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Estimating a threshold price for CO2 emissions of buildings to improve their energy performance level. Case study of a new Spanish home

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Estimating a threshold price for CO2 emissions of buildings to improve their energy performance level. Case study of a new Spanish home

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dc.contributor.author Ruá Aguilar, María José es_ES
dc.contributor.author Guadalajara Olmeda, María Natividad es_ES
dc.date.accessioned 2016-03-01T16:24:20Z
dc.date.available 2016-03-01T16:24:20Z
dc.date.issued 2015-04
dc.identifier.issn 1570-646X
dc.identifier.uri http://hdl.handle.net/10251/61335
dc.description.abstract Energy consumption in homes produces CO2. In many countries, building regulations are being set to enable energy efficiency performance levels to be issued. In Spain, there is a regulated procedure to certify the energy performance of buildings according to their CO2 emissions. Consequently, some software tools have been design to simulate buildings and to obtain their energy consumption and CO2 emissions. In this paper the investment, maintenance and energy consumption costs are calculated for different energy performance levels and for various climatic zones, in a single-family home. According to the results, more energy efficient buildings imply higher construction and maintenance costs, which are not compensated by lower energy costs. Therefore, under current conditions, economic criteria do not support the improvement of the energy efficiency of a dwelling. Among the possible measures to promote energy efficiency, a price on CO2 emissions is to be suggested, including the social cost in the analysis. For this purpose, the cost-optimal methodology is used. In different scenarios for the discount rate y energy prices, various prices for CO2 are obtained, depending on the climatic zone and energy performance level. es_ES
dc.language Inglés es_ES
dc.publisher Springer Verlag (Germany) es_ES
dc.relation.ispartof Energy Efficiency es_ES
dc.rights Reserva de todos los derechos es_ES
dc.subject Energy performance of buildings es_ES
dc.subject Net Present Value es_ES
dc.subject Cost-optimal methodology es_ES
dc.subject Construction and maintenance costs es_ES
dc.subject Energy consumption es_ES
dc.subject CO2 emissions es_ES
dc.subject.classification ECONOMIA, SOCIOLOGIA Y POLITICA AGRARIA es_ES
dc.subject.classification CONSTRUCCIONES ARQUITECTONICAS es_ES
dc.subject.classification ECONOMIA FINANCIERA Y CONTABILIDAD es_ES
dc.title Estimating a threshold price for CO2 emissions of buildings to improve their energy performance level. Case study of a new Spanish home es_ES
dc.type Artículo es_ES
dc.identifier.doi 10.1007/s12053-014-9286-2
dc.rights.accessRights Abierto es_ES
dc.contributor.affiliation Universitat Politècnica de València. Departamento de Construcciones Arquitectónicas - Departament de Construccions Arquitectòniques es_ES
dc.contributor.affiliation Universitat Politècnica de València. Departamento de Economía y Ciencias Sociales - Departament d'Economia i Ciències Socials es_ES
dc.description.bibliographicCitation Ruá Aguilar, MJ.; Guadalajara Olmeda, MN. (2015). Estimating a threshold price for CO2 emissions of buildings to improve their energy performance level. Case study of a new Spanish home. Energy Efficiency. 8(2):183-203. doi:10.1007/s12053-014-9286-2 es_ES
dc.description.accrualMethod S es_ES
dc.relation.publisherversion http://dx.doi.org/10.1007/s12053-014-9286-2 es_ES
dc.description.upvformatpinicio 183 es_ES
dc.description.upvformatpfin 203 es_ES
dc.type.version info:eu-repo/semantics/publishedVersion es_ES
dc.description.volume 8 es_ES
dc.description.issue 2 es_ES
dc.relation.senia 268399 es_ES
dc.identifier.eissn 1570-6478
dc.description.references AICIA. (2009). Escala de calificación energética. Edificios de nueva construcción. Madrid: Instituto para la Diversificación y Ahorro de la Energía, Ministerio de Industria, Turismo y Comercio. es_ES
dc.description.references Al-Homoud, M. S. (2005). Performance characteristics and practical applications of common building thermal insulation materials. Building and Environment, 40(3), 353–360. es_ES
dc.description.references Amecke, H. (2012). The impact of energy performances certificates: a survey of German home owners. Energy Policy, 46, 4–14. es_ES
dc.description.references Andaloro, A., Salomone, R., Ioppolo, G., & Andaloro, L. (2010). Energy certification of buildings: a comparative analysis of progress towards implementation in European countries. Energy Policy, 38(10), 5840–5866. es_ES
dc.description.references Annunziata, E., Frey, M., & Rizzi, F. (2013). Towards nearly zero-energy buildings: the state-of-art of national regulations in Europe. Energy, 57, 125–133. doi: 10.1016/j.energy.2012.11.049 . es_ES
dc.description.references Audenaert, A., De Boeck, L., & Roelants, K. (2010). Economic analysis of the profitability of energy-saving architectural measures for the achievement of the EPBD-standard. Energy, 35(7), 2965–2971. es_ES
dc.description.references Bertrán, A. (2009). Las mediciones en las obras adaptadas al CTE (4th ed.). Granada: Editorial Jorge Loring S.I. es_ES
dc.description.references Brathal, D., & Langemo, M. (2004). Facilities management: a guide for total workplace design and management. Grand Forks: Knight Printing. es_ES
dc.description.references Brown, D. W. (1996). Facility maintenance: the manager’s practical guide and handbook. New York: AMACOM American Management Association. New York, NY 10019. es_ES
dc.description.references Concerted Action EPBD (2008). Implementation of the energy performance of buildings directive. Country reports 2008. Brussels: Directorate General for Energy and Transport, European Commission (available at www.epbd.ca.eu and www.buildup.eu ). es_ES
dc.description.references Concerted Action EPBD (2011). Implementing the energy performance of buildings directive. Country reports 2011. Brussels: European Union (available at www.epbd.ca.eu and www.buildup.eu ). es_ES
dc.description.references Davies, H., & Wyatt, D. (2004). Appropriate use or method for durability and service life prediction. Building Research and Information, 32(6), 552–553. es_ES
dc.description.references Dresner, S., & Ekins, P. (2006). Economic instruments to improve UK home energy efficiency without negative social impacts. Fiscal Studies, 27(1), 47–74. es_ES
dc.description.references Drury, C. (2008). Management and cost accounting, 7th ed. London. es_ES
dc.description.references Eurostat European Comission, Instituto de Diversificación y Ahorro de Energía (IDAE), Ministerio de Industria, Energía y Turismo (2011). Proyecto SECH-SPAHOUSEC. Análisis del consumo energético del sector residencial en España. Informe Final. Madrid. es_ES
dc.description.references Fraunhofer Institute for Systems and Innovation Research ISI (Germany) (2012). Financing the energy efficient transformation of the building sector in the EU. Lessons from the ODYSSEE-MURE project. es_ES
dc.description.references Garrido, N., Almecija, J. C., Folch, C., Martínez, I. (2011). Certificación energética de edificios. Grupo de Estudios de Energía para la Sostenibilidad (CEES). Cátedra Unesco Sostenibilidad, Universitat Politècnica de Catalunya. (Available at: upcommons.upc.edu/e-prints/bitstream/2117/11820/1/GAS Natural_090406.pdf). es_ES
dc.description.references Gómez, J. M., & Esteban, M. A. (2010). Sostenibilidad en la edificación. Comparación de dos tipologías constructivas. Rendimiento de los recursos. Ingeniería de Edificación Universitat Politècnica de Catalunya. (Available at: upcommons.upc.edu/pfc/bitstream/2099.1/…/1/PFG_Completo.pdf). es_ES
dc.description.references Gram-Hanssen, K., Bartiaux, F., Michael Jensen, O., & Cantaert, M. (2007). Do homeowners use energy labels? A comparison between Denmark and Belgium. Energy Policy, 35(5), 2879–2888. es_ES
dc.description.references Institut de Tecnologia de la Construcció de Catalunya (ITEC) (1991a). Manual de uso y conservación de la vivienda. COAAT Principado de Asturias. Simancas Ediciones S.A. Valladolid. es_ES
dc.description.references Institut de Tecnologia de la Construcció de Catalunya (ITEC). (1991b). Manteniment de l’edifici. Fitxes (1st ed.). Badalona: Gràfiques Pacífic. es_ES
dc.description.references Institut de Tecnologia de la Construcció de Catalunya (ITEC). (1991c). Manteniment instal.lacions. Fitxes (1st ed.). Badalona: Gràfiques Pacífic. es_ES
dc.description.references Institut de Tecnologia de la Construcció de Catalunya (ITEC). (1991d). Manteniment urbanització. Fitxes (1st ed.). Badalona: Gràfiques Pacífic. es_ES
dc.description.references Institut de Tecnologia de la Construcció de Catalunya (ITEC). (1994). L’actualitat i el cost del manteniment en edificis d’habitatge. Guia pràctic (1st ed.). Barcelona: Gama S.L. Servicios editoriales. es_ES
dc.description.references Institut de Tecnologia de la Construcció de Catalunya (ITEC). (1996). Ús i manteniment de l’habitatge. Quadern de l’usuari (1st ed.). Zaragoza: Gràfiques Cometa. es_ES
dc.description.references Institut de Tecnologia de la Construcció de Catalunya (ITEC) (1997). La vivienda: Manual de uso y mantenimient, COAAT de Cantabria. 1ª ed. es_ES
dc.description.references Institut de Tecnologia de la Construcció de Catalunya (ITEC) (1999). La vivienda: Manual de uso y mantenimiento, COAAT Principado de Asturias. 2ª ed. Simancas Edicionas S.A. Valladolid. es_ES
dc.description.references Instituto de Diversificación y Ahorro de Energía (IDAE), Ministerio de Industria, Turismo y Comercio (MITYC) (2010). Guía Técnica: Condiciones climáticas exteriores de proyecto, (available at: http://www.minetur.gob.es/energia/desarrollo/eficienciaenergetica/rite/reconocidos/reconocidos/condicionesclimaticas.pdf ). es_ES
dc.description.references Instituto Eduardo Torroja de Ciencias de la Construcción (IETCC) (2010). Catálogo de Elementos Constructivos del Código Técnico, versión CAT-EC-v06.3-MARZO10. Madrid. es_ES
dc.description.references Jáber-López, J. T., Valencia-Salazar, I., Peñalvo-López, E., Álvarez-Bel, C., Rivera-López, R., Merino-Hernández, E. (2011). Are energy certification tools for buildings effective? A Spanish case study, Proceedings of the 2011 3rd International Youth Conference on Energetics. Leiria, July 7–9. es_ES
dc.description.references Johnstone, I. M. (2001a). Energy and mass flows of housing: a model and example. Building and Environment, 36, 27–41. es_ES
dc.description.references Johnstone, I. M. (2001b). Energy and mass flows of housing: estimating mortality. Building and Environment, 36, 43–51. es_ES
dc.description.references Kaiser, H. H. (2001). The facilities audit. A process for improving facilities conditions. Arlington: Kirby Lithographic. APPA. The Association of Higher Education Facilities Officers. es_ES
dc.description.references Kjaerbye, V. H. (2008). Does energy label on residential housing cause energy savings? AKF, Danish Institute of Governmental Research. es_ES
dc.description.references La Roche, P. (2010). Calculating green house emissions for houses: analysis of the performance of several carbon counting tools in different climates. Informes de la Construcción, 62(517), 61–80. es_ES
dc.description.references Larsen, B. M., & Nebakken, R. (1997). Norwegian emissions of CO2 1987–1994. Environmental and Resource Economics, 9, 275–290. es_ES
dc.description.references Laustsen, J. (2008). Energy efficiency requirements in building codes, energy efficiency policies for new buildings. Paris: International Energy Agency information paper. es_ES
dc.description.references Linares, P., & Labandeira, X. (2010). Energy efficiency: economics and policy. Journal of Economic Surveys, 24(3), 573–592. es_ES
dc.description.references Liska, R. W. (2000). Means facilities maintenance standards. Kingston: R.S. Means Company, Inc. Construction Publishers & Consultants. es_ES
dc.description.references Majcen, D., Itard, H., & Visscher, H. (2013). Theoretical vs. actual energy consumption of labelled dwellings in the Netherlands: discrepancies and policy implications. Energy Policy, 54, 125–136. es_ES
dc.description.references Mercader, M. P., Olivares, M., & Ramírez de Arellano, A. (2012). Modelo de cuantificación del consumo energético en edificación. Informes de la Construcción, 62(308), 567–582. es_ES
dc.description.references Ministry of Development of Spain. Directorate for Architecture, Housing and Planning. Report on cost optimal calculations and comparison with the current and future energy performance requirements of buildings in Spain. Version 1.1, 7th June 2013. es_ES
dc.description.references Pérez-Lombard, L., Ortiz, J., & González, R. (2009). A review of benmarching, rating and labelling concepts within the framework of building energy certification schemes. Energy and Buildings, 41(3), 272–278. es_ES
dc.description.references Piper, J. E. (1995). Handbook of facility management: tools and techniques, formulas and tables. Upper Saddle River: Prentice Hall Inc. es_ES
dc.description.references Popescu, D., Bienert, S., Schützenhofer, C., & Boazu, R. (2012). Impact of energy efficiency measures on the economic value of buildings. Applied Energy, 89(1), 454–463. es_ES
dc.description.references Ramírez de Arellano, A. (2004). Presupuestación de obras. 3ª ed. Universidad de Sevilla. Secretariado de Publicaciones. Colección Manuales Universitarios, 37. es_ES
dc.description.references Rodríguez-González, A. B., Vinagre-Díaz, J. J., Caañamo, A. J., & Wilby, M. R. (2011). Energy and buildings, 43(4), 980–987. es_ES
dc.description.references Ruá, M. J., & Guadalajara, N. (2013). Application of compromise programming to a semi-detached housing development in order to balance economic and environmental criteria. Journal of the Operational Research Society, 64, 459–468. es_ES
dc.description.references Ruá, M. J., & Guadalajara, N. (2014). Using the building energy rating software for mathematically modelling operation costs in a simulated home. International Journal of Computer Mathematics. doi: 10.1080/00207160.2014.892588 . es_ES
dc.description.references Ruá, M. J., & López-Mesa, B. (2012). Certificación energética de edificios en España y sus implicaciones económicas. Informes de la Construcción, 64(527), 307–318. es_ES
dc.description.references Rudbeck, C. (2002). Service life of building envelope components: making it operational in economical assessment. Construction and Building Materials, 16(2), 83–89. es_ES
dc.description.references Ruiz, M. C., & Romero, E. (2011). Energy saving in the conventional design of a Spanish house using thermal simulation. Energy and Building, 43(11), 3226–3235. es_ES
dc.description.references Sanstad, A. H., Blumstein, C., & Stoff, S. E. (1995). How high are option values in energy-efficiency investments? Energy Policy, 23(9), 739–743. es_ES
dc.description.references Sumner, J., Bird, L., Smith, H. (2009). Carbon taxes: a review of experience and policy design consideration. Technical Report NREL/TP-6A2-47312. National Renewable Energy Laboratory. US Department of Energy. es_ES
dc.description.references Tuominen, P., Forsström, J., & Honkatukia, J. (2013). Economic effects of energy efficiency improvements in the Finnish building stock. Energy Policy, 52, 181–189. es_ES
dc.description.references Ucar, A., & Balo, F. (2009). Effect of fuel type on the optimum thickness of selected insulation materials for the four different climatic regions of Turkey. Applied Energy, 86(5), 730–736. es_ES
dc.description.references Universidad Politécnica De Madrid. Departamento de Construcción y Vías Rurales (2009). Evaluación de los costes constructivos y consumos energéticos derivados de la calificación energética de viviendas. Precost&E. Fase1. es_ES
dc.description.references Uzsilaityte, L., & Martinaitis, V. (2010). Search for optimal solution of public building renovation in terms of life cycle. Journal of Environmental Engineering and Landscape Management, 18(2), 102–110. es_ES
dc.description.references Verbruggen, A. (2012). Financial appraisal of efficiency investments: why the good may be the worst enemy of the best. Energy Efficiency, 5, 571–582. es_ES


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