructivo de las viviendas tradicionales de la Comarca Nordeste de Segovia y las pruebas de laboratorio en el Instituto Eduardo Torroja, la Escuela de Arquitectura de Madrid, y las instalaciones del Centro de Investigación de Arquitectura Tradicional (C.I.A.T.), en Boceguillas (Segovia).

Published

2001