Reconversion, para estudio-loft eficiente en energia Chetumal Memoria fotografica

May 27, 2017 | Autor: R. Gamboa-Rocha | Categoría: Sustainable Building Design, Energy Efficiency Buildings, Building Integrated Solar Energy Technologies, Integrated Renewable Energy System, Energy Efficiency in buildings and cities, Impact of human behaviour on energy efficiency of the built environment, Refractory materials and coatings for thermal barrier and tribology applications, Integrated Water Resources Management, Energy Efficiency in Buildings, Non-invasive ventilation, Energy Efficient Architecture, Natural ventilation as a passive cooling strategy;, Surface Coatings, Indoor environment - thermal comfort, indoor air quality health and wellbeing, Daylighting, Architectural Design, Heating, Ventilating, Air Conditioning & Refrigeration, Indoor Environment and Energy, Outdoor Thermal Comfort, grid connected PV inverters, Energy Saving, Indoor environmental quality, Water Saving, Thermal comfort, Estudios de Ahorro Energéticos y utilización de energías renovables., Energy saving systems, Solid Waste Generation and Management, Water and Wastewater Treatment, Energy savings, Confort Thermique, Conforto térmico, Energy saving mechanisms, Daylighting, INDOOR AIR QUALITY, VENTILATION, ENERGY EFFICIENCY, Thermal Comfort and Energy Efficiency in Hot Humid Climates, Eficiência Energética, Sustainaible development Energy saving in buildings, Pv Array Connected to Grid, Energy Saving Strategies, Thermal comfort & Energy efficiency in hot climates, Natural ventilation as a passive cooling strategy, Eficiencia energética en edificaiones, propiedades térmicas de materiales de construcción, Indoor Environment Quality (IEQ), Thermic Confort, Thermal Barrier Coatings, Building integrated photovoltaics (BIPV), Visual Comfort and Daylighting, Building Energy Saving, Daylight and Thermal Comfort Study, Conforto Ambiental, Thermal Insulation of building facades, Saving Electrical Energy, Thermal Insulation Coating, Temperature Coatings, Energy Savings Strategies, Conforto lumínico, Ahorro Energético, CONFORTO CLIMATICO, Conforto Acústico, PV array, Impact of human behaviour on energy efficiency of the built environment, Refractory materials and coatings for thermal barrier and tribology applications, Integrated Water Resources Management, Energy Efficiency in Buildings, Non-invasive ventilation, Energy Efficient Architecture, Natural ventilation as a passive cooling strategy;, Surface Coatings, Indoor environment - thermal comfort, indoor air quality health and wellbeing, Daylighting, Architectural Design, Heating, Ventilating, Air Conditioning & Refrigeration, Indoor Environment and Energy, Outdoor Thermal Comfort, grid connected PV inverters, Energy Saving, Indoor environmental quality, Water Saving, Thermal comfort, Estudios de Ahorro Energéticos y utilización de energías renovables., Energy saving systems, Solid Waste Generation and Management, Water and Wastewater Treatment, Energy savings, Confort Thermique, Conforto térmico, Energy saving mechanisms, Daylighting, INDOOR AIR QUALITY, VENTILATION, ENERGY EFFICIENCY, Thermal Comfort and Energy Efficiency in Hot Humid Climates, Eficiência Energética, Sustainaible development Energy saving in buildings, Pv Array Connected to Grid, Energy Saving Strategies, Thermal comfort & Energy efficiency in hot climates, Natural ventilation as a passive cooling strategy, Eficiencia energética en edificaiones, propiedades térmicas de materiales de construcción, Indoor Environment Quality (IEQ), Thermic Confort, Thermal Barrier Coatings, Building integrated photovoltaics (BIPV), Visual Comfort and Daylighting, Building Energy Saving, Daylight and Thermal Comfort Study, Conforto Ambiental, Thermal Insulation of building facades, Saving Electrical Energy, Thermal Insulation Coating, Temperature Coatings, Energy Savings Strategies, Conforto lumínico, Ahorro Energético, CONFORTO CLIMATICO, Conforto Acústico, PV array

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Se presenta memoria fotográfica de tres meses (agosto-noviembre/2016) de desarrollo aplicación, prueba y validación de tecnología de reconversión de un inmueble independiente de 30m2 de superficie, para producir un nuevo estudio-loft energéticamente eficiente. Las imagenes se refieren a los avances en cuanto a sistema de uso eficiente de agua (Suministro y Conducción de Agua de la Red CAPA; suavizado y purificación de agua; y captación, conducción y uso eficiente de agua delLluvia recolectada en el techo), Sistema para Uso Eficiente de Energía Eléctrica (Suministro por Red CFE y Conducción Central Interna), Ahorro y uso eficiente en espacios puntuales ( Nueva Cocineta, Cuarto de servicios sanitarios, Área “todo en uno”) y confort térmico global-interno.

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Reconversion, para estudio-loft eficiente en energia Chetumal Memoria fotografica

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