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dc.creatorLuna-Delrisco M.
dc.creatorSuarez F.Q.
dc.creatorArredondo Orozco C.A.
dc.creatorMoncada S.V.
dc.creatorPalacio M.G.
dc.creatorArrieta Gonzalez C.E.
dc.creatorImbachi J.C.
dc.creatorQuiza Montealegre J.J.
dc.date2019
dc.date.accessioned2020-04-29T14:54:08Z
dc.date.available2020-04-29T14:54:08Z
dc.identifier.isbn9789899843493
dc.identifier.issn21660727
dc.identifier.urihttp://hdl.handle.net/11407/5814
dc.descriptionThe illumination household represents an important percentage of electricity consumption in developing countries. The electricity consumption derived from residential illumination is strongly reduced by assuming cleaner and more efficient technologies. One of the Sustainable Development Goals (SDG) considers responsible consumption and production of goods and services, in which the authors have focused this study on lighting loads on households. For this matter, IlluminApp has been developed. It is an educational tool, which allows to identify the benefits of the illumination technology conversion to residential users, as well as, an estimation on energy savings and the retrofit cost reduction by using different light bulbs technologies. The application uses a simple cost and energetic model to estimate: payback time, CO2emissions reduction, money, and energetic savings. This software is available in English and Spanish. The objective of this paper is to discuss in detail the interfaces of this application and its main functionalities. © 2019 AISTI.
dc.language.isoeng
dc.publisherIEEE Computer Society
dc.relation.isversionofhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85070105236&doi=10.23919%2fCISTI.2019.8760618&partnerID=40&md5=b50852493e6e0fed8a5a58907d0a9627
dc.sourceIberian Conference on Information Systems and Technologies, CISTI
dc.subjectEducational support tool
dc.subjectElectricity savings
dc.subjectEnergy efficiency education
dc.subjectLighting household reconversion
dc.subjectCost benefit analysis
dc.subjectCost estimating
dc.subjectDeveloping countries
dc.subjectElectric power utilization
dc.subjectEnergy efficiency
dc.subjectHousing
dc.subjectIncandescent lamps
dc.subjectInformation systems
dc.subjectInformation use
dc.subjectEfficient technology
dc.subjectElectricity saving
dc.subjectElectricity-consumption
dc.subjectHousehold applications
dc.subjectIllumination system
dc.subjectIllumination technology
dc.subjectResidential users
dc.subjectSupport tool
dc.subjectCost reduction
dc.titleIlluminApp: Educational support tool for sustainable indoor illumination system reconversion for household applications
dc.typeConference Paper
dc.typeinfo:eu-repo/semantics/publishedVersion
dc.typeinfo:eu-repo/semantics/article
dc.rights.accessRightsinfo:eu-repo/semantics/restrictedAccess
dc.publisher.programIngeniería de Sistemas; Ingeniería de Telecomunicaciones;Ingeniería en Energía
dc.identifier.doi10.23919/CISTI.2019.8760618
dc.citation.volume2019-June
dc.publisher.facultyFacultad de Ingenierías
dc.affiliationLuna-Delrisco, M., Energy Engineering Department, Universidad de Medellín, Medellin, Colombia; Suarez, F.Q., Energy Engineering Department, Universidad de Medellín, Medellin, Colombia; Arredondo Orozco, C.A., Energy Engineering Department, Universidad de Medellín, Medellin, Colombia; Moncada, S.V., Energy Engineering Department, Universidad de Medellín, Medellin, Colombia; Palacio, M.G., Telecommunications Engineering Department, Universidad de Medellín, Medellin, Colombia; Arrieta Gonzalez, C.E., Energy Engineering Department, Universidad de Medellín, Medellin, Colombia; Imbachi, J.C., Telecommunications Engineering Department, Universidad de Medellín, Medellin, Colombia; Quiza Montealegre, J.J., Telecommunications Engineering Department, Universidad de Medellín, Medellin, Colombia
dc.source.bibliographicCitation(2018) Energy Efficiency, , The World Bank
dc.source.bibliographicCitationBringezu, S., Key strategies to achieve the sdgs and consequences for monitoring resource use (2018) Managing Water, Soil and Waste Resources to Achieve Sustainable Development Goals, pp. 11-34. , Cham: Springer International Publishing
dc.source.bibliographicCitationJones, P., Comfort, D., Hillier, D., Common Ground: The sustainable development goals and the marketing and advertising industry (2018) J. Public Aff., 18 (2), p. e1619. , May
dc.source.bibliographicCitation(2011) Informe Sectorial Sobre la Evolución de la Distribución y Comercialización de Energía Eléctrica en Colombia, , UPME-Unidad de planeación minero-energética
dc.source.bibliographicCitation(2018) How Much Electricity Is Used for Lighting in the United States?-FAQ-U. S. Energy Information Administration (EIA), , EIA-Energy Information Administration
dc.source.bibliographicCitation(2017) BP Statistical Review of World Energy June 2017., , British Petroleum
dc.source.bibliographicCitationNejat, P., Jomehzadeh, F., Taheri, M.M., Gohari, M., Abd. Majid, M.Z., A global review of energy consumption, CO2 emissions, and policy in the residential sector (with an overview of the top ten CO2 emitting countries) (2015) Renew. Sustain. Energy Rev., 43, pp. 843-862. , Mar
dc.source.bibliographicCitationCO2 emissions from fuel combustion: Overview (2017 edition) (2017) Statistics (Ber)., p. 14. , International Energy Agency
dc.source.bibliographicCitationAllouhi, A., El Fouih, Y., Kousksou, T., Jamil, A., Zeraouli, Y., Mourad, Y., Energy consumption and efficiency in buildings: Current status and future trends (2015) J. Clean. Prod., 109, pp. 118-130. , Dec
dc.source.bibliographicCitation(2013) Lighting Technologies: A Guide to Energy-Efficient Illumination, p. 2. , Energy Star
dc.source.bibliographicCitationMatulka, D., Rebecca, Wood, The history of the Light Bulb (2013) US Department of Energy
dc.source.bibliographicCitation(2016) Calculadora kgCO2eq, , http://www.upme.gov.co/calculadora_emisiones/aplicacion/calculadora.html, [Accessed: 06-Feb-2019]
dc.source.bibliographicCitationKhan, N., Abas, N., Comparative study of energy saving light sources (2011) Renew. Sustain. Energy Rev., 15 (1), pp. 296-309. , Jan
dc.source.bibliographicCitationAckermann, B., Sauerländer, G., (2017) Power Electronics for the Light of the Future, pp. 186-195
dc.source.bibliographicCitationPrincipi, P., Fioretti, R., A comparative life cycle assessment of luminaires for general lighting for the office-compact fluorescent (CFL) vs Light Emitting Diode (LED)-a case study (2014) J. Clean. Prod., 83, pp. 96-107. , Nov
dc.source.bibliographicCitationNardelli, A., Deuschle, E., De Azevedo, L.D., Pessoa, J.L.N., Ghisi, E., Assessment of Light Emitting Diodes technology for general lighting: A critical review (2017) Renew. Sustain. Energy Rev., 75, pp. 368-379. , Aug
dc.source.bibliographicCitationCasamayor, J., Su, D., Ren, Z., Comparative life cycle assessment of LED lighting products (2018) Light. Res. Technol., 50 (6), pp. 801-826. , Oct
dc.source.bibliographicCitationRoisin, B., Bodart, M., Deneyer, A., D'Herdt, P., Lighting energy savings in offices using different control systems and their real consumption (2008) Energy Build., 40 (4), pp. 514-523. , Jan


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