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Wentylacja indywidualna – przegląd rozwiązań

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Języki publikacji
PL
Abstrakty
PL
W obecnych czasach ludzie spędzają ponad 90% swojego czasu w pomieszczeniach zamkniętych, gdzie warunki środowiska wewnętrznego są sztucznie kształtowane [1]. Jednocześnie ludzie konsumują około 1 kg pożywienia i około 2 kg wody, a także aż około 10 kg powietrza każdego dnia, z tej przyczyny jakość powietrza w strefi e oddychania człowieka jest tak istotnym parametrem [2, 3].
Rocznik
Tom
Strony
78, 80, 82--84
Opis fizyczny
Bibliogr. 29 poz., rys.
Twórcy
autor
  • Wydział Inżynierii Środowiska, Politechnika Warszawska
Bibliografia
  • [1] KLEPEIS N. E., NELSON W. C., OTT W. R., ROBINSON J. P., TSANG A. M., SWITZER P., BEHAR J. V., HERN S. C. and ENGELMANN W. H.: The National Human Activity Pattern Survey (NHAPS). A resource for assessing exposure to environmental pollutants. Journal of Exposure Analysis and Environmental Epidemiology. 11. 231–252. 2001.
  • [2] WARGOCKI P., WYON D. P., BAIK Y. K., CLAUSEN G., FANGER P.O.: Perceived air quality. Sick Building Syndrome (SBS), symptoms and productivity in an office with two different pollution loads. Indoor Air. 1999;9:165e79.
  • [3] WARGOCKI P., WYON D. P., BAIK Y. K., CLAUSEN G., FANGER P.O.: The effects of outdoor air supply rate in an office on perceived air quality. Sick Buidling Syndrome (SBS), symptoms and productivity. Indoor Air 2000;10(4):222e36.
  • [4] BROHUS H., NIELSEN P. V.: Personal exposure in displacement ventilated rooms. Indoor Air. 1996;6:157-67.
  • [5] MELIKOV A. K., NIELSEN J. B.: Local thermal discomfort due to draft and vertical temperature difference in rooms with displacement ventilation. ASHRAE Trans. 1989;95(2):1050-7.
  • [6] MELIKOV A. K., PITCHUROV G., NAYDENOV K., LANGKILDE G.: Field study on occupant comfort and the office thermal environment in rooms with displacement ventilation. Indoor Air. 2004;15(3):205-14.
  • [7] FANGER P. O.: Human requirements in future air-conditioned environments. Int J Refrig. 2001;24(2):148-53.
  • [8] A. K. MELIKOV: Personalized ventilation. Volume 14. Issue Supplement s7. pages 157–167. August 2004.
  • [9] WYON D. P.: Individual microclimate control: required range, probable benefits and current feasibility. In: Nagoya, Japan Proceedings of Indoor Air’96. The 7th international conference on indoor air quality and climate. 1996. p. 1067–72.
  • [10] S. C. SEKHAR, N. GONG, K. W. D. CHEONG, K. W. THAM, A. MELIKOV, D. P. WYON, P.O. FANGER: Findings of personalized ventilation studies in a hot and humid climate. HVAC&R Research. 11 (4) (2005). 603–620.
  • [11] S. C. SEKHAR, N. GONG, C. R. U. MAHESWARAN, K. W. D. CHEONG, K. W. THAM, A. MELIKOV, P. O. FANGER: Energy effi ciency potential of a personalized ventilation system in the tropics, in: Proceedings of Healthy Buildings. 2003. vol. 2. Singapore. pp. 686–689.
  • [12] Bin ZHAO, Ping GUAN: Modeling particle dispersion in personalized ventilated room. Building and Environment. 42 (2007). 1099–1109
  • [13] YANG J., MELIKOV A., FANGER P. O., LI X., YAN Q.: Impact of personalized ventilation on human response: comparison between constant and fluctuating airfl ows under warm condition. In: Proceedings of eighth international conference on air distribution in rooms. Roomvent 2002. Copenhagen, 2002. p. 305–8.
  • [14] A. K. MELIKOV, R. CERMAK, M. MAJER: Personalized ventilation: evaluation of different Air terminal devices. Energy and Buildings. 34. 2002. 829–836.
  • [15] D. FAULKNER, W. J. FISK, D. P. SULLIVAN, S. M. LEE: Ventilation efficiencies and thermal. Comfort results of a desk-edged-mounted task ventilation system. Indoor Air 14 (Suppl. 8). (2004). 92–97.
  • [16] J. NIU, N. GAO, M. PHOEBE, Huigang ZUO: Experimental study on a chair-based personalized ventilation system. Building and Environment. 42 (2007). 913–925.
  • [17] F. S. BAUMAN, H. ZHANG, E. A. ARENS, C. C. BENTON: Localized comfort control with a desktop task/ambient conditioning system: laboratory and field measurements. ASHRAE Transactions. 99 (Pt. 2). (1993). 733–749.
  • [18] J. E. SEEM, J. E. BRAUN: The impact of personal environmental control on building energy use. ASHRAE Transactions. (Pt. 1). (1992). 903–909.
  • [19] Fred BAUMAN, Anne BAUGHMAN, Graham CARTER, and Edward ARENS: Center for Environmental Design Research, University of California, Berkeley, CA 94720- 1839, A Field Study of PEM (Personal Environmental Module) Performance in Bank of America’s San Francisco Office Buildings.
  • [20] FAULKNER D., FISK W., SULLIVAN D., WYON D.: Ventilation effeciencies of desk-mounted task/ambitne conditioning systems. Indoor Air. 1999. 9:273-281.
  • [21] Arsen K. MELIKOV, Radim CERMAK, Milan MAJER: Personalized ventilation: evaluation of different air terminal devices. Energy and Buildings. Volume 34. Issue 8. September 2002. Pages 829–836.
  • [22] Barbora HALVOŇOVÁ, Arsen K. MELIKOV: Performance of “ductless” personalized ventilation in conjunction with displacement ventilation: Impact of disturbances due to walking person(s). Building and Environment. 45 (2010). 427–436.
  • [23] Barbora HALVOŇOVÁ, Arsen K. MELIKOV: Performance of ‘‘ductless’’ personalized ventilation in conjunction with displacement ventilation: Impact of intake height. Building and Environment. 45 (2010). 996–1005.
  • [24] Jianlei NIU, Naiping GAO, Ma PHOEBE, Zuo HUIGANG: Experimental study on a chair-based personalized ventilation system. Building and Environment. 42 (2007). 913–925.
  • [25] http://files.kotisivukone.com/ilmastointitekniikka.tarjoaa.fi /tiedostot/pv_produktinformation_eng.pdf
  • [26] MATSUNAWA K., H. IIZUKA, S. TANABE: Development and application of an underfloor air conditioning system with improved outlets for a smart building in Tokyo. ASHRAE Transactions. Vol. 101. Pt. 2. 1995.
  • [27] MCCARRY, B. T.: Underfloor air distribution systems: benefits and when to use thesystem in building design. ASHRAE Transactions. Vol. 101. Pt. 2. 1995.
  • [28] Li LAN, Zhiwei LIAN, Xin ZHOU, Chanjuan SUN, Hongyuan HUANG, Yanbing LIN, Jiangmin ZHAO: Pilot study on the application of bedside personalized ventilation to sleeping people. Building and Environment. 67 (2013). 160-166.
  • [29] ARSEN K. MELIKOV, VIKTOR DZHARTOV: Advanced air distribution for minimizing airborne cross-infection in aircraft cabins. HVAC&R Research. (2013). 19. 926–933.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-058321d4-ee7d-4167-a4e4-bfe4188c375d
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