Smart window design with aerosol trap, greenhouse gardening and powered by solar panels

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dc.contributor.authorMikhailova, Svetlana
dc.contributor.authorMikhailov, Leonid
dc.contributor.authorIsmailova, Guzal
dc.contributor.authorKenes, Nursultan
dc.contributor.authorYersaiyn, Raiymbek
dc.contributor.authorMahmutov, Ruslan
dc.date.accessioned2020-10-19T05:34:52Z
dc.date.available2020-10-19T05:34:52Z
dc.date.issued2020-08
dc.description.abstractPhotovoltaic panels usage in urban conditions only for energy production is unprofitable, since energy from traditional energy sources is much cheaper and the infrastructure for transporting energy to consumers in cities has already been formed. Fundamental difference between the proposed device in social and economic terms is that the individual consumer is offered not energy from the power plant, but a household device with a combination of LED illuminator with and sunlight-regulating external blinds [1, 2]. Along the way, it will help to solve global human problems of ecology, by cleaning the air from smog, contaminated aerosols and using "green" energy. Even when the solar panel is not lit, it can act as a dust and aerosol collector, a heat and light screen for the room. The aim of this development is usage of solar energy in windowed household systems for the following consumer functions: 1) night and regulated daytime room lighting; 2) for cleaning the air basin of the city from smog and aerosols; 3) for additional heat and sound insulation. Relevance of the study is also associated with measures to reduce greenhouse gas emissions through the use of alternative sources and helps to solve the problem of their cost-effective use. A working designed model was created being scaled down 1:5, where consumer functions are tested and refined after modeling in AutoCAD. A device based on solar panels provides the combination of several consumer properties and a combination of three stand-alone modules placed on a single metal structure, fixed in the aperture and on the window frame. The model has five static and three dynamic modes of operation. Electromechanical and photoelectric part of the prototype device was manufactured and the study of the technical characteristics was carried out. Note that power calculations were performed for the full-scale prototype version. A full-size model of the device was made on the window at Faculty of Physics and Technology of al-Farabi KazNU.en_US
dc.identifier.citationMikhailova, S., Mikhailov, L., Ismailova, G., Kenes, N., Yersaiyn, R., & Mahmutov, R. (2020). Smart window design with aerosol trap, greenhouse gardening and powered by solar panels [Abstract]. The 8th International Conference on Nanomaterials and Advanced Energy Storage Systems; Nazarbayev University; National Laboratory Astana; Institute of Batteries.en_US
dc.identifier.urihttp://nur.nu.edu.kz/handle/123456789/5004
dc.language.isoenen_US
dc.publisherThe 8th International Conference on Nanomaterials and Advanced Energy Storage Systems; Nazarbayev University; National Laboratory Astana; Institute of Batteriesen_US
dc.rightsAttribution-NonCommercial-ShareAlike 3.0 United States*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-sa/3.0/us/*
dc.subjectResearch Subject Categories::TECHNOLOGYen_US
dc.subjectgreenhouse gardeningen_US
dc.subjectphotovoltaic panelsen_US
dc.subjectsolar panelsen_US
dc.subjectaerosol trapen_US
dc.subjectsmart window designen_US
dc.subjectsmart windowen_US
dc.titleSmart window design with aerosol trap, greenhouse gardening and powered by solar panelsen_US
dc.typeAbstracten_US
workflow.import.sourcescience

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