Your search keyword '"Caiyi Zhao"' showing total 2 results

1. Effect of Interior Space and Window Geometry on Daylighting Performance for Terrace Classrooms of Universities in Severe Cold Regions: A Case Study of Shenyang, China

Author

Yingjie Jia, Zheming Liu, Yaoxuan Fang, Huiying Zhang, Caiyi Zhao, and Xuqiang Cai

Subjects

daylighting performance, window geometry, terrace classrooms, Architecture, Building and Construction, severe cold regions, interior space geometry, Civil and Structural Engineering

Abstract

Good daylighting performance positively affects students’ physical and mental health, learning efficiency, and the building’s energy-saving capability. Due to the terrace classroom having ample space, large capacity, the ability to avoid obstructing sight, and the ability to meet various use needs, it is the most important place in university buildings. However, research on the daylighting performance of university terrace classrooms is limited, leading to a lack of quantitative guidance in early design stages. This study aims to explore the effects of interior space and window geometry of terrace classrooms in universities in severe cold regions on daylighting performance. This research took Shenyang as an example; spatial daylight autonomy (sDA300,50%) and useful daylight illuminance (UDI100–2000) were selected as daylighting performance evaluation indices. Based on the Grasshopper parametric platform, the simulation was carried out using Ladybug and Honeybee plugins. Correlation and regression analyses revealed the relationship between interior space and window geometry parameters and the evaluation indices. The results showed the following: window-to-floor ratio (WFR), classroom height (Htc), window height (Hw), window-to-wall ratio (WWR), classroom width (Wtc), and window width (Ww) have positive effects on improving the daylight sufficiency of the terrace classrooms facing each orientation, and the degree of the effect decreases in order. To ensure the overall daylighting performance, the Wtc can be maximized. The width of walls between windows for south-facing and west-facing classrooms should be 0.9 m. The WWR and WFR for south-facing classrooms should be 0.3–0.5 and 0.11–0.14, respectively. The WWR and WFR for north-facing classrooms should be 0.6–0.7 and 0.14–0.20, respectively. Prediction models are established for the sDA300,50% and UDI100–2000 of the terrace classrooms facing each orientation.

Published

2023

2. Research of energy efficiency evaluation parameters for power quality control device based on IGBT module

Author

Jia Rongda, Zheng Chen, Mao Yongqiu, Liu Yang, Caiyi Zhao, Jieyan Xu, and Xi Yang

Subjects

Engineering, Energy loss, business.industry, Power quality control, Electronic engineering, Insulated-gate bipolar transistor, Energy consumption, Power grid, business, Automotive engineering, Energy (signal processing), Efficient energy use

Abstract

In this paper, the energy efficiency evaluation parameters for power quality control device based on IGBT modules have been discussed. First of all, energy consumption of the typical power quality control equipment, such as SVG, APF and MEC, under the rated conditions, have been analyzed to identify the main energy-consuming parts. Then, energy loss mechanism and energy saving path of IGBT module have been discussed. And the energy saving improvement direction of the power quality control equipment based on IGBT module is identified at the same time. At last, the applicable energy efficiency evaluation parameters for power quality control device have been selected, based on the research of the product performances for energy efficiency of power grid.

Published

2017