Use of personalized ventilation for improving health, comfort, and performance at high room temperature and humidity

The effect of personalized ventilation (PV) on people's health, comfort, and performance in a warm and humid environment (26 and 28°C at 70% relative humidity) was studied and compared with their responses in a comfortable environment (23°C and 40% relative humidity). Thirty subjects participat...

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Published inIndoor air Vol. 23; no. 3; pp. 250 - 263
Main Authors Melikov, A. K., Skwarczynski, M. A., Kaczmarczyk, J., Zabecky, J.
Format Journal Article
LanguageEnglish
Published England Blackwell Publishing Ltd 01.06.2013
John Wiley & Sons, Inc
Subjects
Air quality
alpha-Amylases - analysis
Comfort
Female
Health
High temperature
Hot and humid environment
Hot Temperature
Humans
Humidity
Individual control
Male
Personalized ventilation
Relative humidity
Sick building syndrome
Sick Building Syndrome - etiology
Sick Building Syndrome - prevention & control
Task Performance and Analysis
Tears - chemistry
Ventilation
Online AccessGet full text
ISSN0905-6947
1600-0668
1600-0668
DOI10.1111/ina.12012

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Abstract The effect of personalized ventilation (PV) on people's health, comfort, and performance in a warm and humid environment (26 and 28°C at 70% relative humidity) was studied and compared with their responses in a comfortable environment (23°C and 40% relative humidity). Thirty subjects participated in five 4‐h experiments in a climate chamber. Under the conditions with PV, the subjects were able to control the rate and direction of the supplied personalized flow of clean air. Subjective responses were collected through questionnaires. During all exposures, the subjects were occupied with tasks used to assess their performance. Objective measures of tear film stability, concentration of stress biomarkers in saliva, and eye blinking rate were taken. Using PV significantly improved the perceived air quality (PAQ) and thermal sensation and decreased the intensity of Sick Building Syndrome (SBS) symptoms to those prevailing in a comfortable room environment without PV. Self‐estimated and objectively measured performance was improved. Increasing the temperature and relative humidity, but not the use of PV, significantly decreased tear film quality and the concentration of salivary alpha‐amylase, indicating lower mental arousal and alertness. The use of PV improved tear film stability as compared to that in a warm environment without PV.
AbstractList The effect of personalized ventilation (PV) on people's health, comfort, and performance in a warm and humid environment (26 and 28°C at 70% relative humidity) was studied and compared with their responses in a comfortable environment (23°C and 40% relative humidity). Thirty subjects participated in five 4-h experiments in a climate chamber. Under the conditions with PV, the subjects were able to control the rate and direction of the supplied personalized flow of clean air. Subjective responses were collected through questionnaires. During all exposures, the subjects were occupied with tasks used to assess their performance. Objective measures of tear film stability, concentration of stress biomarkers in saliva, and eye blinking rate were taken. Using PV significantly improved the perceived air quality (PAQ) and thermal sensation and decreased the intensity of Sick Building Syndrome (SBS) symptoms to those prevailing in a comfortable room environment without PV. Self-estimated and objectively measured performance was improved. Increasing the temperature and relative humidity, but not the use of PV, significantly decreased tear film quality and the concentration of salivary alpha-amylase, indicating lower mental arousal and alertness. The use of PV improved tear film stability as compared to that in a warm environment without PV.UNLABELLEDThe effect of personalized ventilation (PV) on people's health, comfort, and performance in a warm and humid environment (26 and 28°C at 70% relative humidity) was studied and compared with their responses in a comfortable environment (23°C and 40% relative humidity). Thirty subjects participated in five 4-h experiments in a climate chamber. Under the conditions with PV, the subjects were able to control the rate and direction of the supplied personalized flow of clean air. Subjective responses were collected through questionnaires. During all exposures, the subjects were occupied with tasks used to assess their performance. Objective measures of tear film stability, concentration of stress biomarkers in saliva, and eye blinking rate were taken. Using PV significantly improved the perceived air quality (PAQ) and thermal sensation and decreased the intensity of Sick Building Syndrome (SBS) symptoms to those prevailing in a comfortable room environment without PV. Self-estimated and objectively measured performance was improved. Increasing the temperature and relative humidity, but not the use of PV, significantly decreased tear film quality and the concentration of salivary alpha-amylase, indicating lower mental arousal and alertness. The use of PV improved tear film stability as compared to that in a warm environment without PV.In practice, the supply of clean, cool, and less humid air by PV at each workstation will make it possible to raise room temperatures above the upper comfortable limit suggested in the present standards without adversely affecting the occupants' health [Sick Building Syndrome (SBS) symptoms], comfort (thermal and perceived air quality), and performance. This may lead to energy savings.PRACTICAL IMPLICATIONSIn practice, the supply of clean, cool, and less humid air by PV at each workstation will make it possible to raise room temperatures above the upper comfortable limit suggested in the present standards without adversely affecting the occupants' health [Sick Building Syndrome (SBS) symptoms], comfort (thermal and perceived air quality), and performance. This may lead to energy savings.
The effect of personalized ventilation (PV) on people's health, comfort, and performance in a warm and humid environment (26 and 28°C at 70% relative humidity) was studied and compared with their responses in a comfortable environment (23°C and 40% relative humidity). Thirty subjects participated in five 4-h experiments in a climate chamber. Under the conditions with PV, the subjects were able to control the rate and direction of the supplied personalized flow of clean air. Subjective responses were collected through questionnaires. During all exposures, the subjects were occupied with tasks used to assess their performance. Objective measures of tear film stability, concentration of stress biomarkers in saliva, and eye blinking rate were taken. Using PV significantly improved the perceived air quality (PAQ) and thermal sensation and decreased the intensity of Sick Building Syndrome (SBS) symptoms to those prevailing in a comfortable room environment without PV. Self-estimated and objectively measured performance was improved. Increasing the temperature and relative humidity, but not the use of PV, significantly decreased tear film quality and the concentration of salivary alpha-amylase, indicating lower mental arousal and alertness. The use of PV improved tear film stability as compared to that in a warm environment without PV. In practice, the supply of clean, cool, and less humid air by PV at each workstation will make it possible to raise room temperatures above the upper comfortable limit suggested in the present standards without adversely affecting the occupants' health [Sick Building Syndrome (SBS) symptoms], comfort (thermal and perceived air quality), and performance. This may lead to energy savings.
The effect of personalized ventilation (PV) on people's health, comfort, and performance in a warm and humid environment (26 and 28°C at 70% relative humidity) was studied and compared with their responses in a comfortable environment (23°C and 40% relative humidity). Thirty subjects participated in five 4‐h experiments in a climate chamber. Under the conditions with PV, the subjects were able to control the rate and direction of the supplied personalized flow of clean air. Subjective responses were collected through questionnaires. During all exposures, the subjects were occupied with tasks used to assess their performance. Objective measures of tear film stability, concentration of stress biomarkers in saliva, and eye blinking rate were taken. Using PV significantly improved the perceived air quality (PAQ) and thermal sensation and decreased the intensity of Sick Building Syndrome (SBS) symptoms to those prevailing in a comfortable room environment without PV. Self‐estimated and objectively measured performance was improved. Increasing the temperature and relative humidity, but not the use of PV, significantly decreased tear film quality and the concentration of salivary alpha‐amylase, indicating lower mental arousal and alertness. The use of PV improved tear film stability as compared to that in a warm environment without PV.
The effect of personalized ventilation (PV) on people's health, comfort, and performance in a warm and humid environment (26 and 28°C at 70% relative humidity) was studied and compared with their responses in a comfortable environment (23°C and 40% relative humidity). Thirty subjects participated in five 4-h experiments in a climate chamber. Under the conditions with PV, the subjects were able to control the rate and direction of the supplied personalized flow of clean air. Subjective responses were collected through questionnaires. During all exposures, the subjects were occupied with tasks used to assess their performance. Objective measures of tear film stability, concentration of stress biomarkers in saliva, and eye blinking rate were taken. Using PV significantly improved the perceived air quality (PAQ) and thermal sensation and decreased the intensity of Sick Building Syndrome (SBS) symptoms to those prevailing in a comfortable room environment without PV. Self-estimated and objectively measured performance was improved. Increasing the temperature and relative humidity, but not the use of PV, significantly decreased tear film quality and the concentration of salivary alpha-amylase, indicating lower mental arousal and alertness. The use of PV improved tear film stability as compared to that in a warm environment without PV. [PUBLICATION ABSTRACT]
The effect of personalized ventilation (PV) on people's health, comfort, and performance in a warm and humid environment (26 and 28 degree C at 70% relative humidity) was studied and compared with their responses in a comfortable environment (23 degree C and 40% relative humidity). Thirty subjects participated in five 4-h experiments in a climate chamber. Under the conditions with PV, the subjects were able to control the rate and direction of the supplied personalized flow of clean air. Subjective responses were collected through questionnaires. During all exposures, the subjects were occupied with tasks used to assess their performance. Objective measures of tear film stability, concentration of stress biomarkers in saliva, and eye blinking rate were taken. Using PV significantly improved the perceived air quality (PAQ) and thermal sensation and decreased the intensity of Sick Building Syndrome (SBS) symptoms to those prevailing in a comfortable room environment without PV. Self-estimated and objectively measured performance was improved. Increasing the temperature and relative humidity, but not the use of PV, significantly decreased tear film quality and the concentration of salivary alpha-amylase, indicating lower mental arousal and alertness. The use of PV improved tear film stability as compared to that in a warm environment without PV.
Author Kaczmarczyk, J.
Melikov, A. K.
Skwarczynski, M. A.
Zabecky, J.
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  surname: Melikov
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  givenname: M. A.
  surname: Skwarczynski
  fullname: Skwarczynski, M. A.
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  givenname: J.
  surname: Kaczmarczyk
  fullname: Kaczmarczyk, J.
  organization: Faculty of Energy and Environmental Engineering, Department of Heating, Ventilation and Dust Removal Technology, Silesian University of Technology, Gliwice, Poland
– sequence: 4
  givenname: J.
  surname: Zabecky
  fullname: Zabecky, J.
  organization: International Centre for Indoor Environment and Energy, Department of Civil Engineering, Technical University of Denmark, Kgs. Lyngby, Denmark
BackLink https://www.ncbi.nlm.nih.gov/pubmed/23130883$$D View this record in MEDLINE/PubMed
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Kaczmarczyk, J. , Melikov, A. and Fanger, P.O. (2004) Human response to personalized and mixing ventilation, Indoor Air., 14, 1-13.
Melikov, A. (2004) Personalized ventilation, Indoor Air., 14, 157-167.
Lan, L. , Wargocki, P. , Wyon, D.P. and Lian, Z. (2011) Effects of thermal discomfort in an office on the perceived air quality. Sick Building Syndrome-symptoms, physiological responses and human performance, Indoor Air., 21, 376-390.
Sundell, J. , Levin, H. , Nazaroff, W. , Cain, W.S. , Fisk, W.J. , Grimsrud, D.T. , Gyntelberg, F. , Li, Y. , Persily, A.K. , Pickering, A.C. , Samet, J.M. , Spengler, J.D. , Taylor, S.T. and Weschler, C.J. (2011) Ventilation rates and health: multidisciplinary review of the scientific literature, Indoor Air, 21, 191-204.
Wyon, N.M. and Wyon, D.P. (2009) Measurement of acute response to draught in the eye, Acta Ophthalmol., 65, 385-392.
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Schiavon, S. and Melikov, A. (2009) Energy-saving strategies with personalized ventilation in cold climates, Energy Build., 41, 543-550.
Cermak, R. , Melikov, A.K. , Forejt, L. and Kovar, O. (2006) Performance of personalized ventilation in conjunction with mixing and displacement ventilation, HVAC & R, 12, 295-311.
Rolando, M. (1984) Tear mucus ferning test in normal and keratoconjunctivitis sicca eyes, Chibret Int. J. Ophthalomol., 2, 32-41.
Bolashikov, Z. , Nikolaev, L. , Melikov, A. , Kaczmarczyk, J. and Fanger, P.O. (2003) New air terminal devices with high efficiency for personalized ventilation application, Proc. Healthy Build., 2, 850-855.
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Wolkoff, P. (2008) "Healthy" eye in office-like environments, Environ. Int., 34, 1204-1214.
Cermak, R. and Melikov, A. (2007) Protection of occupants from exhaled infectious agents and floor material emissions in rooms with personalized and underfloor ventilation, HVAC & R Res., 13, 23-38.
Halvoňová, B. and Melikov, A. (2010) Performance of "ductless" personalized ventilation in conjunction with displacement ventilation: Impact of disturbances due to walking person(s), Build. Environ., 45, 427-436.
ASHRAE Guideline 10 (2011) Interactions affecting the achievement of acceptable indoor environments, Atlanta, GA, American Society of Heating, Refrigerating and Air-Conditioning Engineers.
Kaczmarczyk, J. , Melikov, A. , Bolashikov, Z. , Nikolaev, L. and Fanger, P.O. (2006) Human response to five designs of personalized ventilation, HVAC & R Res., 12, 367-384.
Melikov, A.K. and Kaczmarczyk, J. (2012) Air movement and perceived air quality, Build. Environ., 47, 400-409.
Yang, B. , Melikov, A.K. and Sekhar, C. (2009) Performance evaluation of ceiling mounted personalized ventilation system, ASHRAE Trans., 115, 395-406.
Yang, B. , Melikov, A.K. and Sekhar, C. (2010) Ceiling mounted personalized ventilation system integrated with a secondary air distribution system - a human response study in hot and humid climate, Indoor Air, 20, 309-319.
Schiavon, S. , Melikov, A. and Sekhar, C. (2010) Energy analysis of the personalized ventilation system in hot and humid climates, Energy Build., 42, 699-707.
Zhang, H. , Arens, E. , Kim, D. , Buchberger, E. , Bauman, F. and Huizenga, C. (2010) Comfort, perceived air quality, and work performance in a low-power task-ambient conditioning system, Build. Environ., 45, 29-39.
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Skwarczynski, M.A. , Melikov, A.K. , Kaczmarczyk, J. and Lyubenova, V. (2010) Impact of individually controlled facially applied air movement on perceived air quality at high humidity, Build. Environ., 45, 2170-2176.
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Li, R. , Sekhar, S.C. and Melikov, A.K. (2010) Thermal comfort and IAQ assessment of under-floor air distribution system integrated with personalized ventilation in hot and humid climate, Build. Environ., 45, 1906-1913.
Schiavon, S. and Melikov, A. (2008) Energy saving and improved comfort by increasing air movement, Energy Build., 40, 1954-1960.
Tham, K.W. and Willem, H.C. (2009) Room air temperature affects occupants' physiology, perceptions and mental alertness, Build. Environ., 45, 40-44.
Andersson, J. , Boerstra, V. , Clements-Croome, D. , Fitzner, K. and Hanssen, S.O. (2007) Indoor climate and productivity in offices. How to integrate productivity in life-cycle cost analysis of building services. REHVA Guidebook 6. Brussels, Federation of European Heating and Air-conditioning Associations.
2009; 45
2009; 41
2009; 65
2006; 12
2011
2010
2008
2007
2008; 34
2006
2005
1991
2007; 13
2009; 115
2010; 45
2010; 42
2010; 20
1984; 2
2004; 14
2003; 2
2011; 21
1998; 104
2012; 47
2008; 40
2005; 11
1989
1966
2001; 215
Wyon (10.1111/ina.12012-BIB0035|ina12012-cit-0035) 2009; 65
Li (10.1111/ina.12012-BIB0019|ina12012-cit-0019) 2010; 45
Cermak (10.1111/ina.12012-BIB0009|ina12012-cit-0009) 2006; 12
10.1111/ina.12012-BIB0033|ina12012-cit-0033
Horwath (10.1111/ina.12012-BIB0013|ina12012-cit-0013) 2001; 215
10.1111/ina.12012-BIB0022|ina12012-cit-0022
Melikov (10.1111/ina.12012-BIB0021|ina12012-cit-0021) 2012; 47
Sekhar (10.1111/ina.12012-BIB0028|ina12012-cit-0028) 2005; 11
Bolashikov (10.1111/ina.12012-BIB0007|ina12012-cit-0007) 2003; 2
Schiavon (10.1111/ina.12012-BIB0026|ina12012-cit-0026) 2009; 41
Bauman (10.1111/ina.12012-BIB0004|ina12012-cit-0004) 1998; 104
Krogstad (10.1111/ina.12012-BIB0017|ina12012-cit-0017) 1991
EN 15251 (10.1111/ina.12012-BIB0010|ina12012-cit-0010) 2007
Wolkoff (10.1111/ina.12012-BIB0034|ina12012-cit-0034) 2008; 34
Lan (10.1111/ina.12012-BIB0018|ina12012-cit-0018) 2011; 21
10.1111/ina.12012-BIB0012|ina12012-cit-0012
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Melikov (10.1111/ina.12012-BIB0020|ina12012-cit-0020) 2004; 14
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10.1111/ina.12012-BIB0029|ina12012-cit-0029
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References_xml – reference: Kaczmarczyk, J. , Melikov, A. and Fanger, P.O. (2004) Human response to personalized and mixing ventilation, Indoor Air., 14, 1-13.
– reference: Halvoňová, B. and Melikov, A. (2010) Performance of "ductless" personalized ventilation in conjunction with displacement ventilation: Impact of disturbances due to walking person(s), Build. Environ., 45, 427-436.
– reference: Schiavon, S. , Melikov, A. and Sekhar, C. (2010) Energy analysis of the personalized ventilation system in hot and humid climates, Energy Build., 42, 699-707.
– reference: Horwath, J. , Ettinger, K. , Bachernegg, M. , Bodner, E. and Schmut, O. (2001) Ocular Ferning test - effect of temperature and humidity on tear Ferning patterns, Ophthalmologica, 215, 102-107.
– reference: Wyon, N.M. and Wyon, D.P. (2009) Measurement of acute response to draught in the eye, Acta Ophthalmol., 65, 385-392.
– reference: Zhang, H. , Arens, E. , Kim, D. , Buchberger, E. , Bauman, F. and Huizenga, C. (2010) Comfort, perceived air quality, and work performance in a low-power task-ambient conditioning system, Build. Environ., 45, 29-39.
– reference: Krogstad, A.-L. , Swanbeck, G. , Barregård, L. , Hagberg, S. , Rynell, K.B. , Ran, A. , Calås, B. , Håkansson, Y. , Jorulf, L. , Lindberg, G. , Persson, Å. and Samuelsson, G. (1991) A prospective study of indoor climate problems at different temperatures in offices (in Swedish), Gothenburg, Sweden, Volvo Truck Corporation.
– reference: Bauman, F.S. , Carter, T.G. , Baughman, A.V. and Arens, E. (1998) Field study of the impact of a desktop task/ambient conditioning system in office buildings, ASHRAE Trans., 104, 1153-1171.
– reference: Yang, B. , Melikov, A.K. and Sekhar, C. (2009) Performance evaluation of ceiling mounted personalized ventilation system, ASHRAE Trans., 115, 395-406.
– reference: Rolando, M. (1984) Tear mucus ferning test in normal and keratoconjunctivitis sicca eyes, Chibret Int. J. Ophthalomol., 2, 32-41.
– reference: ASHRAE (2010) Thermal environmental conditions for human occupancy, Atlanta, GA, American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE Standard 55-2004).
– reference: Schiavon, S. and Melikov, A. (2009) Energy-saving strategies with personalized ventilation in cold climates, Energy Build., 41, 543-550.
– reference: ASHRAE Guideline 10 (2011) Interactions affecting the achievement of acceptable indoor environments, Atlanta, GA, American Society of Heating, Refrigerating and Air-Conditioning Engineers.
– reference: Cermak, R. , Melikov, A.K. , Forejt, L. and Kovar, O. (2006) Performance of personalized ventilation in conjunction with mixing and displacement ventilation, HVAC & R, 12, 295-311.
– reference: Kaczmarczyk, J. , Melikov, A. , Bolashikov, Z. , Nikolaev, L. and Fanger, P.O. (2006) Human response to five designs of personalized ventilation, HVAC & R Res., 12, 367-384.
– reference: Li, R. , Sekhar, S.C. and Melikov, A.K. (2010) Thermal comfort and IAQ assessment of under-floor air distribution system integrated with personalized ventilation in hot and humid climate, Build. Environ., 45, 1906-1913.
– reference: Cermak, R. and Melikov, A. (2007) Protection of occupants from exhaled infectious agents and floor material emissions in rooms with personalized and underfloor ventilation, HVAC & R Res., 13, 23-38.
– reference: Sundell, J. , Levin, H. , Nazaroff, W. , Cain, W.S. , Fisk, W.J. , Grimsrud, D.T. , Gyntelberg, F. , Li, Y. , Persily, A.K. , Pickering, A.C. , Samet, J.M. , Spengler, J.D. , Taylor, S.T. and Weschler, C.J. (2011) Ventilation rates and health: multidisciplinary review of the scientific literature, Indoor Air, 21, 191-204.
– reference: Wolkoff, P. (2008) "Healthy" eye in office-like environments, Environ. Int., 34, 1204-1214.
– reference: Skwarczynski, M.A. , Melikov, A.K. , Kaczmarczyk, J. and Lyubenova, V. (2010) Impact of individually controlled facially applied air movement on perceived air quality at high humidity, Build. Environ., 45, 2170-2176.
– reference: Schiavon, S. and Melikov, A. (2008) Energy saving and improved comfort by increasing air movement, Energy Build., 40, 1954-1960.
– reference: Sekhar, S.C. , Nan Gong, T.K.W. , Cheong, K.W. , Melikov, A.K. , Wyon, D.P. and Fanger, P.O. (2005) Findings of personalized ventilation studies in a hot and humid climate, HVAC & R Res., 11, 603-620.
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– reference: Bolashikov, Z. , Nikolaev, L. , Melikov, A. , Kaczmarczyk, J. and Fanger, P.O. (2003) New air terminal devices with high efficiency for personalized ventilation application, Proc. Healthy Build., 2, 850-855.
– reference: Melikov, A. (2004) Personalized ventilation, Indoor Air., 14, 157-167.
– reference: Andersson, J. , Boerstra, V. , Clements-Croome, D. , Fitzner, K. and Hanssen, S.O. (2007) Indoor climate and productivity in offices. How to integrate productivity in life-cycle cost analysis of building services. REHVA Guidebook 6. Brussels, Federation of European Heating and Air-conditioning Associations.
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– reference: Tham, K.W. and Willem, H.C. (2009) Room air temperature affects occupants' physiology, perceptions and mental alertness, Build. Environ., 45, 40-44.
– reference: Melikov, A.K. and Kaczmarczyk, J. (2012) Air movement and perceived air quality, Build. Environ., 47, 400-409.
– reference: Yang, B. , Melikov, A.K. and Sekhar, C. (2010) Ceiling mounted personalized ventilation system integrated with a secondary air distribution system - a human response study in hot and humid climate, Indoor Air, 20, 309-319.
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Snippet The effect of personalized ventilation (PV) on people's health, comfort, and performance in a warm and humid environment (26 and 28°C at 70% relative humidity)...
The effect of personalized ventilation (PV) on people's health, comfort, and performance in a warm and humid environment (26 and 28 degree C at 70% relative...
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SubjectTerms Air quality
alpha-Amylases - analysis
Comfort
Female
Health
High temperature
Hot and humid environment
Hot Temperature
Humans
Humidity
Individual control
Male
Personalized ventilation
Relative humidity
Sick building syndrome
Sick Building Syndrome - etiology
Sick Building Syndrome - prevention & control
Task Performance and Analysis
Tears - chemistry
Ventilation
Title Use of personalized ventilation for improving health, comfort, and performance at high room temperature and humidity
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https://www.proquest.com/docview/1427758537
https://www.proquest.com/docview/1338392991
https://www.proquest.com/docview/1356925964
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