COVID-19, Pandemic and Epidemic
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Paper Title | Author(s) | Organization(s) |
|---|---|---|
| A practical-oriented approach for preventing COVID-19 transmission in naturally ventilated room | Ren, Chen; Cao, Shi-Jie | Southeast University, People's Republic of China |
| Airflow optimization to prevent transmission of COVID-19 | Nabi, Saleh | Mitsubishi Electric Research Labs, United States of America |
| AMCA COVID Guidance for UNDUCTED Fans – Modeling Airborne Virus Transmissions in Large Warehouses with Large Diameter Ceiling Fans | Senwen Yang (1); Liangzhu “Leon” Wang (1),*, PhD; Paul Raftery (2), PhD; Michael Ivanovich (3); Christian Taber (4); William P. Bahnfleth (5), PhD; Pawel Wargocki (6), PhD; Jovan Pantelic (7), PhD; Jiwei Zou (1); Mohammad Mortezazadeh (1), PhD; Chang Shu (1), PhD; Runzhong Wang (1); Scott Arnold3 | 1: Concordia University 2: University of California Berkeley Center for the Built Environment, USA 3: AMCA International 4: Big Ass Fans 5: The Pennsylvania State University, USA 6: Technical University of Denmark, Denmark 7: Well Living Lab, USA |
| CFD Simulation and Experimental Validation of Respiratory Airflow and Particle Dispersion When Wearing Face Masks | Deng, Zhipeng (1); Chen, Qingyan (2) | 1: Purdue University, United States of America; 2: The Hong Kong Polytechnic University, Hong Kong |
| Cross infection risk between two people in different temperature surroundings studied by aerosol dynamics | Nielsen, Peter Vilhelm (1); Zhang, Chen (1); Frandsen, Kirstine Meyer (1); Jensen, Rasmus Lund (1); Popalzai, Najim (1); Hundevad, Patrick (1); Madsen, Simon (1); Luckenwald, Tonje (1); Li, Yuguo (2); Qian, Hua (3); Xu, Chunwen (4); Li, Liu (5) | 1: Aalborg University, Denmark; 2: The University of Hong Kong, China; 3: Southeast University, China; 4: China University of Petroleum, China; 5: Tsinghua University, China |
| Effect of Airflow on Distribution of Floating Aerosol in Rooms with Air Conditioners under Natural and Mechanical Ventilation | Kato, Harumi (1); Ito, Shinichi (1); Kikuta, Koki (2); Hayashi, Motoya (2) | 1: Mitsubishi Electric Corporation, Japan; 2: Faculty of Engineering, Hokkaido University, Japan |
| Efficiency in the lighting system to minimize waste and light pollution in an outdoor parking lot. | Dos Santos, Adriana Fatima Dussel; Dias, Maíra Vieira | UNIVAG - Centro Univarsitário de Várzea Grande, Brazil |
| Energy and occupancy analytics to improve understanding and efficiency of building operations - A case study of an office building in Northern California | Luo, Na; Hong, Tianzhen | Lawrence Berkeley National Laboratory, United States of America |
| Energy consumption patterns in a Canadian social housing building under COVID-19 lockdowns – A preview of the future? | Rouleau, Jean; Gosselin, Louis | Department of Mechanical engineering, Université Laval, Canada |
| Energy performance assessment of COVID-19 building recommendations in Singapore | Sultan, Zuraimi; Jia, Hongyuan; Schiavon, Stefano | Berkeley Education Alliance for Research in Singapore (BEARS) Limited, Singapore, Singapore |
| Inactivation of Replication-Competent SARS-CoV-2 on Common Surfaces by Disinfectants | Pope, Zachary Clark (1,2); Weisend, Carla (3); Shah, Aditya (4); Ebihara, Hideki (5); Rizza, Stacey (4) | 1: Well Living Lab, Rochester, MN, USA; 2: Mayo Clinic, Department of Physiology and Biomedical Engineering, Rochester, MN, USA; 3: Mayo Clinic, Department of Molecular Medicine, Rochester, MN, USA; 4: Mayo Clinic, Division of Infectious Diseases, Rochester, MN, USA; 5: National Institute of Infectious Diseases, Department of Virology 1, Tokyo, Japan |
| Infection risk in a restaurant environment due to airborne diseases | Bale, Rahul (1); Li, Chungang (2); Fukudome, Hajime (5); Yumino, Saori (4); Iida, Akiyoshi (3); Tsubokura, Makoto (2) | 1: RIKEN, Japan; 2: Kobe University; 3: Toyohashi Intitute of technology; 4: Kajima Corporation; 5: Numerical Flow desighn |
| Investigating the benefits of unsolicited building maintenance requests and the impact of teleworking | Campbell-Templeman, Kayle; Nojedehi, Pedram; O'Brien, Liam | Carleton University, Canada |
| Mapping of conflicts experienced in the environment built in front of pandemic Covid-19 | Silva, Heloisa Nunes (2); Marcon, Lucileia (2); Domingos, Renata Mansuelo Alves (1); Sartor, Beatriz (2) | 1: Universidade Federal de Santa Catarina, Brazil; 2: Instituto Federal de Santa Catarina, Brazil |
| Measurement of Inhaled Respiratory Particles When People Wear Face Masks with Various Social Distancing | Deng, Zhipeng (1); Chen, Qingyan (2) | 1: Purdue University, United States of America; 2: The Hong Kong Polytechnic University, Hong Kong |
| Mitigating aerosol transmission risks of SARS-CoV-2 in commercial buildings | Yan, Shujie (1); Wang, liangzhu (1); J. Birnkrant, Michael (2); Zhai, John (3); Miller, Shelly L. (3) | 1: Concordia University, Canada; 2: Carrier Corporation,USA; 3: University of Colorado, USA |
| New insights on teleworkers’ work-related preferences and energy-related behaviors for working remotely during the COVID-19 pandemic: An interview-based qualitative analysis | Kharvari, Farzam (1); O'Brien, William (1); Arpan, Laura (2) | 1: Department of Civil and Environmental Engineering, Carleton University, Ottawa, Ontario, Canada; 2: Building School of Communication, Florida State University, Tallahassee, Florida, USA |
| Numerical Analysis of Effects of Ventilation Conditions on an In-duct UVGI System for Infection Control | Luo, Hao; Zhong, Lexuan | Department of Mechanical Engineering, University of Alberta, Canada |
| Numerical investigation of cough droplets dispersion dynamics in indoor environment : Effect of oral cavity shape | Nishihara, Takumi (1); Kuga, Kazuki (2); Ito, Kazuhide (2) | 1: Interdisciplinary Graduate School of Engineering Sciences, Kyushu University, Japan; 2: Faculty of Engineering Sciences, Kyushu University, Japan |
| Numerical studies on impact of ventilation condition on the COVID-19 transmission in indoor environment | Fang, Xiang (1); Yan, Yihuan (1,2); Li, Xueren (1); Tu, Jiyuan (1) | 1: School of Engineering, RMIT University, PO Box 71, Bundoora, VIC, 3083, Australia; 2: School of Air Transportation/ Flying, Shanghai University of Engineering Sicence, Songjiang District, Shanghai, China |
| Quantitative assessment of teleworking: a pilot study on holistic energy usage and greenhouse gas emission in Canada | Simon, Sharane; O'Brien, William | Carleton University, Canada |
| Regional deposition of inhaled nano-to-microscale particle in realistic upper respiratory tract under steady and transient breathing conditions | Kizuka, Ryusei (1); Kuga, Kazuki (2); Ito, Kazuhide (2) | 1: Interdisciplinary Graduate School of Engineering Sciences, Kyushu University, Japan; 2: Faculty of Engineering Sciences, Kyushu University, Japan |
| SARS-CoV-2 infection dynamics integrated with mucociliary transport in human upper airway | Li, Hanyu (1); Kuga, Kazuki (2); Ito, Kazuhide (2) | 1: Interdisciplinary Graduate School of Engineering Sciences, Kyushu University, Japan; 2: Faculty of Engineering Sciences, Kyushu University, Japan |
| The aftermath of COVID-19 on educational building: An energy performance aspect | Run, Keovathana | University Of Montpellier, France |
| The airborne lifetime and spatial-temporal distribution of emitted particles in dental procedures | LI, Xiujie (1); Mak, Cheuk Ming (1); Ai, Zhengtao (2); Ma, Kuen Wai (1); Wong, Hai Ming (3) | 1: The Hong Kong Polytechnic University, Hong Kong S.A.R. (China); 2: Hunan University; 3: The University of Hong Kong |
| Towards an accurate CFD prediction of respiratory flow and dispersion through face mask | Jia, Zhongjian (1,2); Ai, Zhengtao (1,2); Mak, Cheuk Ming (3) | 1: Department of Building Environment and Energy, College of Civil Engineering, Hunan University, Changsha, Hunan, China; 2: National Center for International Research Collaboration in Building Safety and Environment, Hunan University, Changsha, Hunan, China; 3: Department of Building Services Engineering, The Hong Kong Polytechnic University, Kowloon, Hong Kong, China |