Követés
Shengwei Zhu
Shengwei Zhu
Dept. of Mechanical Engineering, University of Maryland
E-mail megerősítve itt: umd.edu
Cím
Hivatkozott rá
Hivatkozott rá
Év
Study on transport characteristics of saliva droplets produced by coughing in a calm indoor environment
S Zhu, S Kato, JH Yang
Building and environment 41 (12), 1691-1702, 2006
4712006
An advanced numerical model for the assessment of airborne transmission of influenza in bus microenvironments
S Zhu, J Srebric, JD Spengler, P Demokritou
Building and Environment 47, 67-75, 2012
1592012
Thermal comfort, skin temperature distribution, and sensible heat loss distribution in the sitting posture in various asymmetric radiant fields
T Sakoi, K Tsuzuki, S Kato, R Ooka, D Song, S Zhu
Building and environment 42 (12), 3984-3999, 2007
1402007
Study on inhalation region by means of CFD analysis and experiment
S Zhu, S Kato, S Murakami, T Hayashi
Building and Environment 40 (10), 1329-1336, 2005
1232005
Effects of neighborhood green space on PM2.5 mitigation: Evidence from five megacities in China
SZ M Chen, F Dai, B Yang
Building and Environment, 2019
1022019
Experimental and numerical investigation of micro-environmental conditions in public transportation buses
S Zhu, P Demokritou, J Spengler
Building and Environment 45 (10), 2077-2088, 2010
962010
Ventilation and laboratory confirmed acute respiratory infection (ARI) rates in college residence halls in College Park, Maryland
S Zhu, S Jenkins, K Addo, M Heidarinejad, SA Romo, A Layne, ...
Environment international 137, 105537, 2020
692020
Effects of urban green space morphological pattern on variation of PM2. 5 concentration in the neighborhoods of five Chinese megacities
M Chen, F Dai, B Yang, S Zhu
Building and Environment 158, 1-15, 2019
652019
A review of CFD analysis methods for personalized ventilation (PV) in indoor built environments
J Liu, S Zhu, MK Kim, J Srebric
Sustainability 11 (15), 4166, 2019
622019
Numerical modeling of indoor environment with a ceiling fan and an upper-room ultraviolet germicidal irradiation system
S Zhu, J Srebric, SN Rudnick, RL Vincent, EA Nardell
Building and environment 72, 116-124, 2014
612014
Performance analysis of a ductless personalized ventilation combined with radiant floor cooling system and displacement ventilation
J Liu, DA Dalgo, S Zhu, H Li, L Zhang, J Srebric
Building Simulation 12, 905-919, 2019
502019
Device and method for reducing spread of microorganisms and airborne health hazardous matter and/or for protection from microorganisms and airborne health hazardous matter
AK Melikov, S Zhu, ZD Bolashikov
US Patent 9,310,088, 2016
462016
Primary pollutants in schoolchildren's homes in Wuhan, China
S Zhu, W Cai, H Yoshino, U Yanagi, K Hasegawa, N Kagi, M Chen
Building and Environment 93, 41-53, 2015
412015
Numerical investigation of upper‐room UVGI disinfection efficacy in an environmental chamber with a ceiling fan
S Zhu, J Srebric, SN Rudnick, RL Vincent, EA Nardell
Photochemistry and Photobiology 89 (4), 782-791, 2013
382013
Measurements and simulations of aerosol released while singing and playing wind instruments
T Stockman, S Zhu, A Kumar, L Wang, S Patel, J Weaver, M Spede, ...
ACS Environmental Au 1 (1), 71-84, 2021
362021
A comparison of the thermal comfort performances of a radiation floor cooling system when combined with a range of ventilation systems
J Liu, Z Li, MK Kim, S Zhu, L Zhang, J Srebric
Indoor and Built Environment 29 (4), 527-542, 2020
352020
A validated numerical investigation of the ceiling fan's role in the upper-room UVGI efficacy
G Pichurov, J Srebric, S Zhu, RL Vincent, PW Brickner, SN Rudnick
Building and Environment 86, 109-119, 2015
342015
Development of a computational thermal manikin applicable in a non-uniform thermal environment—Part 2: Coupled simulation using Sakoi's human thermal physiological model
S Zhu, S Kato, R Ooka, T Sakoi, K Tsuzuki
HVAC&R Research 14 (4), 545-564, 2008
332008
Cooling efficiency of a spot-type personalized air-conditioner
S Zhu, D Dalgo, J Srebric, S Kato
Building and Environment 121, 35-48, 2017
312017
Development of a computational thermal manikin applicable in a nonuniform thermal environment—Part 1: Coupled simulation of convection, radiation, and Smith's human thermal …
S Zhu, S Kato, R Ooka, T Sakoi
HVAC&R Research 13 (4), 661-679, 2007
312007
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