[1] Place of Ceiling Fans on Thermal Comfort and Reducing Energy in Office Buildings, Amirkabir Journal of Mechanical Engineering, 50(2) (2018) 309-326. (in Persian)
[2] S. Schiavon, T. Hoyt, A. Piccioli, Web application for thermal comfort visualization and calculation according to ASHRAE Standard 55, in: Building Simulation, Springer, 2014, pp. 321-334.
[3] M. Hamze Nejad, F. Fadaee, P. Ildarabadi, Evaluation of comfort and thermal comfort (PMV and PPD) according to daylight and home orientation in Yazd traditional houses (Case study: Malekzade home in Yazd city), Journal of Architecture in Hot and Dry Climate, 8(11) (2020) 151-182. (in Persian)
[4] S. Wei, M. Li, W. Lin, Y. Sun, Parametric studies and evaluations of indoor thermal environment in wet season using a field survey and PMV–PPD method, Energy and Buildings, 42(6) (2010) 799-806.
[5] N.M. MONJEZI, A. ESLAMIMOGHADAM, Investigation of PMV index in thermal comfort of urban open spaces in summer Case study: River sidewalk near Khorramabad, Lorestan, Urban Design Discourse-a Review of Contemporary Litreatures and Theories, 2(3) (2022) 19-41. (in Persian)
[6] C.B. Ze Ze, L. Nneme Nneme, L. Monkam, PMVd/PPDd model for predicting thermal comfort in air-conditioned buildings in hot and humid regions of Sub-Saharan Africa, International Journal of Air-Conditioning and Refrigeration, 32(1) (2024) 19.
[7] M. Amini, A. Minaei, N. Moallemi Khiavi, Numerical evaluation of thermal comfort and indoor air quality in an office space equipped with a radiant ceiling cooling system and hybrid radiative-convective cooling system, Journal of Modeling in Engineering, 22(77) (2024) 37-56. (in Persian)
[8] B. Mohammadi, P. Mohammadkhani, M.H. Gholizadeh, Preparing Iran’s bioclimatic map by using the predicted mean vote index, Geographical Research, 32(2) (2017) 21-39. (in Persian)
[9] M. Taheri, H. Dehghan, B. Mahaki, N. Khoshzat, Assessment of thermal comfort Alzahra hospital staffs and comparison with the ASHRAE Standard 55-2010, Journal of Health System Research, 9(12) (2014) 1283-1292. (in Persian)
[10] A. Khoorani, A. Moradi, A. Moradi, Projecting changes in the thermal comfort of coastal tourists in Hormozgan province, Physical Geography Research, 55(2) (2023) 71-87. (in Persian)
[11] M.L. Ruz, J. Garrido, F. Vázquez, Educational tool for the learning of thermal comfort control based on PMV‐PPD indices, Computer Applications in Engineering Education, 26(4) (2018) 906-917.
[12] A.O. Kouassi, C. Honoré, K. Clé, Determination of Comfort Conditions Using the PMV, Set and PDD Thermal Comfort Indexes in Ivory Coast, Journal of Geoscience and Environment Protection, 12(10) (2024) 277-286.
[13] L. Wang, J. Kim, J. Xiong, H. Yin, Optimal clothing insulation in naturally ventilated buildings, Building and Environment, 154 (2019) 200-210.
[14] H. Mortazavi Alavi, S. Heidari, N. Nikghadam, An Evaluation of The Thermal Comfort of Users in Hot and Humid Climates (Case study: Indigenous housing in Kish Island), Housing and Rural Environment, 40(174) (2021) 29-44. (in Persian)
[15] A.A.M. Damanhuri, N.N.M. Ishak, T.B. Tuan, M.S.S. Mustafa, A.M.H.S. Lubis, C.C. Khean, Evaluation Thermal Comfort based on PMV and PPD using CBE Tool for Three Non-Air-Conditioned Pre School: A Case Study in Melaka Tengah, Malaysia District Area, Journal of Design and Built Environment, (2025) 126-135.
[16] A. Carneiro, P. Gonçalves, R. Saraiva, D. Oliveira, L. Martins, J.C. Teixeira, N. Rodrigues, A.C. Ferreira, S. Teixeira, Assessment of the Thermal Comfort of a Masonry Building—Numerical Study, in: Occupational and Environmental Safety and Health VI: Volume 1: Occupational Risk Assessment, Management and Case Studies, Springer, 2025, pp. 217-227.
[17] T. Raziei, Koppen-Geiger climate classification of Iran and investigation of its changes during 20th century, (2017). (in Persian)
[18] J. Sajedifar, R. Mirzaei, G.H. Teimori, A. Mehri, F. Azadbakht, A. Choupani, M.R. Taheri, Evaluation of thermal comfort in an Iranian educational hospital using PMV-PPD model, Biotech Health Science, 2017 (2017).
[19] I. ISO, 7730: Ergonomics of the thermal environment Analytical determination and interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteria, Management, 3(605) (2005) e615.
[20] L. Yang, F. Wang, S. Zhao, S. Gao, H. Yan, Z. Sun, Z. Lian, L. Duanmu, Y. Zhang, X. Zhou, Comparative analysis of indoor thermal environment characteristics and occupants’ adaptability: Insights from ASHRAE RP-884 and the Chinese thermal comfort database, Energy and Buildings, 309 (2024) 114033.
[21] E.E. Broday, C.R. Ruivo, M.G. da Silva, The use of Monte Carlo method to assess the uncertainty of thermal comfort indices PMV and PPD: Benefits of using a measuring set with an operative temperature probe, Journal of Building Engineering, 35 (2021) 101961.
[22] J. Shaeri, M. Mahdavinejad, Prediction indoor thermal comfort in traditional houses of Shiraz with PMV/PPD model, International Journal of Ambient Energy, 43(1) (2022) 8316-8334.
[23] W. Huo, Y. Cheng, Y. Jia, C. Guo, Research on the thermal comfort of passenger compartment based on the PMV/PPD, International Journal of Thermal Sciences, 184 (2023) 107876.
[24] H. Rezaei Rad, Z. Khodaee, M.M. Ghiai, J. Tabe Arjmand, M. El Haj Assad, The quantitative assessment of the effects of the morphology of urban complexes on the thermal comfort using the PMV/PPD model (a case study of Gheytariyeh neighborhood in Tehran), International Journal of Low-Carbon Technologies, 16(2) (2021) 672-682.
[25] M. Charai, A. Mezrhab, L. Moga, A structural wall incorporating biosourced earth for summer thermal comfort improvement: Hygrothermal characterization and building simulation using calibrated PMV-PPD model, Building and Environment, 212 (2022) 108842.
[26] V. Rezaee, M. Masoumnezhad, A. Tahvili, Feasibility of natural ventilation potential of residential buildings for different climates of Iran, Science and Technology in Mechanical Engineering, (2024). (in Persian)
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