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2021 | OriginalPaper | Buchkapitel

5. Ventilative Cooling and Air Pollutants

verfasst von : Guilherme Carrilho da Graça, Nuno R. Martins

Erschienen in: Innovations in Ventilative Cooling

Verlag: Springer International Publishing

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Abstract

The majority of office and other non‑domestic buildings use mechanical cooling and ventilation, even when an optimized natural ventilation (NV) system could meet cooling and fresh air requirements. However, in most large cities, the outdoor environment is contaminated with a combination of noise, fine particles, heat and toxic gases. This contaminated environment has a detrimental impact on naturally ventilated buildings due to their lack of filtration and outdoor noise attenuation systems. This chapter presents a numerical analysis of the effect of fine particle pollution (PM2.5) on the NV potential of office buildings in California, Europe and Asia. Several years of measured weather and PM2.5 concentration data were used to perform dynamic thermal and airflow simulation analysis. Detailed simulation results show that a hybrid NV system can reduce the air‑conditioning and ventilation electricity consumption of a well‑designed office building by up to 83% (which can be increased to up to 93% by the availability of personal comfort systems), in comparison to an office using, during all working hours, a mechanical cooling and ventilation system equipped with a high‑efficiency particle filter. Unfortunately, in this hybrid approach, high levels of outdoor PM2.5 penetrate the indoor environment, increasing occupant cumulative exposure by up to six times. To overcome this problem, two exposure control approaches were tested. Using NV only during moments of low outdoor PM2.5 concentrations limits the exposure increase to up to three times but at the cost of reducing energy savings. Equipping NV openings with an electrostatic filter would result in a similar exposure reduction, but at a very low energy cost, taking full advantage of NV’s saving potential.

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Literatur
4.
Zurück zum Zitat Habre R, Coull B, Moshier E, Godbold J, Grunin A, Nath A, Castro W, Schachter N, Rohr A, Kattan M, Spengler J, Koutrakis P (2014) Sources of indoor air pollution in New York City residences of asthmatic children. J Expo Sci Environ Epidemiol 24(3):269–278. ISSN 1559 0631, https://doi.org/10.1038/jes.2013.74 Habre R, Coull B, Moshier E, Godbold J, Grunin A, Nath A, Castro W, Schachter N, Rohr A, Kattan M, Spengler J, Koutrakis P (2014) Sources of indoor air pollution in New York City residences of asthmatic children. J Expo Sci Environ Epidemiol 24(3):269–278. ISSN 1559 0631, https://​doi.​org/​10.​1038/​jes.​2013.​74
29.
Zurück zum Zitat International Organization for Standardization (2005) ISO 7730:2005—Ergonomics of the thermal environment—Analytical determination and interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteria, Nov 2005 International Organization for Standardization (2005) ISO 7730:2005—Ergonomics of the thermal environment—Analytical determination and interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteria, Nov 2005
54.
Zurück zum Zitat Dorizas PV, Assimakopoulos MN, Helmis C, Santamouris M (2015) An integrated evaluation study of the ventilation rate, the exposure and the indoor air quality in naturally ventilated classrooms in the Mediterranean region during spring. Sci Total Environ 502:557–570. ISSN 0048 9697, https://doi.org/10.1016/j.scitotenv.2014.09.060 Dorizas PV, Assimakopoulos MN, Helmis C, Santamouris M (2015) An integrated evaluation study of the ventilation rate, the exposure and the indoor air quality in naturally ventilated classrooms in the Mediterranean region during spring. Sci Total Environ 502:557–570. ISSN 0048 9697, https://​doi.​org/​10.​1016/​j.​scitotenv.​2014.​09.​060
77.
Zurück zum Zitat Meier R, Eeftens M, Phuleria HC, Ineichen A, Corradi E, Davey M, Fierz M, Ducret RE, Stich IA, Schindler C, Rochat T, Hensch NP, Tsai MY, Künzli N (2015) Differences in indoor versus outdoor concentrations of ultrafine particles, PM2.5, PMabsorbance and NO2 in Swiss homes. J Expos Sci Environ Epidemiol 25(5):499–505. ISSN 1559 0631, https://doi.org/10.1038/jes.2015.3CrossRef Meier R, Eeftens M, Phuleria HC, Ineichen A, Corradi E, Davey M, Fierz M, Ducret RE, Stich IA, Schindler C, Rochat T, Hensch NP, Tsai MY, Künzli N (2015) Differences in indoor versus outdoor concentrations of ultrafine particles, PM2.5, PMabsorbance and NO2 in Swiss homes. J Expos Sci Environ Epidemiol 25(5):499–505. ISSN 1559 0631, https://​doi.​org/​10.​1038/​jes.​2015.​3CrossRef
83.
Zurück zum Zitat Johnson M, MacNeill M, Mannion AG, Nethery E, Xiaohong X, Dales R, Rasmussen P, Wheeler A (2013) Development of temporally refined land use regression models predicting daily household level air pollution in a panel study of lung function among asthmatic children. J Expo Sci Environ Epidemiol 23(3):259–267. ISSN 1559 0631, https://doi.org/10.1038/jes.2013.1CrossRef Johnson M, MacNeill M, Mannion AG, Nethery E, Xiaohong X, Dales R, Rasmussen P, Wheeler A (2013) Development of temporally refined land use regression models predicting daily household level air pollution in a panel study of lung function among asthmatic children. J Expo Sci Environ Epidemiol 23(3):259–267. ISSN 1559 0631, https://​doi.​org/​10.​1038/​jes.​2013.​1CrossRef
92.
Zurück zum Zitat Jurelionis A, Gagytė L, Prasauskas T, Čiužas D, Krugly E, Šeduikytė L, Martuzevičius D (2015) The impact of the air distribution method in ventilated rooms on the aerosol particle dispersion and removal: the experimental approach. Energy Build 86:305 313. ISSN 0378 7788, https://doi.org/10.1016/j.enbuild.2014.10.014 Jurelionis A, Gagytė L, Prasauskas T, Čiužas D, Krugly E, Šeduikytė L, Martuzevičius D (2015) The impact of the air distribution method in ventilated rooms on the aerosol particle dispersion and removal: the experimental approach. Energy Build 86:305 313. ISSN 0378 7788, https://​doi.​org/​10.​1016/​j.​enbuild.​2014.​10.​014
93.
Zurück zum Zitat Liu Yu, Li H, Feng G (2017) Simulation of inhalable aerosol particle distribution generated from cooking by Eulerian approach with RNG k–epsilon turbulence model and pollution exposure in a residential kitchen space. Build Simul 10(1):135–144. ISSN 1996 8744, https://doi.org/10.1007/s12273-016-0313-4CrossRef Liu Yu, Li H, Feng G (2017) Simulation of inhalable aerosol particle distribution generated from cooking by Eulerian approach with RNG k–epsilon turbulence model and pollution exposure in a residential kitchen space. Build Simul 10(1):135–144. ISSN 1996 8744, https://​doi.​org/​10.​1007/​s12273-016-0313-4CrossRef
97.
Zurück zum Zitat Gaffin JM, Petty CR, Hauptman M, Kang CM, Wolfson JM, Awad YA, Di Q, Lai PS, Sheehan WJ, Baxi S, Coull BA, Schwartz JD, Gold DR, Koutrakis P, Phipatanakul W (2016) Modeling indoor particulate exposures in inner city school classrooms. J Expo Sci Environ Epidemiol 7:1–7. ISSN 1559 064X, https://doi.org/10.1038/jes.2016.52CrossRef Gaffin JM, Petty CR, Hauptman M, Kang CM, Wolfson JM, Awad YA, Di Q, Lai PS, Sheehan WJ, Baxi S, Coull BA, Schwartz JD, Gold DR, Koutrakis P, Phipatanakul W (2016) Modeling indoor particulate exposures in inner city school classrooms. J Expo Sci Environ Epidemiol 7:1–7. ISSN 1559 064X, https://​doi.​org/​10.​1038/​jes.​2016.​52CrossRef
98.
Zurück zum Zitat Hodas N, Meng Q, Lunden MM, Rich DQ, Özkaynak H, Baxter LK, Zhang Q, Turpin BJ (2012) Variability in the fraction of ambient fine particulate matter found indoors and observed heterogeneity in health effect estimates. J Expo Sci Environ Epidemiol 22(2):448–454. ISSN 1559 0631, https://doi.org/10.1038/jes.2012.34CrossRef Hodas N, Meng Q, Lunden MM, Rich DQ, Özkaynak H, Baxter LK, Zhang Q, Turpin BJ (2012) Variability in the fraction of ambient fine particulate matter found indoors and observed heterogeneity in health effect estimates. J Expo Sci Environ Epidemiol 22(2):448–454. ISSN 1559 0631, https://​doi.​org/​10.​1038/​jes.​2012.​34CrossRef
99.
Zurück zum Zitat Chen Z, Chen C, Wei S, Wu Y, Wang Y, Wan Y (2016) Impact of the external window crack structure on indoor PM2.5 mass concentration. Build Environ 108(1):240–251. ISSN 0360 1323, https://doi.org/10.1016/j.buildenv.2016.08.031 Chen Z, Chen C, Wei S, Wu Y, Wang Y, Wan Y (2016) Impact of the external window crack structure on indoor PM2.5 mass concentration. Build Environ 108(1):240–251. ISSN 0360 1323, https://​doi.​org/​10.​1016/​j.​buildenv.​2016.​08.​031
108.
Zurück zum Zitat Taylor J, Shrubsole C, Davies M, Biddulph P, Das P, Hamilton I, Vardoulakis S, Mavrogianni A, Jones B, Oikonomou E (2014) The modifying effect of the building envelope on population exposure to PM2.5 from outdoor sources. Indoor Air 24(6), 639–651. ISSN 1600 0668, https://doi.org/10.1111/ina.12116 Taylor J, Shrubsole C, Davies M, Biddulph P, Das P, Hamilton I, Vardoulakis S, Mavrogianni A, Jones B, Oikonomou E (2014) The modifying effect of the building envelope on population exposure to PM2.5 from outdoor sources. Indoor Air 24(6), 639–651. ISSN 1600 0668, https://​doi.​org/​10.​1111/​ina.​12116
112.
Zurück zum Zitat Luo J, Du P, Samat A, Xia J, Che M, Xue Z (2017) Spatiotemporal pattern of PM2.5 concentrations in mainland china and analysis of its influencing factors using geographically weighted regression. Sci Rep 7, Article Number 40607. ISSN 2045 2322, https://doi.org/10.1038/srep40607 Luo J, Du P, Samat A, Xia J, Che M, Xue Z (2017) Spatiotemporal pattern of PM2.5 concentrations in mainland china and analysis of its influencing factors using geographically weighted regression. Sci Rep 7, Article Number 40607. ISSN 2045 2322, https://​doi.​org/​10.​1038/​srep40607
117.
Zurück zum Zitat Han X, Guo Q, Liu C, Strauss H, Yang J, Hu J, Wei R, Tian L, Kong J, Peters M (2016) Effect of the pollution control measures on PM2.5 during the 2015 China Victory Day Parade: implication from water soluble ions and sulfur isotope. Environ Pollut 218:230–241. ISSN 0269 7491, https://doi.org/10.1016/j.envpol.2016.06.038 Han X, Guo Q, Liu C, Strauss H, Yang J, Hu J, Wei R, Tian L, Kong J, Peters M (2016) Effect of the pollution control measures on PM2.5 during the 2015 China Victory Day Parade: implication from water soluble ions and sulfur isotope. Environ Pollut 218:230–241. ISSN 0269 7491, https://​doi.​org/​10.​1016/​j.​envpol.​2016.​06.​038
121.
Zurück zum Zitat Chen Y, Schleicher N, Fricker M, Cen K, Liu XL, Kaminski U, Yu Y, Wu XF, Norra S (2016) Long term variation of black carbon and PM2.5 in Beijing, China with respect to meteorological conditions and governmental measures. Environ Pollu, 212:269–278. ISSN 0269 7491, https://doi.org/10.1016/j.envpol.2016.01.008 Chen Y, Schleicher N, Fricker M, Cen K, Liu XL, Kaminski U, Yu Y, Wu XF, Norra S (2016) Long term variation of black carbon and PM2.5 in Beijing, China with respect to meteorological conditions and governmental measures. Environ Pollu, 212:269–278. ISSN 0269 7491, https://​doi.​org/​10.​1016/​j.​envpol.​2016.​01.​008
125.
Zurück zum Zitat Grabow ML, Spak SN, Holloway T, Stone Jr B, Mednick AC, Patz JA (2012) Air quality and exercise related health benefits from reduced car travel in the midwestern United States. Environ Health Perspect 120(1):68–76. ISSN 0091 6765, https://doi.org/10.1289/ehp.1103440 Grabow ML, Spak SN, Holloway T, Stone Jr B, Mednick AC, Patz JA (2012) Air quality and exercise related health benefits from reduced car travel in the midwestern United States. Environ Health Perspect 120(1):68–76. ISSN 0091 6765, https://​doi.​org/​10.​1289/​ehp.​1103440
134.
Zurück zum Zitat Yan XD, Wang QM, Tie C, Jin HT, Han YX, Zhang JL, Yu XM, Hou Q, Zhang PP, Wang AP, Zhang PC, Gao Z, Jiang JD (2017) Polydatin protects the respiratory system from PM2.5 exposure. Sci Rep 7, Article Number 40030. ISSN 2045 2322, https://doi.org/10.1038/srep40030 Yan XD, Wang QM, Tie C, Jin HT, Han YX, Zhang JL, Yu XM, Hou Q, Zhang PP, Wang AP, Zhang PC, Gao Z, Jiang JD (2017) Polydatin protects the respiratory system from PM2.5 exposure. Sci Rep 7, Article Number 40030. ISSN 2045 2322, https://​doi.​org/​10.​1038/​srep40030
138.
Zurück zum Zitat Ma H, Shen H, Shui T, Li Q, Zhou L (2016) Experimental study on ultrafine particle removal performance of portable air cleaners with different filters in an office room. Int J Environ Res Publ Health 13, Number 1, Article Number 102. ISSN 1660 4601, https://doi.org/10.3390/ijerph13010102 Ma H, Shen H, Shui T, Li Q, Zhou L (2016) Experimental study on ultrafine particle removal performance of portable air cleaners with different filters in an office room. Int J Environ Res Publ Health 13, Number 1, Article Number 102. ISSN 1660 4601, https://​doi.​org/​10.​3390/​ijerph13010102
142.
Zurück zum Zitat Hart JF, Ward TJ, Spear TM, Rossi RJ, Holland NN, Loushin BG (2011) Evaluating the effectiveness of a commercial portable air purifier in homes with wood burning stoves: a preliminary study. J Environ Public Health 2011: Article Number 324809. ISSN 1687 9813, https://doi.org/10.1155/2011/324809 Hart JF, Ward TJ, Spear TM, Rossi RJ, Holland NN, Loushin BG (2011) Evaluating the effectiveness of a commercial portable air purifier in homes with wood burning stoves: a preliminary study. J Environ Public Health 2011: Article Number 324809. ISSN 1687 9813, https://​doi.​org/​10.​1155/​2011/​324809
151.
Zurück zum Zitat Hatzopoulou M, Weichenthal S, Dugum H, Pickett G, Moreno LM, Kulka R, Andersen R, Goldberg M (2013) The impact of traffic volume, composition, and road geometry on personal air pollution exposures among cyclists in Montreal, Canada. J Expo Sci Environ Epidemiol 23(1):46–51. ISSN 1559 0631, https://doi.org/10.1038/jes.2012.85CrossRef Hatzopoulou M, Weichenthal S, Dugum H, Pickett G, Moreno LM, Kulka R, Andersen R, Goldberg M (2013) The impact of traffic volume, composition, and road geometry on personal air pollution exposures among cyclists in Montreal, Canada. J Expo Sci Environ Epidemiol 23(1):46–51. ISSN 1559 0631, https://​doi.​org/​10.​1038/​jes.​2012.​85CrossRef
152.
Zurück zum Zitat Arku RE, Dionisio KL, Hughes AF, Vallarino J, Spengler JD, Castro MC, Mensah SA, Ezzati M (2015) Personal particulate matter exposures and locations of students in four neighborhoods in Accra, Ghana. J Expo Sci Environ Epidemiol 25(6):557–566. ISSN 1559 0631, https://doi.org/10.1038/jes.2014.56CrossRef Arku RE, Dionisio KL, Hughes AF, Vallarino J, Spengler JD, Castro MC, Mensah SA, Ezzati M (2015) Personal particulate matter exposures and locations of students in four neighborhoods in Accra, Ghana. J Expo Sci Environ Epidemiol 25(6):557–566. ISSN 1559 0631, https://​doi.​org/​10.​1038/​jes.​2014.​56CrossRef
171.
Zurück zum Zitat Farnoosh N, Castle GSP, Adamiak K (2011) A 3D simulation of a single section electrostatic precipitator for dust particles removal. In: 2011 24th Canadian conference on electrical and computer engineering (CCECE), Niagara Falls, ON, Canada, 8–11 May 2011, pp 749–752. ISSN 0840 7789, https://doi.org/10.1109/CCECE.2011.6030555 Farnoosh N, Castle GSP, Adamiak K (2011) A 3D simulation of a single section electrostatic precipitator for dust particles removal. In: 2011 24th Canadian conference on electrical and computer engineering (CCECE), Niagara Falls, ON, Canada, 8–11 May 2011, pp 749–752. ISSN 0840 7789, https://​doi.​org/​10.​1109/​CCECE.​2011.​6030555
178.
180.
Zurück zum Zitat US Government Publishing Office (2013) Code of Federal Regulations, Title 40: Protection of Environment, Chapter I: Environmental Protection Agency, Subchapter C: Air Programs, Part 50: National Primary and Secondary Ambient Air Quality Standards, § 50.18: National primary ambient air quality standards for PM2.5, 15 Jan 2013 US Government Publishing Office (2013) Code of Federal Regulations, Title 40: Protection of Environment, Chapter I: Environmental Protection Agency, Subchapter C: Air Programs, Part 50: National Primary and Secondary Ambient Air Quality Standards, § 50.18: National primary ambient air quality standards for PM2.5, 15 Jan 2013
181.
Zurück zum Zitat Barclays Official California Code of Regulations (2006) Title 17: Public Health, Division 3: Air Resources, Chapter 1: Air Resources Board, Subchapter 1.5: Air Basins and Air Quality Standards, Article 2: Ambient Air Quality Standards, § 70200: Table of Standards, 17 May 2006 Barclays Official California Code of Regulations (2006) Title 17: Public Health, Division 3: Air Resources, Chapter 1: Air Resources Board, Subchapter 1.5: Air Basins and Air Quality Standards, Article 2: Ambient Air Quality Standards, § 70200: Table of Standards, 17 May 2006
184.
Zurück zum Zitat Eeftens M, Tsai MY, Ampe C, Anwander B, Beelen R, Bellander T, Cesaroni G, Cirach M, Cyrys J, de Hoogh K, De Nazelle A, de Vocht F, Declercq C, Dėdelė A, Eriksen K, Galassi C, Gražulevičienė R, Grivas G, Heinrich J, Hoffmann B, Iakovides M, Ineichen A, Katsouyanni K, Korek M, Krämer U, Kuhlbusch T, Lanki T, Madsen C, Meliefste K, Mölter A, Mosler G, Nieuwenhuijsen M, Oldenwening M, Pennanen A, Hensch NP, Quass U, Nielsen OR, Ranzi A, Stephanou E, Sugiri D, Udvardy O, Vaskövi É, Weinmayr G, Brunekreef B, Hoek G (2012) Spatial variation of PM2.5, PM10, PM2.5 absorbance and PMcoarse concentrations between and within 20 European study areas and the relationship with NO2—Results of the ESCAPE project. Atmos Environ 62:303–317. ISSN 1352 2310, https://doi.org/10.1016/j.atmosenv.2012.08.038 Eeftens M, Tsai MY, Ampe C, Anwander B, Beelen R, Bellander T, Cesaroni G, Cirach M, Cyrys J, de Hoogh K, De Nazelle A, de Vocht F, Declercq C, Dėdelė A, Eriksen K, Galassi C, Gražulevičienė R, Grivas G, Heinrich J, Hoffmann B, Iakovides M, Ineichen A, Katsouyanni K, Korek M, Krämer U, Kuhlbusch T, Lanki T, Madsen C, Meliefste K, Mölter A, Mosler G, Nieuwenhuijsen M, Oldenwening M, Pennanen A, Hensch NP, Quass U, Nielsen OR, Ranzi A, Stephanou E, Sugiri D, Udvardy O, Vaskövi É, Weinmayr G, Brunekreef B, Hoek G (2012) Spatial variation of PM2.5, PM10, PM2.5 absorbance and PMcoarse concentrations between and within 20 European study areas and the relationship with NO2—Results of the ESCAPE project. Atmos Environ 62:303–317. ISSN 1352 2310, https://​doi.​org/​10.​1016/​j.​atmosenv.​2012.​08.​038
186.
Zurück zum Zitat Cheng Z, Luo L, Wang S, Wang Y, Sharma S, Shimadera H, Wang X, Bressi M, de Miranda RM, Jiang J, Zhou W, Fajardo O, Yan N, Hao J (2016) Status and characteristics of ambient PM2.5 pollution in global megacities. Environ Int 89–90:212–221. 10.1016/j.envint.2016.02.003, ISSN 0160 4120 Cheng Z, Luo L, Wang S, Wang Y, Sharma S, Shimadera H, Wang X, Bressi M, de Miranda RM, Jiang J, Zhou W, Fajardo O, Yan N, Hao J (2016) Status and characteristics of ambient PM2.5 pollution in global megacities. Environ Int 89–90:212–221. 10.1016/j.envint.2016.02.003, ISSN 0160 4120
188.
190.
Zurück zum Zitat National Centers for Environmental Information, Integrated Surface Data, NCEI DSI 3505—gov.noaa.ncdc:C00532, National Environmental Satellite, Data, and Information Service, National Oceanic and Atmospheric Administration, US Department of Commerce National Centers for Environmental Information, Integrated Surface Data, NCEI DSI 3505—gov.noaa.ncdc:C00532, National Environmental Satellite, Data, and Information Service, National Oceanic and Atmospheric Administration, US Department of Commerce
192.
Zurück zum Zitat California Air Resources Board, 2012 Air Quality Data DVD, August 2012, PTSD 2012 035 DVD California Air Resources Board, 2012 Air Quality Data DVD, August 2012, PTSD 2012 035 DVD
193.
Zurück zum Zitat European Environment Agency (2014) AirBase—The European air quality database, Version 7, Mar 2014 European Environment Agency (2014) AirBase—The European air quality database, Version 7, Mar 2014
194.
Zurück zum Zitat US Department of State, StateAir—US Department of State Air Quality Monitoring Program—Mission China US Department of State, StateAir—US Department of State Air Quality Monitoring Program—Mission China
195.
Zurück zum Zitat US Department of State, Mission India—US Mission India NowCast Air Quality US Department of State, Mission India—US Mission India NowCast Air Quality
197.
Zurück zum Zitat Deru M, Field K, Studer D, Benne K, Griffith B, Torcellini P, Liu B, Halverson M, Winiarski D, Rosenberg M, Yazdanian M, Huang J, Crawley D (2011) US Department of Energy Commercial Reference Building Models of the National Building Stock, National Renewable Energy Laboratory, February, NREL/TP 5500 46861. https://doi.org/10.2172/1009264 Deru M, Field K, Studer D, Benne K, Griffith B, Torcellini P, Liu B, Halverson M, Winiarski D, Rosenberg M, Yazdanian M, Huang J, Crawley D (2011) US Department of Energy Commercial Reference Building Models of the National Building Stock, National Renewable Energy Laboratory, February, NREL/TP 5500 46861. https://​doi.​org/​10.​2172/​1009264
198.
Zurück zum Zitat Lerer MM, da Graça GC, Linden PF (2013) Building energy demand response simulation for an office tower in New York. In: Proceedings of BS2013: 13th conference of international building performance simulation association, Chambéry, France, 26–28 Aug 2013, pp 2511–2518. ISBN 9782746662940, http://www.ibpsa.org/proceedings/BS2013/p_1350.pdf Lerer MM, da Graça GC, Linden PF (2013) Building energy demand response simulation for an office tower in New York. In: Proceedings of BS2013: 13th conference of international building performance simulation association, Chambéry, France, 26–28 Aug 2013, pp 2511–2518. ISBN 9782746662940, http://​www.​ibpsa.​org/​proceedings/​BS2013/​p_​1350.​pdf
199.
Zurück zum Zitat Occupational Safety & Health Administration, Code of Federal Regulations, Title 29—Labor, Part 1910—Occupational Safety and Health Standards, Subpart J – General Environmental Controls, Standard Number 1910.141—Sanitation Occupational Safety & Health Administration, Code of Federal Regulations, Title 29—Labor, Part 1910—Occupational Safety and Health Standards, Subpart J – General Environmental Controls, Standard Number 1910.141—Sanitation
200.
Zurück zum Zitat Department of Justice (2010) Americans with Disabilities Act of 1990, 2010 ADA Standards for Accessible Design, Sept 2010 Department of Justice (2010) Americans with Disabilities Act of 1990, 2010 ADA Standards for Accessible Design, Sept 2010
201.
Zurück zum Zitat California Building Standards Commission (2013) California Code of Regulations, Title 24—Building Standards Code, Part 2—California Building Code California Building Standards Commission (2013) California Code of Regulations, Title 24—Building Standards Code, Part 2—California Building Code
202.
Zurück zum Zitat Occupational Safety & Health Administration, Code of Federal Regulations, Title 29—Labor, Part 1910—Occupational Safety and Health Standards, Subpart D—Walking Working Surfaces, Standard Number 1910.24—Fixed industrial stairs Occupational Safety & Health Administration, Code of Federal Regulations, Title 29—Labor, Part 1910—Occupational Safety and Health Standards, Subpart D—Walking Working Surfaces, Standard Number 1910.24—Fixed industrial stairs
204.
Zurück zum Zitat California Building Standards Commission (2013) California Code of Regulations, Title 24—Building Standards Code, Part 6—California Energy Code California Building Standards Commission (2013) California Code of Regulations, Title 24—Building Standards Code, Part 6—California Energy Code
208.
Zurück zum Zitat ASHRAE (2013) ASHRAE handbook—fundamentals. American Society of Heating, Refrigerating, and Air Conditioning Engineers Inc, Atlanta, GA, USA 2013, ISBN 978 1 93 650446, ISSN 1523 7230 6, ISSN 1523 7230 ASHRAE (2013) ASHRAE handbook—fundamentals. American Society of Heating, Refrigerating, and Air Conditioning Engineers Inc, Atlanta, GA, USA 2013, ISBN 978 1 93 650446, ISSN 1523 7230 6, ISSN 1523 7230
213.
Zurück zum Zitat Warren PR (1986) The analysis of single sided ventilation measurements. Air Infiltration Rev 7(2):3–5 Warren PR (1986) The analysis of single sided ventilation measurements. Air Infiltration Rev 7(2):3–5
214.
215.
Zurück zum Zitat European Committee for Standardization (2012) Particulate air filters for general ventilation. Determination of the filtration performance. EN 779:2012 European Committee for Standardization (2012) Particulate air filters for general ventilation. Determination of the filtration performance. EN 779:2012
Metadaten
Titel
Ventilative Cooling and Air Pollutants
verfasst von
Guilherme Carrilho da Graça
Nuno R. Martins
Copyright-Jahr
2021
DOI
https://doi.org/10.1007/978-3-030-72385-9_5