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2022 | OriginalPaper | Buchkapitel

2. A Comprehensive Review on the Indoor Air Pollution Problem, Challenges, and Critical Viewpoints

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Abstract

Over the last decades, environmental pollution has become the main environmental risk to human being health due to the rise regarding waste production, in particular toward the air matrix. At the legislative level, European Directives set air quality objectives to prevent and protect human being health. Nevertheless, the European legislation only applies to outdoor environments, despite people pass ~90% of their time in inside spaces. It exists scientific studies sustain the presence of higher air pollutant levels in indoor than outdoor locations. For this reason, research studies for enlarging knowledge on indoor air quality result priority. Within the previous frame, this chapter aims to provide an indoor air quality benchmark, in terms of potential emission focuses, concentrations, impact on health, and methodologies for measuring air pollutants, focused on indoor air quality managers, control technicians, and potential students. The impact of indoor air quality should be considered at the global level due to several factors, such as indoor pollution is particular for each location, indoor-outdoor air inter-change, and atmospheric pollution is cross-border. The application of new computer tools (IoT and AI) on current and novel measuring air pollution technologies offers a unique chance for inside air quality management.

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Literatur
1.
Zurück zum Zitat M.D. Galán, Importance of air quality networks in controlling exposure to air pollution, in Environmental Emissions, (IntechOpen, 2021) M.D. Galán, Importance of air quality networks in controlling exposure to air pollution, in Environmental Emissions, (IntechOpen, 2021)
2.
Zurück zum Zitat C. Zhu, K. Maharajan, K. Liu, Y. Zhang, Role of atmospheric particulate matter exposure in COVID-19 and other health risks in human: A review. Environ. Res. 198, 111281 (2021)CrossRef C. Zhu, K. Maharajan, K. Liu, Y. Zhang, Role of atmospheric particulate matter exposure in COVID-19 and other health risks in human: A review. Environ. Res. 198, 111281 (2021)CrossRef
3.
Zurück zum Zitat M. Oliveira, K. Slezakova, C. Delerue-Matos, M.C. Pereira, S. Morais, Children environmental exposure to particulate matter and polycyclic aromatic hydrocarbons and biomonitoring in school environments: A review on indoor and outdoor exposure levels, major sources and health impacts. Environ. Int. 124, 180–204 (2019)CrossRef M. Oliveira, K. Slezakova, C. Delerue-Matos, M.C. Pereira, S. Morais, Children environmental exposure to particulate matter and polycyclic aromatic hydrocarbons and biomonitoring in school environments: A review on indoor and outdoor exposure levels, major sources and health impacts. Environ. Int. 124, 180–204 (2019)CrossRef
4.
Zurück zum Zitat J. Bao, H. Li, Z. Wu, X. Zhang, H. Zhang, Y. Li, et al., Atmospheric carbonyls in a heavy ozone pollution episode at a metropolis in Southwest China: Characteristics, health risk assessment, sources analysis. J. Environ. Sci. 113, 40–54 (2022)CrossRef J. Bao, H. Li, Z. Wu, X. Zhang, H. Zhang, Y. Li, et al., Atmospheric carbonyls in a heavy ozone pollution episode at a metropolis in Southwest China: Characteristics, health risk assessment, sources analysis. J. Environ. Sci. 113, 40–54 (2022)CrossRef
5.
Zurück zum Zitat M.D. Galán, Implication of secondary atmospheric pollutants in the air quality: A case-study for ozone, in Air Quality, (IntechOpen, 2021) M.D. Galán, Implication of secondary atmospheric pollutants in the air quality: A case-study for ozone, in Air Quality, (IntechOpen, 2021)
8.
Zurück zum Zitat G. Settimo, M. Manigrasso, P. Avino, Indoor air quality: A focus on the European legislation and state-of-the-art research in Italy. Atmosphere 11(4), 370 (2020)CrossRef G. Settimo, M. Manigrasso, P. Avino, Indoor air quality: A focus on the European legislation and state-of-the-art research in Italy. Atmosphere 11(4), 370 (2020)CrossRef
10.
Zurück zum Zitat N.A. Rosário Filho, M. Urrutia-Pereira, G. D’Amato, L. Cecchi, I.J. Ansotegui, C. Galán, et al., Air pollution and indoor settings. World Allergy Organ. J. 14(1), 100499 (2021)CrossRef N.A. Rosário Filho, M. Urrutia-Pereira, G. D’Amato, L. Cecchi, I.J. Ansotegui, C. Galán, et al., Air pollution and indoor settings. World Allergy Organ. J. 14(1), 100499 (2021)CrossRef
11.
Zurück zum Zitat C. Vornanen-Winqvist, K. Järvi, M.A. Andersson, C. Duchaine, V. Létourneau, O. Kedves, et al., Exposure to indoor air contaminants in school buildings with and without reported indoor air quality problems. Environ. Int. 141, 105781 (2020)CrossRef C. Vornanen-Winqvist, K. Järvi, M.A. Andersson, C. Duchaine, V. Létourneau, O. Kedves, et al., Exposure to indoor air contaminants in school buildings with and without reported indoor air quality problems. Environ. Int. 141, 105781 (2020)CrossRef
12.
Zurück zum Zitat D.E. Schraufnagel, J.R. Balmes, C.T. Cowl, S. De Matteis, S.H. Jung, K. Mortimer, et al., Air pollution and noncommunicable diseases. Chest 155(2), 409–416 (2019)CrossRef D.E. Schraufnagel, J.R. Balmes, C.T. Cowl, S. De Matteis, S.H. Jung, K. Mortimer, et al., Air pollution and noncommunicable diseases. Chest 155(2), 409–416 (2019)CrossRef
13.
Zurück zum Zitat A. Böhlandt, R. Schierl, J. Diemer, C. Koch, G. Bolte, M. Kiranoglu, et al., High concentrations of cadmium, cerium and lanthanum in indoor air due to environmental tobacco smoke. Sci. Total Environ. 414, 738–741 (2012)CrossRef A. Böhlandt, R. Schierl, J. Diemer, C. Koch, G. Bolte, M. Kiranoglu, et al., High concentrations of cadmium, cerium and lanthanum in indoor air due to environmental tobacco smoke. Sci. Total Environ. 414, 738–741 (2012)CrossRef
14.
Zurück zum Zitat N. Obore, J. Kawuki, J. Guan, S.S. Papabathini, L. Wang, Association between indoor air pollution, tobacco smoke and tuberculosis: An updated systematic review and meta-analysis. Public Health 187, 24–35 (2020)CrossRef N. Obore, J. Kawuki, J. Guan, S.S. Papabathini, L. Wang, Association between indoor air pollution, tobacco smoke and tuberculosis: An updated systematic review and meta-analysis. Public Health 187, 24–35 (2020)CrossRef
15.
Zurück zum Zitat Y. Zhang, Z. Shen, J. Sun, L. Zhang, B. Zhang, H. Zou, et al., Parent, alkylated, oxygenated and nitrated polycyclic aromatic hydrocarbons in PM2.5 emitted from residential biomass burning and coal combustion: A novel database of 14 heating scenarios. Environ. Pollut. 268, 115881 (2021)CrossRef Y. Zhang, Z. Shen, J. Sun, L. Zhang, B. Zhang, H. Zou, et al., Parent, alkylated, oxygenated and nitrated polycyclic aromatic hydrocarbons in PM2.5 emitted from residential biomass burning and coal combustion: A novel database of 14 heating scenarios. Environ. Pollut. 268, 115881 (2021)CrossRef
16.
Zurück zum Zitat H. Nguyễn-Văn, D. Nguyễn-Thùy, N.T.Á. Nguyễn, T. Streil, J.P. Schimmelmann, K.E. Doiron, et al., Excessive radon-based radiation in indoor air caused by soil building materials in traditional homes on Đồng Văn karst plateau, northern Vietnam. Chemosphere 257, 127119 (2020)CrossRef H. Nguyễn-Văn, D. Nguyễn-Thùy, N.T.Á. Nguyễn, T. Streil, J.P. Schimmelmann, K.E. Doiron, et al., Excessive radon-based radiation in indoor air caused by soil building materials in traditional homes on Đồng Văn karst plateau, northern Vietnam. Chemosphere 257, 127119 (2020)CrossRef
17.
Zurück zum Zitat A.C. Syuryavin, S. Park, M.M. Nirwono, S.H. Lee, Indoor radon and thoron from building materials: Analysis of humidity, air exchange rate, and dose assessment. Nucl. Eng. Technol. 52(10), 2370–2378 (2020)CrossRef A.C. Syuryavin, S. Park, M.M. Nirwono, S.H. Lee, Indoor radon and thoron from building materials: Analysis of humidity, air exchange rate, and dose assessment. Nucl. Eng. Technol. 52(10), 2370–2378 (2020)CrossRef
18.
Zurück zum Zitat P. Spiru, P.L. Simona, A review on interactions between energy performance of the buildings, outdoor air pollution and the indoor air quality. Energy Procedia 128, 179–186 (2017)CrossRef P. Spiru, P.L. Simona, A review on interactions between energy performance of the buildings, outdoor air pollution and the indoor air quality. Energy Procedia 128, 179–186 (2017)CrossRef
19.
Zurück zum Zitat S. Wi, Y. Kang, S. Yang, Y.U. Kim, S. Kim, Hazard evaluation of indoor environment based on long-term pollutant emission characteristics of building insulation materials: An empirical study. Environ. Pollut. 285, 1172238 (2021)CrossRef S. Wi, Y. Kang, S. Yang, Y.U. Kim, S. Kim, Hazard evaluation of indoor environment based on long-term pollutant emission characteristics of building insulation materials: An empirical study. Environ. Pollut. 285, 1172238 (2021)CrossRef
20.
Zurück zum Zitat S. Cho, K.T. Lee, Y.I. Choi, S.J. Jung, S.J. Park, S. Bae, et al., Networking human biomarker and hazardous chemical elements from building materials: Systematic literature review and in vivo test. Build. Environ. 192, 107603 (2021)CrossRef S. Cho, K.T. Lee, Y.I. Choi, S.J. Jung, S.J. Park, S. Bae, et al., Networking human biomarker and hazardous chemical elements from building materials: Systematic literature review and in vivo test. Build. Environ. 192, 107603 (2021)CrossRef
21.
Zurück zum Zitat F. Bitter, B. Müller, D. Müller, Estimation of odour intensity of indoor air pollutants from building materials with a multi-gas sensor system. Build. Environ. 45(1), 197–204 (2010)CrossRef F. Bitter, B. Müller, D. Müller, Estimation of odour intensity of indoor air pollutants from building materials with a multi-gas sensor system. Build. Environ. 45(1), 197–204 (2010)CrossRef
22.
Zurück zum Zitat G. Hernandez, S.L. Wallis, I. Graves, S. Narain, R. Birchmore, T.A. Berry, The effect of ventilation on volatile organic compounds produced by new furnishings in residential buildings. Atmos. Environ. 6, 100069 (2020) G. Hernandez, S.L. Wallis, I. Graves, S. Narain, R. Birchmore, T.A. Berry, The effect of ventilation on volatile organic compounds produced by new furnishings in residential buildings. Atmos. Environ. 6, 100069 (2020)
23.
Zurück zum Zitat M.S. Angulo, M. Verriele, M. Nicolas, F. Thevenet, Indoor use of essential oil-based cleaning products: Emission rate and indoor air quality impact assessment based on a realistic application methodology. Atmos. Environ. 246, 118060 (2021)CrossRef M.S. Angulo, M. Verriele, M. Nicolas, F. Thevenet, Indoor use of essential oil-based cleaning products: Emission rate and indoor air quality impact assessment based on a realistic application methodology. Atmos. Environ. 246, 118060 (2021)CrossRef
24.
Zurück zum Zitat C.G. Daughton, T.A. Ternes, Pharmaceuticals and personal care products in the environment: Agents of subtle change? Environ. Health Perspect. 107(suppl 6), 907–938 (1999)CrossRef C.G. Daughton, T.A. Ternes, Pharmaceuticals and personal care products in the environment: Agents of subtle change? Environ. Health Perspect. 107(suppl 6), 907–938 (1999)CrossRef
25.
Zurück zum Zitat T.M. Tran, T.T. Tran-Lam, H.H.T. Mai, L.H.T. Bach, H.M.N. Nguyen, H.T. Trinh, et al., Parabens in personal care products and indoor dust from Hanoi, Vietnam: Temporal trends, emission sources, and non-dietary exposure through dust ingestion. Sci. Total Environ. 761, 143274 (2021)CrossRef T.M. Tran, T.T. Tran-Lam, H.H.T. Mai, L.H.T. Bach, H.M.N. Nguyen, H.T. Trinh, et al., Parabens in personal care products and indoor dust from Hanoi, Vietnam: Temporal trends, emission sources, and non-dietary exposure through dust ingestion. Sci. Total Environ. 761, 143274 (2021)CrossRef
26.
Zurück zum Zitat A. Harbizadeh, S.A. Mirzaee, A.D. Khosravi, F.S. Shoushtari, H. Goodarzi, N. Alavi, et al., Indoor and outdoor airborne bacterial air quality in day-care centers (DCCs) in greater Ahvaz. Iran. Atmos. Environ. 216, 116927 (2019)CrossRef A. Harbizadeh, S.A. Mirzaee, A.D. Khosravi, F.S. Shoushtari, H. Goodarzi, N. Alavi, et al., Indoor and outdoor airborne bacterial air quality in day-care centers (DCCs) in greater Ahvaz. Iran. Atmos. Environ. 216, 116927 (2019)CrossRef
27.
Zurück zum Zitat A.N. Baghani, R. Rostami, H. Arfaeinia, S. Hazrati, M. Fazlzadeh, M. Delikhoon, BTEX in indoor air of beauty salons: Risk assessment, levels and factors influencing their concentrations. Ecotoxicol. Environ. Saf. 159, 102–108 (2018)CrossRef A.N. Baghani, R. Rostami, H. Arfaeinia, S. Hazrati, M. Fazlzadeh, M. Delikhoon, BTEX in indoor air of beauty salons: Risk assessment, levels and factors influencing their concentrations. Ecotoxicol. Environ. Saf. 159, 102–108 (2018)CrossRef
28.
Zurück zum Zitat Y. Wang, J. Kuckelkorn, F.Y. Zhao, H. Spliethoff, W. Lang, A state of art of review on interactions between energy performance and indoor environment quality in passive house buildings. Renew. Sust. Energ. Rev. 72, 1303–1319 (2017)CrossRef Y. Wang, J. Kuckelkorn, F.Y. Zhao, H. Spliethoff, W. Lang, A state of art of review on interactions between energy performance and indoor environment quality in passive house buildings. Renew. Sust. Energ. Rev. 72, 1303–1319 (2017)CrossRef
29.
Zurück zum Zitat I. Rivas, M. Viana, T. Moreno, M. Pandolfi, F. Amato, C. Reche, et al., Child exposure to indoor and outdoor air pollutants in schools in Barcelona. Spain. Environ. Int. 69, 200–212 (2014)CrossRef I. Rivas, M. Viana, T. Moreno, M. Pandolfi, F. Amato, C. Reche, et al., Child exposure to indoor and outdoor air pollutants in schools in Barcelona. Spain. Environ. Int. 69, 200–212 (2014)CrossRef
30.
Zurück zum Zitat M.P. Baya, E.B. Bakeas, P.A. Siskos, Volatile organic compounds in the air of 25 Greek homes. Indoor Built Environ. 13(1), 53–61 (2004)CrossRef M.P. Baya, E.B. Bakeas, P.A. Siskos, Volatile organic compounds in the air of 25 Greek homes. Indoor Built Environ. 13(1), 53–61 (2004)CrossRef
31.
Zurück zum Zitat A. Esplugues, F. Ballester, M. Estarlich, S. Llop, V. Fuentes-Leonarte, E. Mantilla, et al., Indoor and outdoor air concentrations of BTEX and determinants in a cohort of one-year old children in Valencia. Spain. Sci. Total Environ. 409(1), 63–69 (2010)CrossRef A. Esplugues, F. Ballester, M. Estarlich, S. Llop, V. Fuentes-Leonarte, E. Mantilla, et al., Indoor and outdoor air concentrations of BTEX and determinants in a cohort of one-year old children in Valencia. Spain. Sci. Total Environ. 409(1), 63–69 (2010)CrossRef
32.
Zurück zum Zitat H.C. Menezes, L.C.A. Amorim, Z.L. Cardeal, Sampling of benzene in environmental and exhaled air by solid-phase microextraction and analysis by gas chromatography–mass spectrometry. Anal. Bioanal. Chem. 395(8), 2583–2589 (2009)CrossRef H.C. Menezes, L.C.A. Amorim, Z.L. Cardeal, Sampling of benzene in environmental and exhaled air by solid-phase microextraction and analysis by gas chromatography–mass spectrometry. Anal. Bioanal. Chem. 395(8), 2583–2589 (2009)CrossRef
33.
Zurück zum Zitat A. Srivastava, S. Devotta, Indoor air quality of public places in Mumbai, India in terms of volatile organic compounds. Environ. Monit. Assess. 133(1–3), 127–138 (2007)CrossRef A. Srivastava, S. Devotta, Indoor air quality of public places in Mumbai, India in terms of volatile organic compounds. Environ. Monit. Assess. 133(1–3), 127–138 (2007)CrossRef
34.
Zurück zum Zitat A. Bhargava, R.N. Khanna, S.K. Bhargava, S. Kumar, Exposure risk to carcinogenic PAHs in indoor-air during biomass combustion whilst cooking in rural India. Atmos. Environ. 38(28), 4761–4767 (2004)CrossRef A. Bhargava, R.N. Khanna, S.K. Bhargava, S. Kumar, Exposure risk to carcinogenic PAHs in indoor-air during biomass combustion whilst cooking in rural India. Atmos. Environ. 38(28), 4761–4767 (2004)CrossRef
35.
Zurück zum Zitat X. Zhang, B. Chen, X. Fan, Different fuel types and heating approaches impact on the indoor air quality of rural houses in northern China. Procedia Eng. 121, 493–500 (2015)CrossRef X. Zhang, B. Chen, X. Fan, Different fuel types and heating approaches impact on the indoor air quality of rural houses in northern China. Procedia Eng. 121, 493–500 (2015)CrossRef
36.
Zurück zum Zitat H.S. Huboyo, S. Tohno, P. Lestari, A. Mizohata, M. Okumura, Characteristics of indoor air pollution in rural mountainous and rural coastal communities in Indonesia. Atmos. Environ. 82, 343–350 (2014)CrossRef H.S. Huboyo, S. Tohno, P. Lestari, A. Mizohata, M. Okumura, Characteristics of indoor air pollution in rural mountainous and rural coastal communities in Indonesia. Atmos. Environ. 82, 343–350 (2014)CrossRef
37.
Zurück zum Zitat F. Villanueva, A. Tapia, S. Lara, M. Amo-Salas, Indoor and outdoor air concentrations of volatile organic compounds and NO2 in schools of urban, industrial and rural areas in Central-Southern Spain. Sci. Total Environ. 622-623, 222–235 (2018)CrossRef F. Villanueva, A. Tapia, S. Lara, M. Amo-Salas, Indoor and outdoor air concentrations of volatile organic compounds and NO2 in schools of urban, industrial and rural areas in Central-Southern Spain. Sci. Total Environ. 622-623, 222–235 (2018)CrossRef
38.
Zurück zum Zitat E. Baurès, O. Blanchard, F. Mercier, E. Surget, P. le Cann, A. Rivier, et al., Indoor air quality in two French hospitals: Measurement of chemical and microbiological contaminants. Sci. Total Environ. 642, 168–179 (2018)CrossRef E. Baurès, O. Blanchard, F. Mercier, E. Surget, P. le Cann, A. Rivier, et al., Indoor air quality in two French hospitals: Measurement of chemical and microbiological contaminants. Sci. Total Environ. 642, 168–179 (2018)CrossRef
39.
Zurück zum Zitat A. Hassan, M. Zeeshan, M.F. Bhatti, Indoor and outdoor microbiological air quality in naturally and mechanically ventilated university libraries. Atmos. Pollut. Res. 12, 101136 (2011)CrossRef A. Hassan, M. Zeeshan, M.F. Bhatti, Indoor and outdoor microbiological air quality in naturally and mechanically ventilated university libraries. Atmos. Pollut. Res. 12, 101136 (2011)CrossRef
40.
Zurück zum Zitat M. Basińska, M. Michałkiewicz, K. Ratajczak, Impact of physical and microbiological parameters on proper indoor air quality in nursery. Environ. Int. 132, 105098 (2019)CrossRef M. Basińska, M. Michałkiewicz, K. Ratajczak, Impact of physical and microbiological parameters on proper indoor air quality in nursery. Environ. Int. 132, 105098 (2019)CrossRef
41.
Zurück zum Zitat J. Saini, M. Dutta, G. Marques, A comprehensive review on indoor air quality monitoring systems for enhanced public health. Sustain. Environ. Res. 30(1), 6 (2020)CrossRef J. Saini, M. Dutta, G. Marques, A comprehensive review on indoor air quality monitoring systems for enhanced public health. Sustain. Environ. Res. 30(1), 6 (2020)CrossRef
42.
Zurück zum Zitat Y. Luo, Y. Zhong, L. Pang, Y. Zhao, R. Liang, X. Zheng, The effects of indoor air pollution from solid fuel use on cognitive function among middle-aged and older population in China. Sci. Total Environ. 754, 142460 (2021)CrossRef Y. Luo, Y. Zhong, L. Pang, Y. Zhao, R. Liang, X. Zheng, The effects of indoor air pollution from solid fuel use on cognitive function among middle-aged and older population in China. Sci. Total Environ. 754, 142460 (2021)CrossRef
43.
Zurück zum Zitat E. Cheek, V. Guercio, C. Shrubsole, S. Dimitroulopoulou, Portable air purification: Review of impacts on indoor air quality and health. Sci. Total Environ. 766, 142585 (2021)CrossRef E. Cheek, V. Guercio, C. Shrubsole, S. Dimitroulopoulou, Portable air purification: Review of impacts on indoor air quality and health. Sci. Total Environ. 766, 142585 (2021)CrossRef
44.
Zurück zum Zitat S. Zhu, L. Yang, W. Wang, X. Liu, M. Lu, X. Shen, Optimal-combined model for air quality index forecasting: 5 cities in North China. Environ. Pollut. 243, 842–850 (2018)CrossRef S. Zhu, L. Yang, W. Wang, X. Liu, M. Lu, X. Shen, Optimal-combined model for air quality index forecasting: 5 cities in North China. Environ. Pollut. 243, 842–850 (2018)CrossRef
45.
Zurück zum Zitat M.D. Galán, P.R. Fernández, M.A. Sintes Puertas, M.D. Romero García, L.A. Cristóbal, Characterization and local emission sources for ammonia in an urban environment. Bull. Environ. Contam. Toxicol. 100(4), 593–599 (2018)CrossRef M.D. Galán, P.R. Fernández, M.A. Sintes Puertas, M.D. Romero García, L.A. Cristóbal, Characterization and local emission sources for ammonia in an urban environment. Bull. Environ. Contam. Toxicol. 100(4), 593–599 (2018)CrossRef
46.
Zurück zum Zitat P. Ielpo, C. Mangia, G.P. Marra, V. Comite, U. Rizza, V.F. Uricchio, et al., Outdoor spatial distribution and indoor levels of NO2 and SO2 in a high environmental risk site of the South Italy. Sci. Total Environ. 648, 787–797 (2019)CrossRef P. Ielpo, C. Mangia, G.P. Marra, V. Comite, U. Rizza, V.F. Uricchio, et al., Outdoor spatial distribution and indoor levels of NO2 and SO2 in a high environmental risk site of the South Italy. Sci. Total Environ. 648, 787–797 (2019)CrossRef
47.
Zurück zum Zitat K. Ni, E. Carter, J.J. Schauer, M. Ezzati, Y. Zhang, H. Niu, et al., Seasonal variation in outdoor, indoor, and personal air pollution exposures of women using wood stoves in the Tibetan Plateau: Baseline assessment for an energy intervention study. Environ. Int. 94, 449–457 (2016)CrossRef K. Ni, E. Carter, J.J. Schauer, M. Ezzati, Y. Zhang, H. Niu, et al., Seasonal variation in outdoor, indoor, and personal air pollution exposures of women using wood stoves in the Tibetan Plateau: Baseline assessment for an energy intervention study. Environ. Int. 94, 449–457 (2016)CrossRef
48.
Zurück zum Zitat S.F. Hayleeyesus, A.M. Manaye, Microbiological quality of indoor air in university libraries. Asian Pac. J. Trop. Biomed. 4, S312–S317 (2014)CrossRef S.F. Hayleeyesus, A.M. Manaye, Microbiological quality of indoor air in university libraries. Asian Pac. J. Trop. Biomed. 4, S312–S317 (2014)CrossRef
49.
Zurück zum Zitat N. Canha, S.M. Almeida, M.D.C. Freitas, H.T.H. Wolterbeek, Assessment of bioaerosols in urban and rural primary schools using passive and active sampling methodologies. Arch. Environ. Prot. 41(4), 11–22 (2015)CrossRef N. Canha, S.M. Almeida, M.D.C. Freitas, H.T.H. Wolterbeek, Assessment of bioaerosols in urban and rural primary schools using passive and active sampling methodologies. Arch. Environ. Prot. 41(4), 11–22 (2015)CrossRef
50.
Zurück zum Zitat I. Demanega, I. Mujan, B.C. Singer, A.S. Anđelković, F. Babich, D. Licina, Performance assessment of low-cost environmental monitors and single sensors under variable indoor air quality and thermal conditions. Build. Environ. 187, 107415 (2021)CrossRef I. Demanega, I. Mujan, B.C. Singer, A.S. Anđelković, F. Babich, D. Licina, Performance assessment of low-cost environmental monitors and single sensors under variable indoor air quality and thermal conditions. Build. Environ. 187, 107415 (2021)CrossRef
51.
Zurück zum Zitat H. Shen, W. Hou, Y. Zhu, S. Zheng, S. Ainiwaer, G. Shen, et al., Temporal and spatial variation of PM2.5 in indoor air monitored by low-cost sensors. Sci. Total Environ. 770, 145304 (2021)CrossRef H. Shen, W. Hou, Y. Zhu, S. Zheng, S. Ainiwaer, G. Shen, et al., Temporal and spatial variation of PM2.5 in indoor air monitored by low-cost sensors. Sci. Total Environ. 770, 145304 (2021)CrossRef
52.
Zurück zum Zitat D. Galán-Madruga, J.M. Terroba, S.G. dos Santos, R.M. Úbeda, J.P. García-Cambero, Indoor and outdoor PM10-bound PAHs in an urban environment. Similarity of mixtures and source attribution. Bull. Environ. Contam. Toxicol. 105(6), 951–957 (2020)CrossRef D. Galán-Madruga, J.M. Terroba, S.G. dos Santos, R.M. Úbeda, J.P. García-Cambero, Indoor and outdoor PM10-bound PAHs in an urban environment. Similarity of mixtures and source attribution. Bull. Environ. Contam. Toxicol. 105(6), 951–957 (2020)CrossRef
54.
Zurück zum Zitat B. Han, Z. Bai, Y. Liu, Y. You, J. Xu, J. Zhou, et al., Characterizations, relationship, and potential sources of outdoor and indoor particulate matter bound polycyclic aromatic hydrocarbons (PAHs) in a community of Tianjin, Northern China. Indoor Air 25(3), 320–328 (2015)CrossRef B. Han, Z. Bai, Y. Liu, Y. You, J. Xu, J. Zhou, et al., Characterizations, relationship, and potential sources of outdoor and indoor particulate matter bound polycyclic aromatic hydrocarbons (PAHs) in a community of Tianjin, Northern China. Indoor Air 25(3), 320–328 (2015)CrossRef
55.
Zurück zum Zitat X. Zhu, W. Yu, F. Li, C. Liu, J. Ma, J. Yan, et al., Spatio-temporal distribution and source identification of heavy metals in particle size fractions of road dust from a typical industrial district. Sci. Total Environ. 780, 146357 (2021)CrossRef X. Zhu, W. Yu, F. Li, C. Liu, J. Ma, J. Yan, et al., Spatio-temporal distribution and source identification of heavy metals in particle size fractions of road dust from a typical industrial district. Sci. Total Environ. 780, 146357 (2021)CrossRef
56.
Zurück zum Zitat D. Galán-Madruga, A methodological framework for improving air quality monitoring network layout. Applications to environment management. J. Environ. Sci. 102, 138–147 (2021)CrossRef D. Galán-Madruga, A methodological framework for improving air quality monitoring network layout. Applications to environment management. J. Environ. Sci. 102, 138–147 (2021)CrossRef
57.
Zurück zum Zitat Y. Niu, F. Wang, S. Liu, W. Zhang, Source analysis of heavy metal elements of PM2.5 in canteen in a university in winter. Atmos. Environ. 244, 117879 (2021)CrossRef Y. Niu, F. Wang, S. Liu, W. Zhang, Source analysis of heavy metal elements of PM2.5 in canteen in a university in winter. Atmos. Environ. 244, 117879 (2021)CrossRef
58.
Zurück zum Zitat Y.W. Li, W.L. Ma, Photocatalytic oxidation technology for indoor air pollutants elimination: A review. Chemosphere 280, 130667 (2021)CrossRef Y.W. Li, W.L. Ma, Photocatalytic oxidation technology for indoor air pollutants elimination: A review. Chemosphere 280, 130667 (2021)CrossRef
59.
Zurück zum Zitat H. Kim, T. Kim, W. Hong, S. Tanabe, Concentration of formaldehyde, acetaldehyde, and five volatile organic compounds in indoor air: The clean-healthy house construction standard (South Korea). J. Asian Archit. Build. Eng. 16(3), 633–639 (2017)CrossRef H. Kim, T. Kim, W. Hong, S. Tanabe, Concentration of formaldehyde, acetaldehyde, and five volatile organic compounds in indoor air: The clean-healthy house construction standard (South Korea). J. Asian Archit. Build. Eng. 16(3), 633–639 (2017)CrossRef
60.
Zurück zum Zitat D.G. Madruga, R.M. Ubeda, J.M. Terroba, S.G. dos Santos, J.P. García-Cambero, Particle-associated polycyclic aromatic hydrocarbons in a representative urban location (indoor-outdoor) from South Europe: Assessment of potential sources and cancer risk to humans. Indoor Air 29(5), 817–827 (2019)CrossRef D.G. Madruga, R.M. Ubeda, J.M. Terroba, S.G. dos Santos, J.P. García-Cambero, Particle-associated polycyclic aromatic hydrocarbons in a representative urban location (indoor-outdoor) from South Europe: Assessment of potential sources and cancer risk to humans. Indoor Air 29(5), 817–827 (2019)CrossRef
61.
Zurück zum Zitat Z. Li, X. Tong, J.M.W. Ho, T.C.Y. Kwok, G. Dong, K.F. Ho, et al., A practical framework for predicting residential indoor PM2.5 concentration using land-use regression and machine learning methods. Chemosphere 265, 129140 (2021)CrossRef Z. Li, X. Tong, J.M.W. Ho, T.C.Y. Kwok, G. Dong, K.F. Ho, et al., A practical framework for predicting residential indoor PM2.5 concentration using land-use regression and machine learning methods. Chemosphere 265, 129140 (2021)CrossRef
62.
Zurück zum Zitat A. Fabregat, L. Vázquez, A. Vernet, Using machine learning to estimate the impact of ports and cruise ship traffic on urban air quality: The case of Barcelona. Environ. Model. Softw. 139, 104995 (2021)CrossRef A. Fabregat, L. Vázquez, A. Vernet, Using machine learning to estimate the impact of ports and cruise ship traffic on urban air quality: The case of Barcelona. Environ. Model. Softw. 139, 104995 (2021)CrossRef
63.
Zurück zum Zitat Y. Liu, Z. Pang, M. Karlsson, S. Gong, Anomaly detection based on machine learning in IoT-based vertical plant wall for indoor climate control. Build. Environ. 183, 107212 (2020)CrossRef Y. Liu, Z. Pang, M. Karlsson, S. Gong, Anomaly detection based on machine learning in IoT-based vertical plant wall for indoor climate control. Build. Environ. 183, 107212 (2020)CrossRef
64.
Zurück zum Zitat S. Yamashita, K. Kume, T. Horiike, N. Honma, M. Fusaya, T. Ohura, et al., A simple method for screening emission sources of carbonyl compounds in indoor air. J. Hazard. Mater. 178(1–3), 370–376 (2010)CrossRef S. Yamashita, K. Kume, T. Horiike, N. Honma, M. Fusaya, T. Ohura, et al., A simple method for screening emission sources of carbonyl compounds in indoor air. J. Hazard. Mater. 178(1–3), 370–376 (2010)CrossRef
Metadaten
Titel
A Comprehensive Review on the Indoor Air Pollution Problem, Challenges, and Critical Viewpoints
verfasst von
David Galán Madruga
Copyright-Jahr
2022
DOI
https://doi.org/10.1007/978-3-030-96486-3_2

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