Effect of wind on stack ventilation performance

Energy and Buildings

Volumn 51, Issue , 2012, Pages 242-247

  Gładyszewska Fiedoruk, Katarzyna ^a   Gajewski, Andrzej ^a  

^a BIALYSTOK UNIVERSITY OF TECHNOLOGY   (Poland)

Author keywords

Carbon dioxide concentration; Indoor air quality; Natural ventilation; Stack ventilation

Indexed keywords

AIR RATE; CARBON DIOXIDE CONCENTRATIONS; CENTRAL EUROPE; EDUCATIONAL BUILDINGS; INDOOR AIR QUALITY; NATURAL VENTILATION; OUTDOOR TEMPERATURE; STACK EFFECT; TEMPERATURE DIFFERENCES; VENTILATION RATE; VENTILATION SYSTEMS;

CARBON DIOXIDE; INDOOR AIR POLLUTION;

VENTILATION;

EID: 84862199904     PISSN: 03787788     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.enbuild.2012.05.007     Document Type: Article

References (30)

1. Air Quality Guidelines for Europe Second Edition European Series, No. 91 2000 WHO Regional Office for Europe Copenhagen
2. ASHRAE Standard 62-1989, Ventilation for acceptable Indoor Air Quality, Atlanta, 1989.
3. ASHRAE ANSI/ASHRAE Standard 62. 1-2010, Ventilation for Acceptable Indoor Air Quality 2010 American Society of Heating, Refrigerating and Air-Conditioning Engineers, Inc. Atlanta, GA
4. ASHRAE 62.1 User's Manual, ANSI/ASHRAE Standard 62. 1-2007, Ventilation for Acceptable Indoor Air Quality 2007 American Society of Heating, Refrigerating and Air-Conditioning Engineers, Inc. Atlanta, GA
5. M. Caciolo, P. Stabat, and D. Marchio Full scale experimental study of single-sided ventilation: analysis of stack and wind effects Energy and Buildings 43 2011 1765 1773
6. CIBSE Applications Manual AM 10, Natural Ventilation in Non-domestic Buildings 2005 Chartered Institution of Building Services Engineers (CIBSE) London
7. E. Dascalaki, M. Santamouris, A. Argiriou, C. Helmis, and D.N. Asimakopoulos On the combination of air velocity and flow measurements in single sided natural ventilation configurations Energy and Building 24 1996 155 165
8. DfES Building Bulletin 101 - Ventilation of School Buildings May 2006 Department for Education and Skills London
9. A.A. Elmualim Effect of damper and heat source on wind catcher natural ventilation performance Energy and Buildings 38 2006 939 948
10. D.W. Etheridge Unsteady flow effects due to fluctuating wind pressures in natural ventilation design-instantaneous flow rates Building and Environment 35 4 2000 321 337
11. K. Gładyszewska-Fiedoruk Analysis of stack ventilation system effectiveness in an average kindergarten in north-eastern Poland Energy and Buildings 43 2011 2488 2493
12. 2 in a naturally ventilated classroom Energy and Buildings 40 2008 556 560
13. Institute of Meteorology and Water Management (IMGW). http://www.imgw.pl/internet/zz/pogoda/tempsred.html [17.03.11].
14. N. Khan, Y. Su, and S.B. Riffat A review on wind driven ventilation techniques Energy and Buildings 40 2008 1586 1604
15. R. Khanal, and Ch Lei Solar chimney - A passive strategy for natural ventilation Energy and Buildings 43 2011 1811 1819
16. K.H. Lee, and R.K. Strand Enhancement of natural ventilation in buildings using a thermal chimney Energy and Buildings 41 2009 615 621
17. S.C. Lee, and M. Chang Indoor and outdoor air quality investigation at schools in Hong Kong Chemosphere 41 2000 109 113
18. T.S. Larsen, and P. Heiselberg Single-sided natural ventilation driven by wind pressure and temperature difference Energy and Buildings 40 2008 1031 1040
19. R.J. Moffat, Establishing the Credibility of Experimental Work, Department of Mechanical Engineering, Stanford University, Stanford, CA 94305, USA.
20. D. Mumovic, J. Palmer, M. Davies, M. Orme, I. Ridley, and T. Oreszczyn Winter indoor air quality, thermal comfort and acoustic performance of newly built secondary schools in England Building and Environment 44 2009 1466 1477
21. K.-Ch. Noh, H.-S. Kim, and M.-D. Oh Study on contamination control in a minienvironment inside clean room for yield enhancement based on particle concentration measurement and airflow CFD simulation Building and Environment 45 2010 825 831
22. K.-Ch. Noh, J.-S. Jang, and M.-D. Oh Thermal comfort and indoor air quality in the lecture room with 4-way cassette air-conditioner and mixing ventilation system Building and Environment 42 2007 689 698
23. K. Pieńkowski, D. Krawczyk, and W. Tumel Heating t. I 1999 Politechnika Białostocka Białystok (in Polish)
24. PN-83/B-03430 (wraz ze zmiana A3:2000)-Wentylacja w budynkach mieszkalnych, zamieszkania zbiorowego i użyteczności publicznej, Wymagania. PN-83/B-03430 (including revision A3 2000) - Ventilation in collective dwelling places and public buildings - requirements (in Polish)
25. PN-EN 13779. 2009 Ventilation of residential buildings. Requirements for the properties of ventilation and air conditioning.
26. R. Priyadarsini, K.W. Cheong, and W.H. Wang Enhancement of natural ventilation in high rise residential buildings using stack system Energy and Buildings 36 2004 61 71
27. H. Recknagel, E. Sprenger, W. Honmann, and E.R. Schramek Taschenbuch fur Heizung und Klimatechnik 07/08 3rd ed. 2008 Ernst-Rudolf Schramek Munchen
28. Rozporzadzenie Ministra Infrastruktury z dnia 12 kwietnia 2002 w sprawie warunków technicznych, jakim powinny odpowiadać budynki i ich usytuowanie wraz z późniejszymi zmianami Dz U. nr 75 poz. 690. Regulation of the Minister of Infrastructure of 12 April 2002 concerning technical conditions which should be fulfilled by buildings and their locations as amended, published in Journal of Laws of 2008 no. 75 pos. 690.
29. M. Santamouris, A. Synnefa, M. Asssimakopoulos, I. Livada, K. Pavlou, and M. Papaglastra Experimental investigation of the air flow and indoor carbon dioxide concentration in classrooms with intermittent natural ventilation Energy and Buildings 40 2008 1833 1843
30. L. Zhongping, and D. Shiming The outdoor air ventilation rate in high-rise residences employing room air conditioners Building and Environment 38 2003 1389 1399