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NTIS 바로가기CLEAN : Soil, Air, Water : A Journal of Sustainability and Environmental Safety, v.40 no.6, 2012년, pp.578 - 585
Herberger, Simone (AppliedSensor GmbH, Reutlingen, Germany) , Ulmer, Heiko
AbstractEnergy‐efficient ventilation strategies relating to good indoor air quality (IAQ) are a major task for building performance according to the requirements set by the energy performance of buildings directive (EPBD) in 2010. Applying demand‐controlled ventilation (DCV) in buildings...
1 O. Seppänen , Scientific basis for design of ventilation for health, productivity and good energy efficiency, in Indoor Air 2008: Proceedings of the 11 th International Conference on Indoor Air Quality and Climat , Copenhagen, Denmark 2008 , paper ID: 744.
2 EPBD , Directive 2010/31/EU of the European Parliament and of the Council of 19 May 2010 on the Energy Performance of Buildings , Off. J. Eur. Union 2010 , 53 ( 153 ), 13 – 23 .
3 Energieeinsparverordnung (EnEV), Verordnung zur Änderung der Energieeinsparverordnung vom 29.04. 2009 (nichtamtliche Lesefassung).
4 P. Wargocki , J. Sundell , W. Bischof , G. Brundrett , P. O. Fanger , F. Gyntelberg , S. O. Hanssen , et al., Ventilation and Health in Non‐industrial Indoor Environments: Report from a European Multidisciplinary Scientific Consensus Meeting (EUROVEN) , Indoor Air 2002 , 12 , 113 – 128 .
5 P. Wargocki , D. Wyon , J. Sundell , G. Clausen , P. O. Fanger , The Effects of Outdoor Air Supply Rate in an Office on Perceived Air Quality, Sick Building Syndrome (SBS) Symptoms and Productivity , Indoor Air 2000 , 10 ( 4 ), 222 – 236 .
6 P. Wargocki , D. P. Wyon , The Effects of Moderately Raised Classroom Temperatures and Classroom Ventilation Rate on the Performance of Schoolwork by Children , HVAC R Res. 2007 , 13 ( 2 ), 193 – 220 .
7 P. Wargocki , R. Djukanovic , Simulations of the Potential Revenue from Investment in Improved Indoor Air Quality in an Office Building , ASHRAE Trans. 2005 , 111 ( 2 ), 699 – 711 .
8 WHO , WHO guidelines for indoor air quality: Dampness and mould , World Health Organization, Europe, Copenhagen, Denmark 2009 , p. 247f .
9 WHO , WHO guidelines for indoor air quality: Selected pollutants , World Health Organization, Regional Office for Europe, Copenhagen, Denmark 2010 , p. 484f .
10 O. Gassmann , H. Meixner (Eds.), Sensors in Intelligent Buildings, Sensors Applications , Vol. 2 , Wiley‐VCH , Weinheim 2001 .
11 W. J. Fisk , A. T. de Almeida , Sensor Based Demand Controlled Ventilation: A Review , Energy Build. 1998 , 29 ( 1 ), 35 – 44 .
12 D. Won , W. Yang , The State of‐the‐art in Sensor Technology for Demand‐controlled Ventilation , National Research Council Canada , Ottawa, Canada 2005 .
13 EN 15251, Indoor environmental input parameters for design and assessment of energy performance of buildings addressing indoor air quality, thermal environment, lighting and acoustics , European Committee for Standardization, Brussels, Belgium 2007 .
14 CR 1752, CEN Report Ventilation for Buildings: Design Criteria for the Indoor Environment, CEN/TC 156/WG 6 , European Committee for Standardization, Brussels, Belgium 1998 .
15 ASHRAE Standard 62.1‐2, Ventilation for acceptable indoor air quality , American Society of Heating, Refrigerating and Air Conditioning Engineers, Atlanta, GA, USA 2007 .
16 P. Wargocki , D. P. Wyon , The performance of school work by children is affected by classroom air quality and temperature, in Proceedings of Healthy Buildings Congress 2006 , Lisbon, Portugal 2006 , p. 379 .
17 A. Burdack‐Freitag , R. Rampf , F. Mayer , K. Breuer , Identification of anthropogenic volatile organic compounds correlating with bad indoor air quality, in Proceedings of the 9 th International Conference and Exhibition Healthy Buildings 2009 , September 13–17, Syracuse, NY 2009 , paper 645.
18 A. Burdack‐Freitag , F. Mayer , A. Schmohl , J. Angster , A. Miklos , H. Ulmer , S. Herberger , BMWI Abschlussbericht. Bedarfsgerechte Lüftung durch eine ereignisgesteuerte Regelung mit spezialisierten Luftqualitätssensoren ; betreut durch die Projektträger Jülich, FKZ 0327388A, Fraunhofer Institut, Stuttgart 2009 .
19 S. Herberger , M. Herold , H. Ulmer , A. Burdack‐Freitag , F. Mayer , Detection of Human Effluents by a MOS Gas Sensor in Correlation to VOC Quantification by GC/MS , Build. Environ. 2010 , 45 ( 11 ), 2430 – 2439 .
20 DIN Deutsches Institut für Normung e.V., DIN ISO 16000‐6:2004, Indoor air – Part 6: Determination of volatile organic compounds in indoor and test chamber air by active sampling on Tenax‐TA ® sorbent, thermal desorption and gas chromatography using MS/FID (ISO 16000‐6:2004) , DIN Deutsches Institut für Normung e.V., Berlin, Germany 2004 .
21 F. Mayer , K. Breuer , E. Mayer , Determination of oderactive volatiles emitted by building materials by a new method using gas chromatography‐olfactometry, in Proceedings of the 6th International Conference on Healthy Buildings 2000 , August 6–10, Espoo, Finland 2000 , pp. 119 – 124 .
22 Lascar Electronics Ltd., EL‐USB‐2, RH/TEMP Data Logger, Salisbury 2010 .
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