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Important Factors Affecting the Quality of Indoor Air and a Bibliometric Analysis

Year 2022, Volume: 26 Issue: 3, 608 - 619, 30.06.2022
https://doi.org/10.16984/saufenbilder.996443

Abstract

Indoor air quality is critical for human health, and as such, it must be continuously improved. As a result, it is critical to identify the factors influencing indoor air quality. In this context, the purpose of this study is to investigate the factors influencing indoor air quality and to conduct a bibliometric analysis of the studies on the subject. The method of bibliometric analysis was used to examine academic publications on indoor air quality published between 1975 and 2020. A total of 2398 academic studies from the Web of Science database were examined. According to the findings of the analyses, academic research has primarily been conducted in the fields of construction technology and environmental sciences, public environmental occupational health, and environmental engineering. Since 2010, there has been a significant increase in the number of publications. The year with the most publications was 2017, and especially after 2010, publications have been cited more and more. One-fourth of the publications were produced solely in the United States. Hong Kong Polytechnic University and Denmark Technical University had the most publications. It has been determined that ventilation and air flow rate are the most heavily researched factors affecting indoor air quality. On the other hand, a substantial amount of research has been conducted to investigate the effects of pollutants. Furthermore, publications on temperature, humidity, bacteria, and thermal comfort were discovered. There have been studies on indoor air quality in residential buildings, houses, schools, and hospitals.

References

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  • [27] P. Wargocki, J. Sundell, W. Bischof, G. Brundrett, P. O. Fanger, F. Gyntelberg, P. Wouters,‐ “ Ventilation and health in non industrial indoor environments: report from a European Multidisciplinary Scientific Consensus Meeting (EUROVEN)” Indoor air, vol. 12, no. 2, pp. 113-128, 2002.
  • [28] G. C. Da Graça, Q. Chen, L. R. Glicksman, L. K. Norford, “Simulation of wind-driven ventilative cooling systems for an apartment building in Beijing and Shanghai” Energy and buildings, vol. 34, no. 1, p.1, 2002.
  • [29] A. Akman, “İnsan sağlığı, Sağlıklı Yapı ve Yapı Biyolojisi” Yapı Dergisi, vol. 279, pp. 80-89, 2005.
  • [30] P. Krusche, M. Krusche, D. Althaus, I. Gabriel, “Okologisches Bauen Herausgegeben vo Umweltbundesamt” Wiesbaden und Berlin: Bauverlag, 1982.
  • [31] M. Rosana. Alberici, F. Wilson Jardim, "Photocatalytic destruction of VOCs in the gas-phase using titanium dioxide" Applied Catalysis B: Environmental vol. 14, pp.1-2, 1997.
  • [32] C.W. Lee, Y.T. Dai, C.H. Chıen, D.J. Hsu, “Characteristics and health impacts of volatile organic compounds in photocopy centers” Environmental Research, vol. 100, pp. 139-149, 2006.
  • [33] P.H. Fıscher, G. Hoek, H.V. Reeuwıjk, D.J. Brıggs, E. Lebert, J.V. Wıjnen, S. Kıngham, P.E. Ellıott, “Traffic related differences in outdoor and indoor concentrations of particles and volatile organic compunds in Amsterdam” Atmospheric Environment, vol. 34, pp. 3713-3722, 2000.
  • [34] A. Pritchard, “Statistical bibliography or bibliometrics” Journal of documentation, vol. 25, no. 4, pp. 348-349, 1969.
  • [35] N. De Bellis, “Bibliometrics and citation analysis: from the science citation index to cybermetrics” scarecrow press, 2009.
  • [36] J. M. Daisey, W. J. Angell, M.G. Apte, “Indoor air quality, ventilation and health symptoms in schools: an analysis of existing information” Indoor air, 13(LBNL-48287), 2003.
Year 2022, Volume: 26 Issue: 3, 608 - 619, 30.06.2022
https://doi.org/10.16984/saufenbilder.996443

Abstract

References

  • [1] H. Chao, D.K. Milton, J. Schwartz, H.A. Burge, “Dustborne fungi in large office buildings” Mycopathologia, vol. 154, no. 2, pp. 93-106, 2002.
  • [2] L. Molhave, “Sick building syndrome” Encyclopedia of Environmental Health, vol. 3, pp. 61-67, 2011.
  • [3] Web of Science, www.webofscience.com (Access Date: 16.04.2021)
  • [4] EPA “Indoor Air Pollution and Health.” Report Series No. 104. 2013. Available online: https://www.epa.ie/pubs/reports/ research/health/IndoorAirPollutionan, 2020.
  • [5] ASHRAE “ASHRAE Handbook, 2001 Fundamentals, Chapter 8: Thermal Comfort, The American Society of Heating, Refrigerating and Air-Conditioning” Atlanta, USA, 2003.
  • [6] EPA, “An Office Building Occupants Guide to Indoor Air Quality, UnitedStatesEnvironmentalProtectionnAgency” Indoor Environments Division, Washington, DC, 1997.
  • [7] WHO, “The right to healthy indoor air, Report on WHO Meeting Bilthoven, Netherlands” 15-17 May 2000, WHO Regional Office for Europe, 2000.
  • [8] E. A. Unobe, “Political Instability and the Possibility for a Sustainable Democratic Rule in Nigeria” Nigeria Journal of Political Science, vol. 9, no. 1, 2003.
  • [9] R. Kosonena, F. Tan, “Assessment of productivity loss in air-conditioned buildings using PMV index” Energy and Buildings, vol. 36, pp. 987-993, 2004.
  • [10] W.C. Sing, “A new engineering approach for indoor air quality management in building” Ph.D. Dissertation, The Hong Kong Polytechnic University, Hong Kong, 2007.
  • [11] A.P. Jones, “Indoor air quality and health. Atmospheric environment” vol. 33, no. 28, pp. 4535-4564, 1999.
  • [12] J. Sundell, “On the history of indoor air quality and health” Indoor air, vol. 14, pp. 51-58, 2004.
  • [13] P. Wolkoff, “Indoor air humidity, air quality, and health–An overview” International journal of hygiene and environmental health, vol. 221, no. 3, pp. 376-390, 2018.
  • [14] WHO, “Indoor Air Pollution: National Burden of Disease Estimates” WHO: Geneva, Switzerland, 2007. (accessed on 5 June 2019).
  • [15] I. I. Geneva, B. Cuzzo, T. Fazili, W. Javaid, “Normal body temperature: a systematic review” In Open Forum Infectious Diseases (Vol. 6, No. 4, p. ofz032). US: Oxford University Press, 2019.
  • [16] L. Fang, G. Clausen, P.O. Fanger, “Impact of temperature and humidity on the perception of indoor air quality” Indoor air, vol. 8, no. 2, pp. 80-90, 1998.
  • [17] L.Fang, D. F. Wyon, G, Clausen, P.O. Fanger, “Impact of indoor air temperature and humidity in an office on perceived air quality, SBS symptoms and performance” Indoor air, vol. 14, pp. 74-81, 2004.
  • [18] D. A. Krawczyk, B. Wadolowska, “Analysis of indoor air parameters in an education building” Energy Procedia, vol. 147, pp. 96-103, 2018.
  • [19] S. Schiavon, T. Hoyt, A. Piccioli, “Web application for thermal comfort visualization and calculation according to Standard 55” In Building Simulation, vol. 7, no. 4, pp. 321-334, 2014.
  • [20] F. Bauman, T. Webster, “Outlook for underfloor air distribution” UC Berkeley: Center for the Built Environment. Retrieved from https://escholarship.org/uc/item/5v60x5 7q, 2001.
  • [21] A.H. Sekhar, A.L. Devi, “Voltage profile improvement and power system losses reduction with multi TCSC placement in transmission system by using firing angle control model withheuristic algorithms” In 2016 International Conference on Signal Processing, Communication, Power and Embedded System, Paralakhemundi, Odisha, India, 2016, pp. 295-301.
  • [22] M. Kavgic, D. Mumovic, Z. Stevanovic, A. Young, “Analysis of thermal comfort and indoor air quality in amechanically ventilated theatre” Energy and Buildings, vol. 40, no. 7, pp. 1334-1343, 2008.
  • [23] Y. Ma, Y. Zhao, J. Liu, X. He, B. Wang, S. Fu, B. Luo, “Effects of temperature variation and humidity on the death of COVID-19 in Wuhan, China” Science of The Total Environment, vol. 724, p. 138226, 2020.
  • [24] B. Oliveiros, L. Caramelo, N. C. Ferreira, F. Caramelo, “Role of temperature and humidity in the modulation of the doubling time of COVID-19 cases” medRxiv. https://doi.org/10.1101/2020.03.05.2003 1872, 2020.
  • [25] J.D. Spengler, J. F. McCarthy, J. M. Samet, “Indoor air quality handbook” New York, United States, 2001.
  • [26] M. H. Sherman, “Efficacy of intermittent ventilation for providing acceptable indoor air quality (No. LBNL-56292)” Lawrence Berkeley National Lab.(LBNL), Berkeley, CA (United States), 2004.
  • [27] P. Wargocki, J. Sundell, W. Bischof, G. Brundrett, P. O. Fanger, F. Gyntelberg, P. Wouters,‐ “ Ventilation and health in non industrial indoor environments: report from a European Multidisciplinary Scientific Consensus Meeting (EUROVEN)” Indoor air, vol. 12, no. 2, pp. 113-128, 2002.
  • [28] G. C. Da Graça, Q. Chen, L. R. Glicksman, L. K. Norford, “Simulation of wind-driven ventilative cooling systems for an apartment building in Beijing and Shanghai” Energy and buildings, vol. 34, no. 1, p.1, 2002.
  • [29] A. Akman, “İnsan sağlığı, Sağlıklı Yapı ve Yapı Biyolojisi” Yapı Dergisi, vol. 279, pp. 80-89, 2005.
  • [30] P. Krusche, M. Krusche, D. Althaus, I. Gabriel, “Okologisches Bauen Herausgegeben vo Umweltbundesamt” Wiesbaden und Berlin: Bauverlag, 1982.
  • [31] M. Rosana. Alberici, F. Wilson Jardim, "Photocatalytic destruction of VOCs in the gas-phase using titanium dioxide" Applied Catalysis B: Environmental vol. 14, pp.1-2, 1997.
  • [32] C.W. Lee, Y.T. Dai, C.H. Chıen, D.J. Hsu, “Characteristics and health impacts of volatile organic compounds in photocopy centers” Environmental Research, vol. 100, pp. 139-149, 2006.
  • [33] P.H. Fıscher, G. Hoek, H.V. Reeuwıjk, D.J. Brıggs, E. Lebert, J.V. Wıjnen, S. Kıngham, P.E. Ellıott, “Traffic related differences in outdoor and indoor concentrations of particles and volatile organic compunds in Amsterdam” Atmospheric Environment, vol. 34, pp. 3713-3722, 2000.
  • [34] A. Pritchard, “Statistical bibliography or bibliometrics” Journal of documentation, vol. 25, no. 4, pp. 348-349, 1969.
  • [35] N. De Bellis, “Bibliometrics and citation analysis: from the science citation index to cybermetrics” scarecrow press, 2009.
  • [36] J. M. Daisey, W. J. Angell, M.G. Apte, “Indoor air quality, ventilation and health symptoms in schools: an analysis of existing information” Indoor air, 13(LBNL-48287), 2003.
There are 36 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Articles
Authors

Bahar Türk 0000-0002-1185-9174

Publication Date June 30, 2022
Submission Date September 16, 2021
Acceptance Date May 11, 2022
Published in Issue Year 2022 Volume: 26 Issue: 3

Cite

APA Türk, B. (2022). Important Factors Affecting the Quality of Indoor Air and a Bibliometric Analysis. Sakarya University Journal of Science, 26(3), 608-619. https://doi.org/10.16984/saufenbilder.996443
AMA Türk B. Important Factors Affecting the Quality of Indoor Air and a Bibliometric Analysis. SAUJS. June 2022;26(3):608-619. doi:10.16984/saufenbilder.996443
Chicago Türk, Bahar. “Important Factors Affecting the Quality of Indoor Air and a Bibliometric Analysis”. Sakarya University Journal of Science 26, no. 3 (June 2022): 608-19. https://doi.org/10.16984/saufenbilder.996443.
EndNote Türk B (June 1, 2022) Important Factors Affecting the Quality of Indoor Air and a Bibliometric Analysis. Sakarya University Journal of Science 26 3 608–619.
IEEE B. Türk, “Important Factors Affecting the Quality of Indoor Air and a Bibliometric Analysis”, SAUJS, vol. 26, no. 3, pp. 608–619, 2022, doi: 10.16984/saufenbilder.996443.
ISNAD Türk, Bahar. “Important Factors Affecting the Quality of Indoor Air and a Bibliometric Analysis”. Sakarya University Journal of Science 26/3 (June 2022), 608-619. https://doi.org/10.16984/saufenbilder.996443.
JAMA Türk B. Important Factors Affecting the Quality of Indoor Air and a Bibliometric Analysis. SAUJS. 2022;26:608–619.
MLA Türk, Bahar. “Important Factors Affecting the Quality of Indoor Air and a Bibliometric Analysis”. Sakarya University Journal of Science, vol. 26, no. 3, 2022, pp. 608-19, doi:10.16984/saufenbilder.996443.
Vancouver Türk B. Important Factors Affecting the Quality of Indoor Air and a Bibliometric Analysis. SAUJS. 2022;26(3):608-19.