Yong Cheng scite author profile

The seasonal differences of neutral or acceptable temperatures between summer and winter were revealed by previous researchers, but the studies on the difference of human thermal adaption in transitional seasons are insufficient. To clarify this, this paper analyzes the data from a nationwide field study database, including a year-long survey which was carried out in 505 residential buildings in six cities located in the Hot Summer and Cold Winter (HSCW) zone of China involving 11,524 subjects. Results show a significant difference of adaptive responses in different seasons. Air temperature is found to be the most significant driver for behavioral responses, and a lag of behavioral responses behind climate change in transitional seasons is observed. Occupants not only adjust clothing insulation according to air temperature in different seasons, but also actively control indoor air movement, including closing/opening windows and using fans. The seasonal, monthly and daily

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Optimization of room air temperature in stratum-ventilated rooms for both thermal comfort and energy saving

Zhang

Cheng

Fang

et al. 2017

Applied Energy

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Optimization on fresh outdoor air ratio of air conditioning system with stratum ventilation for both targeted indoor air quality and maximal energy saving

Cheng

Zhang

Huan

et al. 2019

Building and Environment

103

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Fo r m o r e info r m a tio n, in cl u di n g o u r p olicy a n d s u b mi s sio n p r o c e d u r e , pl e a s e c o n t a c t t h e R e p o si to ry Te a m a t: u si r@ s alfo r d. a c. u k .Please cite this article as: Cheng Y, Zhang S, Huan C, Oladokun MO, Lin Z, Optimization on fresh outdoor air ratio of air conditioning system with stratum ventilation for both targeted indoor air quality and maximal energy saving, Building and Environment (2018), doi: https://doi. AbstractStratum ventilation can energy efficiently provide good inhaled indoor air quality with a proper operation (e.g., fresh outdoor air ratio). However, the non-uniform CO 2 distribution in a stratum-ventilated room challenges the provision of targeted indoor air quality. This study proposes an optimization on the fresh outdoor air ratio of stratum ventilation for both the targeted indoor air quality and maximal energy saving.A model of CO 2 concentration in the breathing zone is developed by coupling CO 2 removal efficiency in the breathing zone and mass conservation laws. With the developed model, the ventilation parameters corresponding to different fresh outdoor air ratios are quantified to achieve the targeted indoor air quality (i.e., targeted CO 2 concentration in the breathing zone). Using the fresh outdoor air ratios and corresponding ventilation parameters as inputs, energy performance evaluations of the air conditioning system are conducted by building energy simulations. The fresh outdoor air ratio with the minimal energy consumption is determined as the optimal

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Uniformity of stratum-ventilated thermal environment and thermal sensation

et al. 2014

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Three human test series were conducted to evaluate the uniformity of the thermal environments in a stratum-ventilated chamber with dimensions of 8.8 m (L) × 5.1 m (W) × 2.4 m (H). In all, nineteen conditions were generated by adjusting the room temperature, supply airflow rate, and supply terminal type. An air diffuser performance index (ADPI) of at least 80% was achieved for most cases. This result shows that the air velocity and temperature in the occupied zone are reasonably uniform. Subjective assessments using the ASHRAE 7-point scale indicate that the thermal sensations of the subjects in stratum ventilation are also uniform. This study examines the applicability of the predicted mean vote (PMV) model for evaluating stratum ventilation. When compared to the actual mean thermal sensation votes (ATS), the PMV values are acceptable. The PMV results at a height of 1.1 m above the floor show better agreement with the ATS than at a height of 0.1 m.

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Study of expiratory droplet dispersion and transport using a new Eulerian modeling approach

Lai

Cheng²

2007

Atmospheric Environment

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Understanding of droplet nuclei dispersion and transport characteristics can provide more engineering strategies to control transmission of airborne diseases. Droplet dispersion in a room under the conventional well-mixed and displacement ventilation is simulated. Two droplet nuclei sizes, 0.01 and 10 mm, are selected as they represent very fine and coarse droplets. The flow field is modeled using k-e RNG model. A new Eulerian drift-flux methodology is employed to model droplet phase. Under the conventional ventilation scheme, both fine and coarse droplets are homogeneously dispersed within approximately 50 s. Droplet nuclei exhibit distinctive dispersion behavior, particularly for low airflow microenvironment. After 270 s of droplet emission, gravitational settling influences the dispersion for 10 mm droplets, and concentration gradient can still be observed for displacement ventilation. r

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Effects of temperature and supply airflow rate on thermal comfort in a stratum-ventilated room

Cheng

Lin

Fong

2015

Building and Environment

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Smart mesoporous silica nanoparticles gated by pillararene-modified gold nanoparticles for on-demand cargo release

Wang

Tan

et al. 2016

Chem. Commun.

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A new drug delivery system, based on mesoporous silica nanoparticles gated by carboxylatopillar[5]arene-modified gold nanoparticles, has been fabricated, which demonstrated good responses to competitive binding and temperature variation. This multifunctional nanosystem combines the excellent characteristics of two kinds of nanoparticles and utilizes a supramolecular host-guest approach for on-demand cargo release.

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Dynamic control of room air temperature for stratum ventilation based on heat removal efficiency: Method and experimental validations

Zhang

Cheng

Fang

et al. 2018

Building and Environment

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Yong Cheng

Seasonal variation of thermal sensations in residential buildings in the Hot Summer and Cold Winter zone of China

Optimization of room air temperature in stratum-ventilated rooms for both thermal comfort and energy saving

Optimization on fresh outdoor air ratio of air conditioning system with stratum ventilation for both targeted indoor air quality and maximal energy saving

Uniformity of stratum-ventilated thermal environment and thermal sensation

Study of expiratory droplet dispersion and transport using a new Eulerian modeling approach

Effects of temperature and supply airflow rate on thermal comfort in a stratum-ventilated room

Smart mesoporous silica nanoparticles gated by pillararene-modified gold nanoparticles for on-demand cargo release

Dynamic control of room air temperature for stratum ventilation based on heat removal efficiency: Method and experimental validations

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