Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
International Archives of Occupational and Environmental Health
Published in: International Archives of Occupational and Environmental Health 2/2013

01-02-2013 | Original Article

Carbon dioxide (CO2) demand-controlled ventilation in university computer classrooms and possible effects on headache, fatigue and perceived indoor environment: an intervention study

Authors: Dan Norbäck, Klas Nordström, Zhuohui Zhao

Published in: International Archives of Occupational and Environmental Health | Issue 2/2013

Login to get access

Abstract

Purpose

To study the effects of a CO2 demand-controlled ventilation system (variable flow) in computer classrooms on perceived air quality and sick building syndrome.

Methods

University students (27 % women) participated in a blinded study. Two classrooms had variable flow (mean 5.56 ac/h); two others had constant ventilation flow (mean 5.07 ac/h). After one week, ventilation conditions were shifted. The students reported symptoms/perceptions during the last hour on rating scales. Temperature, air humidity, CO2, PM10 and number concentration of particles were measured simultaneously. Cat (Fel d 1), dog (Can f 1), horse (Equ cx) and house dust mites (Der f 1 and Der p 1) allergens were measured in dust. Those participating twice in the same classroom (N = 61) were analysed longitudinally.

Results

Mean CO2 was 784 ppm (9 % of time >1,000 ppm) with variable flow and 809 ppm with constant flow conditions (25 % of time >1,000 ppm). Mean temperature (22.6 °C), PM10 (18 μg/m3) and number concentration (1,860 pt/cm3) were unchanged. The median levels of cat, dog, horse and Der f 1 allergens were 10,400 ng/g, 4,900 ng/g, 13,700 U/ng and 260 ng/g dust, respectively. There were slightly less headache (p = 0.003), tiredness (p = 0.007) and improved perceived air quality (p = 0.02) with variable flow.

Conclusions

Use of a CO2-controlled ventilation system, reducing elevated levels of CO2, may slightly reduce headache and tiredness and improve perceived air quality. The high levels of pet allergens, due to track in of allergens from the home and possible accumulation due to electrostatic forces, illustrate a need for improved cleaning.
Literature
Almqvist C, Wickman M, Perfetti L, Berglind N, Renström A, Hedren M, Larsson K, Hedlin G, Malmberg P (2001) Worsening of asthma in children allergic to cats, after indirect exposure to cat at school. Am J Respir Crit Care Med 163:694–698
Bakke JV, Norbäck D, Wieslander G, Hollund BE, Florvaag E, Haugen EN, Moen BE (2008) Symptoms, complaints, ocular and nasal physiological signs in university staff in relation to indoor environment-temperature and gender interactions. Indoor Air 18:131–143CrossRef
Bako-Biro Z, Wargocki P, Weschler CJ, Fanger PO (2004) Effects of pollution from personal computers on perceived air quality, SBS symptoms and productivity in offices. Indoor Air 14:178–187CrossRef
Branis M, Rezacova P, Domasova M (2005) The effect of outdoor air and indoor human activity on mass concentrations of PM(10), PM(2.5) and PM(1) in a classroom. Environ Res 99:143–149CrossRef
Daisey JM, Angell WJ, Apte MG (2003) Indoor air quality, ventilation and health symptoms in schools: an analysis of existing information. Indoor Air 13:53–64CrossRef
Engvall K, Wickman P, Norbäck D (2005) Sick building syndrome and perceived indoor environment in relation to energy saving by reduced ventilation flow during heating season: a 1 year intervention study in dwellings. Indoor Air 15:120–126CrossRef
Fang L, Clausen G, Fanger PO (1999) Impact of temperature and humidity on chemical and sensory emissions from building materials. Indoor Air 9:193–201CrossRef
Fang L, Wyon DP, Clausen G, Fanger PO (2004) Impact of indoor air temperature and humidity in an office on perceived air quality, SBS symptoms and performance. Indoor Air 14(Suppl 7):74–81CrossRef
Fisk WJ, De Almeida AT (1998) Sensor-based demand-controlled ventilation: a review. Energy Build 29:35–45CrossRef
Godish T, Spengler JD (1996) Relationships between ventilation and indoor air quality: a review. Indoor Air 6:135–145CrossRef
Haghighat F, Donnini G (1992) IAQ and energy-management by demand controlled ventilation. Environ Technol 13:351–359CrossRef
Kim JL, Elfman L, Mi Y, Johansson M, Smedje G, Norbäck D (2005) Current asthma and respiratory symptoms among pupils in relation to dietary factors and allergens in the school environment. Indoor Air 15:170–182CrossRef
Levin J-O, Lindahl R, Andersson K (1988) High performance liquid chromatographic determination of formaldehyde in indoor air in the ppb to ppm range using diffusive sampling and hydrazone formation. Environ Technol Lett 9:1423–1430CrossRef
Lindgren T, Norbäck D, Andersson K (2006) Perception of the cockpit environment among pilots on commercial aircraft. Aviat Space Environ Med 77:832–837
Mendell MJ, Heath GA (2005) Do indoor pollutants and thermal conditions in school influence student performance? A critical review of the literature. Indoor Air 15:27–52CrossRef
Mysen M, Rydock JP, Tjelflaat PO (2003) Demand controlled ventilation for office cubicles-can it be profitable? Energy Build 35:657–662CrossRef
Mysen M, Berntsen S, Nafstad P, Schild PG (2005) Occupancy density and benefits of demand-controlled ventilation in Norwegian primary schools. Energy Build 37:1234–1240CrossRef
National Swedish Board of Occupational Safety and Health (2000) The design of the workplace AFS 2000; 42 (in Swedish)
Nielsen TR, Drivsholm C (2010) Energy efficient demand controlled ventilation in single family houses. Energy Build 42:1995–1998CrossRef
Norbäck D, Nordström K (2008a) Sick building syndrome in relation to air exchange rate, CO2, room temperature and relative air humidity in university computer classrooms-an experimental study. Int Arch Occup Environ Health 81:21–30CrossRef
Norbäck D, Nordström K (2008b) An experimental study on effects of increased ventilation flow on student’s perception of indoor environment in computer classrooms. Indoor Air 18:293–300CrossRef
Norbäck D, Lindgren T, Wieslander G (2006) Changes of ocular and nasal signs and symptoms in air crew, related to air humidification on intercontinental flights. Scand J Work Environ Health 32:138–144CrossRef
Nordström K, Norbäck D, Akselsson R (1994) Effect of air humidification on the sick building syndrome and perceived indoor air quality in hospitals: a four months longitudinal study. Occup Environ Med 51:683–688CrossRef
Palmgren U, Ström G, Blomqvist G, Malmberg P (1986) Collection of airborne micro-organisms on Nucleopore filters, estimation and analysis-CAMNEA method. J Appl Bacteriol 61:401–406CrossRef
Pavlovas V (2004) Demand controlled ventilation. A case study for existing Swedish multifamily buildings. Energy Build 36:1029–1034CrossRef
Roth KW, Dieckmann J, Brodrick J (2003) Demand control ventilation. ASHRAE Journal, July 2003: 91–92
Schell M, Inthout D (2001) Demand control ventilation using CO2. ASHRAE Journal, February 2001:1–6
Seppänen OA, Fisk WJ, Mendell MJ (1999) Associations of ventilation rates and CO2 concentrations with health and other responses in commercial and institutional buildings. Indoor Air 9:226–252CrossRef
Simoni M, Annesi-Maseano I, Sigsgaard T, Norbäck D, Wieslander G, Nystad W, Canciani M, Sestini P, Viegi G (2010) School air quality related to dry cough, rhinitis and nasal patency in children. Eur Respir J 35:742–749CrossRef
Smedje G, Norbäck D (2000) New ventilation systems at selected schools in Sweden—effects on asthma and exposure. Arch Environ Health 55:18–25CrossRef
Smedje G, Norbäck D (2001) Incidence of asthma diagnosis and self-reported allergy in relation to the school environment-a four-year follow-up study in schoolchildren. Int J Tubercl Lung Dis 5:1059–1066
Stenberg B, Wall S (1995) Why do women report “sick building symptoms” more often than men? Soc Sci Med 40:491–502CrossRef
Sundell J, Levin H, Nazaroff WW, Cain WS, Fisk WJ, Grimsrud DT, Gyntelberg F, Li Y, Persily AK, Pickering AC, Samet JM, Spengler JD, Taylor ST, Weschler CJ (2011) Ventilation rates and health: multidisciplinary review of the scientific literature. Indoor Air 21:191–204CrossRef
Wachenfeldt BJ, Mysen M, Schild PG (2007) Air flow rates and energy saving potential in schools with demand-controlled displacement ventilation. Energy Build 39:1073–1079CrossRef
Wargocki P, Sundell J, Bischof W, Brundrett G, Fanger PO, Gyntelberg F, Hanssen SO, Harrison P, Pickering A, Seppänen O, Wouters P (2002) Ventilation and health in non-industrial indoor environments: report from a European multidisciplinary scientific consensus meeting (EUROVENT). Indoor Air 12:113–128CrossRef
Zhao ZH, Elfman L, Wang ZH, Zhang Z, Norbäck D (2006) A comparative study of asthma, pollen cat and dog allergy among pupils and allergen levels in schools in Taiyuan city, China and Uppsala, Sweden. Indoor Air 16:404–413CrossRef
Metadata
Title
Carbon dioxide (CO2) demand-controlled ventilation in university computer classrooms and possible effects on headache, fatigue and perceived indoor environment: an intervention study
Authors
Dan Norbäck
Klas Nordström
Zhuohui Zhao
Publication date
01-02-2013
Publisher
Springer-Verlag
Published in
International Archives of Occupational and Environmental Health / Issue 2/2013
Print ISSN: 0340-0131
Electronic ISSN: 1432-1246
DOI
https://doi.org/10.1007/s00420-012-0756-6

Other articles of this Issue 2/2013

International Archives of Occupational and Environmental Health 2/2013 Go to the issue

Original Article

Suboptimal health as a predictor of non-permanent employment in middle age: a 12-year follow-up study of the Northern Swedish Cohort

Original Article

Evaluation of occupational exposure: comparison of biological and environmental variabilities using physiologically based toxicokinetic modeling

Original Article

Modest associations between self-reported physical workload and neck trouble: a population-based twin control study

Review Article

The influence of employment social support for risk and prognosis in nonspecific back pain: a systematic review and critical synthesis

Original Article

Occupational respiratory and skin diseases among Finnish machinists: findings of a large clinical study

Original Article

Psychometric properties of the Farsi version of effort-reward imbalance questionnaire: a longitudinal study in employees of a synthetic fibre factory in Iran