M
Mazyar Salmanzadeh
Researcher at Shahid Bahonar University of Kerman
Publications - 42
Citations - 817
Mazyar Salmanzadeh is an academic researcher from Shahid Bahonar University of Kerman. The author has contributed to research in topics: Airflow & Turbulence. The author has an hindex of 14, co-authored 39 publications receiving 561 citations. Previous affiliations of Mazyar Salmanzadeh include Clarkson University.
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Computational modeling of effects of thermal plume adjacent to the body on the indoor airflow and particle transport
TL;DR: In this article, the effect of the thermal plume on particle concentrations in the breathing zone and entrainment of particles emitted from different sources near the floor was studied, where an Eulerian approach was used for simulating the airflow field in the cubicle and the pollutant particle trajectories were evaluated with a Lagrangian method.
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Energy saving in buildings by using the exhaust and ventilation air for cooling of photovoltaic panels
TL;DR: In this paper, a building integrated photovoltaic-thermal (BIPVT) setup has been developed for using the cooling potential of ventilation and exhaust airs in buildings for cooling the PV panels and also heating the ventilation air by heat rejection of PV panels.
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Evaluating assumptions of scales for subjective assessment of thermal environments – Do laypersons perceive them the way, we researchers believe?
Marcel Schweiker,Maíra André,Farah Al-Atrash,Hanan Al-Khatri,Rea Risky Alprianti,Hayder Alsaad,Rucha Amin,Eleni Ampatzi,Alpha Yacob Arsano,Elie Azar,Bahareh Bannazadeh,Amina Batagarawa,Susanne Becker,Carolina Buonocore,Bin Cao,Joon-Ho Choi,Chungyoon Chun,Hein A.M. Daanen,Siti Aisyah Damiati,Lyrian Daniel,Renata De Vecchi,Shivraj Dhaka,Samuel Domínguez-Amarillo,Edyta Dudkiewicz,Lakshmi Prabha Edappilly,Lakshmi Prabha Edappilly,Jesica Fernández-Agüera,Mireille Folkerts,Arjan J. H. Frijns,Gabriel Gaona,Vishal Garg,Stephanie Gauthier,Shahla Ghaffari Jabbari,Djamila Harimi,Runa Tabea Hellwig,Runa Tabea Hellwig,Gesche M. Huebner,Quan Jin,Mina Jowkar,Jungsoo Kim,Nelson King,Boris Kingma,M. Donny Koerniawan,Jakub Kolarik,Shailendra Kumar,Alison G. Kwok,Roberto Lamberts,Marta Laska,M. C.Jeffrey Lee,Yoonhee Lee,Vanessa Lindermayr,Mohammadbagher Mahaki,Udochukwu Marcel-Okafor,Laura Marín-Restrepo,Anna Marquardsen,Francesco Martellotta,Jyotirmay Mathur,Isabel Mino-Rodriguez,Azadeh Montazami,Di Mou,Bassam Moujalled,Mia Nakajima,Edward Ng,Marcellinus Okafor,Mark R. O. Olweny,Wanlu Ouyang,Ana De Abreu,Alexis Pérez-Fargallo,I Rajapaksha,Greici Ramos,Saif Rashid,Christoph Reinhart,Ma Isabel Rivera,Ma Isabel Rivera,Mazyar Salmanzadeh,Karin Schakib-Ekbatan,Stefano Schiavon,Salman Shooshtarian,Masanori Shukuya,Veronica Soebarto,Veronica Soebarto,Suhendri Suhendri,Mohammad Tahsildoost,Federico Tartarini,Despoina Teli,Despoina Teli,Priyam Tewari,Samar Thapa,Maureen Trebilcock,Jörg Trojan,Ruqayyatu B. Tukur,Conrad Voelker,Yeung Yam,Liu Yang,Gabriela Zapata-Lancaster,Yongchao Zhai,Yingxin Zhu,Zahra Sadat Zomorodian +97 more
TL;DR: In this article, a large international collaborative questionnaire study was conducted in 26 countries, using 21 different languages, which led to a dataset of 8225 questionnaires, and significant differences appeared between groups of participants in their perception of the scales, both in relation to distances of the anchors and relationships between scales.
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Investigation of particle dispersion and deposition in a channel with a square cylinder obstruction using the lattice Boltzmann method
TL;DR: In this article, particle dispersion and deposition over a square cylinder in a channel flow has been investigated numerically using lattice Boltzmann method (LBM), while a Lagrangian description was used for simulation of spherical, solid particles immersed in the flow.
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Simulations of indoor airflow and particle dispersion and deposition by the lattice Boltzmann method using LES and RANS approaches
TL;DR: In this paper, the Lattice Boltzmann method (LBM) in conjunction with the large eddy simulations (LES) and Reynolds Averaged Navier-Stokes (RANS) models was used to study the airflow and particle dispersion and deposition in indoor environments.