Yuhan Ni scite author profile

Semi-transparent photovoltaic double skin façade (STPV-DSF) is a novel structure which integrates photoelectric, photothermal, ventilation and energy-saving features, which proves to be extremely attractive and promising. In this study, a full-scale experimental system was built, airflow and heat transfer in a rectangular cavity with different transmittance (τ) and different ventilation modes in summer that studies a STPV-DSF and includes natural ventilation were examined experimentally. The Rayleigh number and Nusselt number of STPV-DSF is significantly higher than that of traditional DSF. This also means stronger intense flow. And the maximum temperature difference at night between mode 1 and mode 2 can reach 7.3°C. When the external air circulation mode is switched to the external and internal mode, the indoor temperature drops by 2.88°C in ten minutes. Therefore, making fully use of natural ventilation can effectively reduce the cooling load of air conditioning in summer. The solar radiation intensity is proved to have the greatest influence on the cavity temperature, followed by the transmittance, and the the ventilation mode least influence. Applying naturally ventilated STPV-DSF would be a new efficient way for the curtain wall buildings to meet the task of sustainable building design.

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Yuhan Ni

Changes in depression among older adults in China: A latent transition analysis

The need to belong: A parallel process latent growth curve model of late life negative affect and cognitive function

老年人孤独感及其影响因素的潜在转变分析 <sup>*</sup>

Comparative study of dynamic thermal performance of photovoltaic double skin façades influenced by glass transmittance and natural ventilation

Experimental of natural ventilation in a semi-transparent photovoltaic double skin façade in summer

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Yuhan Ni

Changes in depression among older adults in China: A latent transition analysis

The need to belong: A parallel process latent growth curve model of late life negative affect and cognitive function

老年人孤独感及其影响因素的潜在转变分析 &lt;sup&gt;*&lt;/sup&gt;

Comparative study of dynamic thermal performance of photovoltaic double skin façades influenced by glass transmittance and natural ventilation

Experimental of natural ventilation in a semi-transparent photovoltaic double skin façade in summer

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Product

Resources

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老年人孤独感及其影响因素的潜在转变分析 <sup>*</sup>