Design and Energy Performance of a Buoyancy Driven Exterior Shading Device for Building Application in Taiwan

Huang, Kuo‐Cheng; Liu, Kevin Fong-Rey; Liang, Han-Hsi

doi:10.3390/en8042358

Cited by 9 publications

(7 citation statements)

References 31 publications

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“…This prototyping process aims to measure the feasibility of, evaluate, and identify issues that might appear during the Sliding Sudare production, specifically concerning its material selection. The resulting prototypes will undergo an evaluation based on several parameters referring to Huang, Liu, and Liang (2015)'s important aspects of material selection, namely (1) security requirement, (2) weather resistance, (3) construction, and (4) costeffectiveness. A more detailed explanation of these parameters is provided in the latter part of the manuscript.…”

Section: Methodsmentioning

confidence: 99%

“…To implement an adaptive shading device system into a building, several design stages require to be executed with regard to use's comfort, cost, and technical feasibility (Carlett i, Sciurpi, and Pierangioli 2014). According to Huang, the number of design processes to set out the adaptive shading device include; determining the user's need, determining design specifications, selecting material, formulating the design regarding its function and construction, and fulfilling design stages in detail (Huang, Liu , and Liang 2015). Meanwhile, Romano (2018) classifies the readiness of the adaptive shading device into several categories, namely: (1) observed/reported basic principles/idea, (2) formulated technology concept/design, (3) proposal, (4) validated technology in the laboratory, (5) prototype demonstration, and (6) commercial product/existing building (Aelenei et al 2018).…”

Section: Figure 12mentioning

confidence: 99%

“…In that case, the material can be quickly damaged and cannot withstand exposure to the extreme weather. Due to its lack of development, this research aims to start an investigation regarding the potential material utilization for developing Sliding Sudare into an adaptive shading device system that meet the requirements desired This material study holds an essential position in influencing the overall functional, structural, and detailed design of the device (Huang, Liu, and Liang 2015). Knowing that material selection is a crucial aspect of the shading device's working system, this research focuses on the exploration of probable materials to set out Sliding Sudare.…”

Section: Introductionmentioning

confidence: 99%

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The comparison of device materials of sliding sudare using a prototyping method

Hariyadi

Jati

Afif

et al. 2021

ARTEKS J. Tek. Arsit.

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Sliding Sudare has a big potential to be developed considered its high effectiveness in minimizing building energy consumption while still maintaining its visibility quality. Meanwhile, its original blinds that is made of bamboo cannot withstand extreme weather and have a short lifespan. Therefore, this research is to investigate the effectiveness of the other material alternatives namely stainless steel, plastic, and natural fiber. A scaled model is used for prototyping the materials in the shape of bicycle spokes, PLA+ (3D printer filament), and bamboo slats as the blinds. These everyday objects were tested in terms of their physical characteristic and were measured by four parameters (security requirement, weather resistance, construction process, and cost-effectiveness). From the research, it was concluded that bicycle spokes has the highest overall performance with the highest advantages in weather resistance requirement, cost-effectiveness, and construction; whilst PLA+ and bamboo slats have the least overall performance though both have high advantage in terms of security requirement.

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Section: Methodsmentioning

confidence: 99%

Section: Figure 12mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

The comparison of device materials of sliding sudare using a prototyping method

Hariyadi

Jati

Afif

et al. 2021

ARTEKS J. Tek. Arsit.

View full text Add to dashboard Cite

show abstract

“…Plastic nets are widely used all over the world for shading residential buildings to reduce heating and cooling loads [19][20][21] and in agricultural sectors for plant and animal protection purposes. This is because plastic nets offer many environmental and economical advantages [1][2][3][4]18,22].…”

Section: Introductionmentioning

confidence: 99%

Radiometric Characterization, Solar and Thermal Radiation in a Greenhouse as Affected by Shading Configuration in an Arid Climate

et al. 2015

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Abstract:Shading the greenhouses is necessary in summer to reduce the solar radiation load. This however generates a considerable amount of thermal radiation heat load that needs to be removed via cooling systems. This study aimed to evaluate the effect of different shading configurations on the solar and thermal radiation in a greenhouse. Nets at four different locations were employed to shade the roof and side-walls of a polycarbonate, mechanically ventilated greenhouse. The spectral radiative properties of all these plastic materials were measured in short and long wave spectrum bands. The net solar and thermal radiations and air temperature were measured outside and inside two identical shaded and unshaded greenhouses. The results showed that external roof-shading is desirable, as it reduced the generated thermal radiation in the greenhouse by 21% and 15% during the day and night time, respectively and reduced the greenhouse air temperature during the day. The internal shading (roof and side walls) is undesirable, since it drastically increased the generated thermal radiation in the greenhouse by 147% and strongly increased the greenhouse air temperature during the day. Shading the side-walls is not recommended because it significantly reduces the transmitted solar radiation in the morning and afternoon (when the outside irradiance is low) and is useless at around noon when the outside irradiance is extremely high.

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“…Therefore, shadings affect the building energy use for lighting, heating and cooling, and also the occupants' visual and thermal comfort [28,29].…”

Section: Introductionmentioning

confidence: 99%

Modeling and Experimental Validation of a Low-Cost Radiation Sensor Based on the Photovoltaic Effect for Building Applications

et al. 2016

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Abstract:The energy consumed to cool buildings is very elevated and solar gains represent a high percentage of these cooling loads. To minimize the thermal load it is necessary to control external shading systems. This control requires continuous measurement of solar radiation in different locations of the building. However, for such applications the use of conventional irradiance sensors increases the cost and reduces the profitability of the installation. This paper is focused on the development, modeling, and experimental validation of low cost irradiation sensors based on photovoltaic effect in order to reduce the costs of dynamic external shading devices and to improve the profitability of the system. With this proposal, firstly, small commercial photovoltaic cells have been adapted for use as an irradiation measurement device. Subsequently, quasi-stationary and continuous experimental measurements of these silicon cells, facing south and installed horizontally, have been carried out in Jaén (Spain) in 2009 and 2010. Finally, a nonlinear multiparameter function has been developed to evaluate the irradiance using the electric current generated by the cell, cell temperature, ambient temperature, and absolute humidity. A favorable agreement between the model predictions and experimental data has been observed with a coefficient of determination around 0.996 for all cells.

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Design and Energy Performance of a Buoyancy Driven Exterior Shading Device for Building Application in Taiwan

Cited by 9 publications

References 31 publications

The comparison of device materials of sliding sudare using a prototyping method

The comparison of device materials of sliding sudare using a prototyping method

Radiometric Characterization, Solar and Thermal Radiation in a Greenhouse as Affected by Shading Configuration in an Arid Climate

Modeling and Experimental Validation of a Low-Cost Radiation Sensor Based on the Photovoltaic Effect for Building Applications

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