Autors: Melikov A., Pitchurov, G. T., Naydenov K., Langkilde G.
Title: Field study on occupant comfort and the office thermal environment in rooms with displacement ventilation
Keywords: Displacement ventilation, Draught, Field study, Human respon

Abstract: A field survey of occupants' response to the indoor environment in 10 office buildings with displacement ventilation was performed. The response of 227 occupants was analyzed. About 24% of the occupants in the survey complained that they were daily bothered by draught, mainly at the lower leg. Vertical air temperature difference measured between head and feet levels was less than 3°C at all workplaces visited. Combined local discomfort because of draught and vertical temperature difference does not seem to be a serious problem in rooms with displacement ventilation. Almost one half (49%) of the occupants reported that they were daily bothered by an uncomfortable room temperature. Forty-eight per cent of the occupants were not satisfied with the air quality.

References

    Issue

    Indoor Air, issue 3, pp. 205-214, 2005, Singapore, https://doi.org/10.1111/j.1600-0668.2005.00337.x

    Цитирания (Citation/s):
    1. Choi, H., An, Y., Cho, S., Park, J.Email Author, Yun, S., Kwak, J., Chun, C., Development human thermoregulation model for Korean young and older men, IOP Conference Series: Materials Science and Engineering Volume 609, Issue 4, 23 October 2019, Article number 042106, DOI: 10.1088/1757-899X/609/4/042106 - 2019 - в издания, индексирани в Scopus или Web of Science
    2. Lestinen, S., KilpelÄinen, S., Kosonen, R., Jokisalo, J., Koskela, H., Li, A., Cao, G. Indoor airflow interactions with symmetrical and asymmetrical heat load distributions under diffuse ceiling ventilation (2019) Science and Technology for the Built Environment, 25 (6), pp. 716-731. DOI: 10.1080/23744731.2019.1588029 - 2019 - в издания, индексирани в Scopus или Web of Science
    3. Wu, W., Yoon, N., Tong, Z., Chen, Y., Lv, Y., Ærenlund, T., Benner, J. Diffuse ceiling ventilation for buildings: A review of fundamental theories and research methodologies (2019) Journal of Cleaner Production, 211, pp. 1600-1619. DOI: 10.1016/j.jclepro.2018.11.148 - 2019 - в издания, индексирани в Scopus или Web of Science
    4. Zhang, S., Cheng, Y., Huan, C., Lin, Z. Equivalent room air temperature based cooling load estimation method for stratum ventilation and displacement ventilation (2019) Building and Environment, 148, pp. 67-81. DOI: 10.1016/j.buildenv.2018.10.057 - 2019 - в издания, индексирани в Scopus или Web of Science
    5. Begeš, G. Radon measurement in residential premises [Merjenje prisotnosti radona v bivalnem prostoru] (2019) Elektrotehniski Vestnik/Electrotechnical Review, 86 (3), pp. 124-129 - 2019 - в издания, индексирани в Scopus или Web of Science
    6. Van Craenendonck, S., Lauriks, L., Vuye, C., Kampen, J. Local effects on thermal comfort: Experimental investigation of small-area radiant cooling and low-speed draft caused by improperly retrofitted construction joints (2019) Building and Environment, 147, pp. 188-198, DOI: 10.1016/j.buildenv.2018.10.021 - 2019 - в издания, индексирани в Scopus или Web of Science
    7. Möhlenkamp, M., Schmidt, M., Wesseling, M., Wick, A., Gores, I., Müller, D. Thermal comfort in environments with different vertical air temperature gradients (2019) Indoor Air, 29 (1), pp. 101-111, DOI: 10.1111/ina.12512 - 2019 - в издания, индексирани в Scopus или Web of Science
    8. Andersson, H., Kabanshi, A., Cehlin, M., & Moshfegh, B. (2020). On the Ventilation performance of low momentum confluent jets supply device in a classroom. Energies, 13(20), 5415., https://doi.org/10.3390/en13205415 - 2020 - в издания, индексирани в Scopus или Web of Science
    9. Arens, E., Heinzerling, D., Liu, S., Paliaga, G., Pande, A., Schiavon, S., ... & Zhang, H. (2020). Advances to ASHRAE Standard 55 to encourage more effective building practice. - 2020 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    10. Choi, N., Yamanaka, T., Kobayashi, T., Ihama, T., & Wakasa, M. (2020). Influence of vertical airflow along walls on temperature and contaminant concentration distributions in a displacement-ventilated four-bed hospital ward. Building and Environment, 183, 107181. https://doi.org/10.1016/j.buildenv.2020.107181 - 2020 - в издания, индексирани в Scopus или Web of Science
    11. Zhang, S. (2020). A Practical Simulation Framework for Thermal Sensation Analysis of Fenestration Designs (Doctoral dissertation, University of Toronto (Canada)). - 2020 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    12. Sami Lestinen, Panu Mustakallio, Simo Kilpeläinen, Risto Kosonen, Juha Jokisalo, Hannu Koskela & Arsen Krikor Melikov (2020) Experimental comparison of thermal conditions in office rooms: Diffuse ceiling ventilation, chilled beam system, and chilled ceiling combined with mixing ventilation, Science and Technology for the Built Environment, 26:5, 631-642, DOI: 10.1080/23744731.2019.1708210 - 2020 - в издания, индексирани в Scopus или Web of Science
    13. Zhao, X., Shi, Z., & Chen, Q. (2020). Inverse design of an indoor environment using a filter‐based topology method with experimental verification. Indoor air, 30(5), 1039-1051. https://doi.org/10.1111/ina.12661 - 2020 - в издания, индексирани в Scopus или Web of Science
    14. Liu, S., Wang, Z., Schiavon, S., He, Y., Luo, M., Zhang, H., & Arens, E. (2020). Predicted percentage dissatisfied with vertical temperature gradient. Energy and Buildings, 220, 110085. https://doi.org/10.1016/j.enbuild.2020.110085 - 2020 - в издания, индексирани в Scopus или Web of Science
    15. Jiang, Y., Wang, Z., Lin, B., & Mumovic, D. (2020). Development of a health data-driven model for a thermal comfort study. Building and Environment, 177, 106874. https://doi.org/10.1016/j.buildenv.2020.106874 - 2020 - в издания, индексирани в Scopus или Web of Science
    16. Lu, F., Ruibin, L., Fanxing, Z., Ran, J., Naiping, G. The influence of manikin movement on temperature stratification recovery time in a chamber with the displacement ventilation system (2020) 16th Conf of the Int. Society of Indoor Air Quality and Climate:, Indoor Air 2020 - 2020 - в издания, индексирани в Scopus или Web of Science
    17. Deng, X., Gong, G. Investigation of exhaled pollutant distribution in the breathing microenvironment in a displacement ventilated room with indoor air stability conditions (2021) Journal of Environmental Sciences (China), 99, pp. 336-345. DOI: 10.1016/j.jes.2020.06.025 - 2021 - в издания, индексирани в Scopus или Web of Science
    18. Conceição, E., Gomes, J., Lúcio, M.M., Conceição, M.I., Awbi, H. Design and Construction of a Ventilation System Located in an Experimental Chamber (2021) Advances in Science, Technology and Innovation, pp. 393-404. DOI: 10.1007/978-3-030-35533-3_47 - 2021 - в издания, индексирани в Scopus или Web of Science
    19. Kapoor, N.R., Kumar, A., Meena, C.S., Kumar, A., Alam, T., Balam, N.B., Ghosh, A. A Systematic Review on Indoor Environmental Quality in Naturally Ventilated School Classrooms: A Way Forward (2021) Advances in Civil Engineering, 2021, art. no. 8851685, DOI: 10.1155/2021/8851685 - 2021 - в издания, индексирани в Scopus или Web of Science
    20. Alzahrani, H., Arif, M., Kaushik, A., Goulding, J., Heesom, D. Artificial neural network analysis of teachers’ performance against thermal comfort (2021) International Journal of Building Pathology and Adaptation, 39 (1), pp. 20-32. DOI: 10.1108/IJBPA-11-2019-0098 - 2021 - в издания, индексирани в Scopus или Web of Science
    21. Feng, L., Zeng, F., Li, R., Ju, R., Gao, N. Influence of manikin movement on temperature stratification in a displacement ventilated room (2021) Energy and Buildings, 234, art. no. 110700, DOI: 10.1016/j.enbuild.2020.110700 - 2021 - в издания, индексирани в Scopus или Web of Science
    22. Sheikh Khan, D., Kolarik, J., Weitzmann, P. Occupants’ Interaction With an Occupant Voting System for Thermal and Indoor Air Quality Feedback – Case Studies in Office Spaces (2021) Frontiers in Built Environment, 7, art. no. 643630. DOI: 10.3389/fbuil.2021.643630 - 2021 - в издания, индексирани в Scopus или Web of Science
    23. la Fianza, G., Giametta, F., Brunetti, L., Orsino, M., Bianchi, B., Perone, C., Catalano, P. Thermo-fluid-dynamic characteristics of confluent jets for distribution of treated air in small environment (2021) Acta Horticulturae, 1311, pp. 225-231. DOI: 10.17660/ActaHortic.2021.1311.28 - 2021 - в издания, индексирани в Scopus или Web of Science
    24. Zhu, W., Gao, R., Zhou, L., Liu, Y., Jing, R., Zhang, Z., Li, A. Multi-objective air terminal of a household air conditioner based on the principle of central projection (2021) Energy and Buildings, 249, art. no. 111212. DOI: 10.1016/j.enbuild.2021.111212 - 2021 - в издания, индексирани в Scopus или Web of Science
    25. Lechner, S., Moosmann, C., Wagner, A., Schweiker, M. Does thermal control improve visual satisfaction? Interactions between occupants’ self-perceived control, visual, thermal, and overall satisfaction (2021) Indoor Air, 31 (6), pp. 2329-2349. DOI: 10.1111/ina.12851 - 2021 - в издания, индексирани в Scopus или Web of Science
    26. Peng, P., Pomianowski, M., Zhang, C., Guo, R., Jensen, R.L., Jønsson, K.T., Gong, G. Experimental investigation on the ventilation performance of diffuse ceiling ventilation in heating conditions (2021) Building and Environment, 205, art. no. 108262. DOI: 10.1016/j.buildenv.2021.108262 - 2021 - в издания, индексирани в Scopus или Web of Science
    27. Sheikh Khan, D., Kolarik, J., Weitzmann, P. Application of an occupant voting system for continuous occupant feedback on thermal and indoor air quality – Case studies in office spaces (2021) Energy and Buildings, 251, art. no. 111363. DOI: 10.1016/j.enbuild.2021.111363 - 2021 - в издания, индексирани в Scopus или Web of Science
    28. Su, X., Wang, Z., Yang, Y. Field study of cold radiant asymmetry caused by exterior built elements of educational buildings in severe cold area, China (2021) Energy and Buildings, 252, art. no. 111401. DOI: 10.1016/j.enbuild.2021.111401 - 2021 - в издания, индексирани в Scopus или Web of Science
    29. Buonocore, C., De Vecchi, R., Lamberts, R., Güths, S. From characterisation to evaluation: A review of dynamic and non-uniform airflows in thermal comfort studies (2021) Building and Environment, 206, art. no. 108386. DOI: 10.1016/j.buildenv.2021.108386 - 2021 - в издания, индексирани в Scopus или Web of Science
    30. Cheng, F., Wu, Y., Gao, S., Liao, C., & Cheng, Y. (2022). Experimental study of thermal comfort in a field environment chamber with stratum ventilation system in winter. Building and Environment, 207, 108445. - 2022 - в издания, индексирани в Scopus или Web of Science
    31. Zhou, B., Yang, B., Wu, M., Guo, Y., Wang, F., & Li, A. (2022). Draught sensation assessment in an occupied space heated by stratified ventilation system: Attachment ventilation with relayed fans. Building and Environment, 207, 108500. - 2022 - в издания, индексирани в Scopus или Web of Science
    32. Zhang, Z., Zeng, L., Shi, H., Liu, H., Yin, W., Gao, J., ... & Zhou, X. (2022). CFD studies on the spread of ammonia and hydrogen sulfide pollutants in a public toilet under personalized ventilation. Journal of Building Engineering, 46, 103728. - 2022 - в издания, индексирани в Scopus или Web of Science
    33. Andersson, H., Cehlin, M., & Moshfegh, B. (2022). A Numerical and Experimental Investigation of a Confluent Jets Ventilation Supply Device in a Conference Room. Energies, 15(5), 1630. - 2022 - в издания, индексирани в Scopus или Web of Science
    34. Zhao, Comparison of ventilation performance in an office room through big data simulation (2022) Proceedings of SPIE - The International Society for Optical Engineering, 12160, art. no. 121600Z, DOI: 10.1117/12.2627991 - 2022 - в издания, индексирани в Scopus или Web of Science
    35. Feng, G. Ventilation systems (2022) Handbook of Ventilation Technology for the Built Environment: Design, Control and Testing, pp. 39-62. DOI: 10.1049/PBBE001E_ch3 - 2022 - в издания, индексирани в Scopus или Web of Science
    36. Bai, L. Ventilation definition and requirements (2022) Handbook of Ventilation Technology for the Built Environment: Design, Control and Testing, pp. 7-38. DOI: 10.1049/PBBE001E_ch2 - 2022 - в издания, индексирани в Scopus или Web of Science
    37. Stokowiec, K., Kotrys-Działak, D., Jastrzȩbska, P. Verification of the Fanger model with field experimental data (2022) Journal of Physics: Conference Series, 2339 (1), art. no. 012027, DOI: 10.1088/1742-6596/2339/1/012027 - 2022 - в издания, индексирани в Scopus или Web of Science
    38. Essa, A., Yamanaka, T., Kobayashi, T., Choi, N. Effect of source location on contaminant dispersion pattern and occupants inhaled air quality in lecture room under displacement ventilation (2022) Japan Architectural Review, DOI: 10.1002/2475-8876.12313 - 2022 - в издания, индексирани в Scopus или Web of Science
    39. Tian, X., Zhang, Y., Lu, Y., Lin, Z. Stratified micro-environments using a sidewall air supply: An experimental and simulation study (2022) Building and Environment, 224, art. no. 109558, DOI: 10.1016/j.buildenv.2022.109558 - 2022 - в издания, индексирани в Scopus или Web of Science
    40. Yang, B., Liu, P., Liu, Y., Jin, D., Wang, F. Assessment of Thermal Comfort and Air Quality of Room Conditions by Impinging Jet Ventilation Integrated with Ductless Personalized Ventilation (2022) Sustainability (Switzerland), 14 (19), art. no. 12526, DOI: 10.3390/su141912526 - 2022 - в издания, индексирани в Scopus или Web of Science
    41. Kaushik, A.K., Arif, M., Syal, M.M.G., Rana, M.Q., Oladinrin, O.T., Sharif, A.A., Alshdiefat, A.S. Effect of Indoor Environment on Occupant Air Comfort and Productivity in Office Buildings: A Response Surface Analysis Approach (2022) Sustainability (Switzerland), 14 (23), art. no. 15719, DOI: 10.3390/su142315719 - 2022 - в издания, индексирани в Scopus или Web of Science
    42. Yan, T., Jin, Y., Jin, H. Combined effects of the visual-thermal environment on the subjective evaluation of urban pedestrian streets in severely cold regions of China (2023) Building and Environment, 228, art. no. 109895, DOI: 10.1016/j.buildenv.2022.109895 - 2023 - в издания, индексирани в Scopus или Web of Science
    43. Rahmati, B., Heidarian, A., Jadidi, A.M. The Relation Between Airflow Pattern and Indoor Air Quality in a Hybrid Personalized Ventilation with Under-Floor Air Distribution System (2023) Experimental Techniques, 47 (1), pp. 167-186. DOI: 10.1007/s40799-022-00595-0 - 2023 - в издания, индексирани в Scopus или Web of Science
    44. Zhou, B., Li, Z., Yang, B., Li, X., Wang, F., Wei, S. Thermal and draught perception in fluctuating stratified thermal environments with intermittent impinging jet ventilation (2023) Building and Environment, 229, art. no. 109934, DOI: 10.1016/j.buildenv.2022.109934 - 2023 - в издания, индексирани в Scopus или Web of Science
    45. Essa, A., Yamanaka, T., Kobayashi, T., Choi, N. Effect of source location on contaminant dispersion pattern and occupants inhaled air quality in lecture room under displacement ventilation (2023) Japan Architectural Review, 6 (1), art. no. e12313, DOI: 10.1002/2475-8876.12313 - 2023 - в издания, индексирани в Scopus или Web of Science
    46. Yun, S.Y., Licina, D.S. Investigation of personal air pollution exposures and occupants' fresh air demands in two office buildings in Switzerland (2023) Journal of Physics: Conference Series, 2600 (10), art. no. 102010, DOI: 10.1088/1742-6596/2600/10/102010 - 2023 - в издания, индексирани в Scopus или Web of Science
    47. Andersson, H., Cehlin, M., Moshfegh, B. An investigation concerning optimal design of confluent jets ventilation with variable air volume (2023) International Journal of Ventilation, DOI: 10.1080/14733315.2023.2300231 - 2023 - в издания, индексирани в Scopus или Web of Science
    48. Faraji, A., Rashidi, M., Rezaei, F., Rahnamayiezekavat, P. A Meta-Synthesis Review of Occupant Comfort Assessment in Buildings (2002–2022) (2023) Sustainability (Switzerland), 15 (5), art. no. 4303, DOI: 10.3390/su15054303 - 2023 - в издания, индексирани в Scopus или Web of Science
    49. Kapoor, N.R., Kumar, A., Kumar, A., Kumar, A., Arora, H.C., Jahangir, H. Quantum computing for indoor environmental quality: A leapfrogging technology (2023) Handbook of Research on Quantum Computing for Smart Environments, pp. 191-216. DOI: 10.4018/978-1-6684-6697-1.ch011 - 2023 - в издания, индексирани в Scopus или Web of Science
    50. Liu, F., Luo, Z., Qian, H. Impact of thermal stratification on airborne transmission risk of SARS-CoV-2 in various indoor environments (2023) Building Simulation, 16 (7), pp. 1159-1172. DOI: 10.1007/s12273-023-1021-5 - 2023 - в издания, индексирани в Scopus или Web of Science
    51. Zhang, Y., Guo, Z., Zhuo, L., An, N., Han, Y. Ventilation Strategies for Highly Occupied Public Environments: A Review (2023) Buildings, 13 (7), art. no. 1642, DOI: 10.3390/buildings13071642 - 2023 - в издания, индексирани в Scopus или Web of Science
    52. Tian, X., Zhang, Y., Lin, Z. Improvements of stratified micro-environments on the satisfaction of individual thermal preferences and energy-efficiency (2023) Sustainable Cities and Society, 96, art. no. 104683, DOI: 10.1016/j.scs.2023.104683 - 2023 - в издания, индексирани в Scopus или Web of Science
    53. Zhao, H., Kong, X., Yao, W., Fei, X., Zhao, J., Zhao, S., Feng, T. Control technology of pathogenic biological aerosol: Review and prospect (2023) Building and Environment, 243, art. no. 110679, DOI: 10.1016/j.buildenv.2023.110679 - 2023 - в издания, индексирани в Scopus или Web of Science
    54. Zierke, O., Goerke, P., Maier, J., Hoermann, H.-J. Influence of personal control on thermal comfort: A psychological effect or just the “right” temperature? (2023) Energy and Buildings, 295, art. no. 113334, DOI: 10.1016/j.enbuild.2023.113334 - 2023 - в издания, индексирани в Scopus или Web of Science
    55. Kang, Y., Yin, H., Wang, J., Ji, D., Zhang, J., Tian, X., Ma, Z., Li, A. Research on airflow convergence patterns and air distribution characteristics under multi-column attachment ventilation (2023) Building and Environment, 245, art. no. 110862, DOI: 10.1016/j.buildenv.2023.110862 - 2023 - в издания, индексирани в Scopus или Web of Science
    56. Cheng, F., Cheng, Y., Lin, Z. Experimental study of draft-related local discomfort in a room with stratum ventilation (2023) Applied Thermal Engineering, 234, art. no. 121259, DOI: 10.1016/j.applthermaleng.2023.121259 - 2023 - в издания, индексирани в Scopus или Web of Science
    57. Li, J., Deng, H., Pan, X., Zeng, F., & Gao, N. (2023). Numerical simulation on exploring influencing factors of wind-driven natural ventilation effect in large indoor dock. Low-carbon Materials and Green Construction, 1(1), 8. - 2023 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science
    58. Binsfeld, C. (2023). Bilanzierung ausgewählter raumphysiologischer Auswirkungen von Gebäuden auf den Nutzer (Doctoral dissertation, Technische Universität München). - 2023 - от чужди автори в чужди издания, неиндексирани в Scopus или Web of Science

    Вид: статия в списание, публикация в издание с импакт фактор, публикация в реферирано издание, индексирана в Scopus и Web of Science