2019
DOI: 10.1016/j.enbuild.2019.04.039
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A fundamental study of intelligent building envelope systems capable of passive dehumidification and solar heat collection utilizing renewable energy

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Cited by 24 publications
(8 citation statements)
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“…As a result, the room temperature was increased by 3.6°C, and the relative humidity of the room was increased by approximately 10% compared with that of the conventional Type N. Furthermore, it was found that in the southern area (Area 7), having very high amounts of solar radiation (H-3), it was possible to reduce the load on Type C systems by~80% compared with that of Type N. Because the installation costs depend on the contractor's skill, as reported in our previous paper [11,14] regarding the construction case of introducing indoor air instead of outside air into the roof's ventilated cavity, it is judged that there will be no significant difference in installation cost provided the installer has the required technical skill. The difference in electricity bill related to power consumption will vary depending on the specifications of the air conditioner and the characteristics of the equipment; however, it will be similar to the reduction ratio of the heat load between the proposed and conventional systems.…”
Section: Discussionmentioning
confidence: 77%
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“…As a result, the room temperature was increased by 3.6°C, and the relative humidity of the room was increased by approximately 10% compared with that of the conventional Type N. Furthermore, it was found that in the southern area (Area 7), having very high amounts of solar radiation (H-3), it was possible to reduce the load on Type C systems by~80% compared with that of Type N. Because the installation costs depend on the contractor's skill, as reported in our previous paper [11,14] regarding the construction case of introducing indoor air instead of outside air into the roof's ventilated cavity, it is judged that there will be no significant difference in installation cost provided the installer has the required technical skill. The difference in electricity bill related to power consumption will vary depending on the specifications of the air conditioner and the characteristics of the equipment; however, it will be similar to the reduction ratio of the heat load between the proposed and conventional systems.…”
Section: Discussionmentioning
confidence: 77%
“…As a result, the energysaving effect was approximately 30%, and the reduction effect of peak heat load compared with that of a general house structure was confirmed via radiant cooling and cooling storage during summer and solar heat collection and heat storage during winter [12,13]. Additionally, the authors have reported a novel system capable of passive dehumidification and radiative cooling during hot and humid summer months alongside solar heat collection and humidity control during cold and dry winter months using roof-ventilated cavities and indoor air circulation [14,15]. Martin-Escudero et al [16] estimated the energy capabilities of a photovoltaic ventilated façade coupled to an air-source heat-pump system for heating and domestic hot water.…”
Section: Introductionmentioning
confidence: 89%
“…11,12 There have been a number of simulation calculations for aerogel applications in solar energy collection 13 and building energy efficiency. 14 However, only a few experiments have prepared aerogels with low thermal conductivity and high light transmittance for practical solar thermal collection. Among them, silica aerogel 15 is the most popular heat-insulating and light-transmitting aerogel material due to its low density, 16 high transparency, 17 and ultralow thermal conductivity, 18 which makes it possible to be used in the fields of smart heat-insulated windows and solar collectors.…”
Section: ■ Introductionmentioning
confidence: 99%
“…Many researchers have proved that transparent and thermal insulated aerogels are one of the most promising materials for thermal insulation along with transmission of solar energy. , There have been a number of simulation calculations for aerogel applications in solar energy collection and building energy efficiency . However, only a few experiments have prepared aerogels with low thermal conductivity and high light transmittance for practical solar thermal collection.…”
Section: Introductionmentioning
confidence: 99%
“…Normally, water vapor is eliminated by air exchange, either by a natural air leak through the building envelope, by mass diffusion through the structure or by natural or controlled mechanical ventilation. It can also be removed with classical dehumidification equipment, but residential dehumidifiers have limited ability to remove moisture during winter due to low air temperatures [11]. Thermoelectric coolers and dessicant materials-based systems can also be used, but the humidity transfer rates are generally low [12].…”
Section: Introductionmentioning
confidence: 99%