Indoor Air

Number of times cited: 132

• N. Hudda and S.A. Fruin, Carbon dioxide accumulation inside vehicles: The effect of ventilation and driving conditions, Science of The Total Environment, 610-611, (1448), (2018).
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• B. Khazaei, A. Shiehbeigi and A. R. Haji Molla Ali Kani, Modeling indoor air carbon dioxide concentration using artificial neural network, International Journal of Environmental Science and Technology, (2018).
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• Sepideh Sadat Korsavi, Azadeh Montazami and James Brusey, Developing a design framework to facilitate adaptive behaviours, Energy and Buildings, 10.1016/j.enbuild.2018.09.011, 179, (360-373), (2018).
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• V.S Chithra and S.M Shiva Nagendra, A Review Of Scientific Evidence On Indoor Air Of School Building: Pollutants, Sources, Health Effects And Management, Asian Journal of Atmospheric Environment, 10.5572/ajae.2018.12.2.87, 12, 2, (87-108), (2018).
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• Li Yang, Xiaodong Liu, Feng Qian and Shubo Du, Ventilation effect on Different Position of Classrooms in “Line” type Teaching Building, Journal of Cleaner Production, 10.1016/j.jclepro.2018.10.228, (2018).
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• A. Persily and L. Jonge, Carbon dioxide generation rates for building occupants, Indoor Air, 27, 5, (868-879), (2017).
  Wiley Online Library
• S. Batterman, F.‐C. Su, A. Wald, F. Watkins, C. Godwin and G. Thun, Ventilation rates in recently constructed U.S. school classrooms, Indoor Air, 27, 5, (880-890), (2017).
  Wiley Online Library
• Stuart Batterman, Review and Extension of CO2-Based Methods to Determine Ventilation Rates with Application to School Classrooms, International Journal of Environmental Research and Public Health, 14, 12, (145), (2017).
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• Francesca Stazi, Federica Naspi, Giulia Ulpiani and Costanzo Di Perna, Indoor air quality and thermal comfort optimization in classrooms developing an automatic system for windows opening and closing, Energy and Buildings, 139, (732), (2017).
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• Sheryl Magzamen, Adam P. Mayer, Stephanie Barr, Lenora Bohren, Brian Dunbar, Dale Manning, Stephen J. Reynolds, Joshua W. Schaeffer, Jordan Suter and Jennifer E. Cross, A Multidisciplinary Research Framework on Green Schools: Infrastructure, Social Environment, Occupant Health, and Performance, Journal of School Health, 87, 5, (376-387), (2017).
  Wiley Online Library
• Rogério Duarte, Maria da Glória Gomes and António Moret Rodrigues, Classroom ventilation with manual opening of windows: Findings from a two-year-long experimental study of a Portuguese secondary school, Building and Environment, 124, (118), (2017).
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• Pawel Wargocki and David P. Wyon, Ten questions concerning thermal and indoor air quality effects on the performance of office work and schoolwork, Building and Environment, 112, (359), (2017).
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• Nurit Meron and Isaac A. Meir, Building green schools in Israel. Costs, economic benefits and teacher satisfaction, Energy and Buildings, 154, (12), (2017).
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• Charlene W. Bayer, Evidence-Based Design for Indoor Environmental Quality and Health, Encyclopedia of Sustainability Science and Technology, 10.1007/978-1-4939-2493-6_604-3, (1-20), (2017).
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• Silvia Vilcekova, Ludmila Meciarova, Eva Kridlova Burdova, Jana Katunska, Danica Kosicanova and Saeed Doroudiani, Indoor environmental quality of classrooms and occupants' comfort in a special education school in Slovak Republic, Building and Environment, 120, (29), (2017).
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• Philomena M. Bluyssen, Health, comfort and performance of children in classrooms – New directions for research, Indoor and Built Environment, 26, 8, (1040), (2017).
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• Nuria Castilla, Carmen Llinares, Jose María Bravo and Vicente Blanca, Subjective assessment of university classroom environment, Building and Environment, 122, (72), (2017).
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• Orhan Ekren, Ziya Haktan Karadeniz, Ibrahim Atmaca, Tugba Ugranli-Cicek, Sait C. Sofuoglu and Macit Toksoy, Assessment and improvement of indoor environmental quality in a primary school, Science and Technology for the Built Environment, 23, 2, (391), (2017).
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• Stephen R. Thom, Veena M. Bhopale, JingPing Hu and Ming Yang, Inflammatory responses to acute elevations of carbon dioxide in mice, Journal of Applied Physiology, 123, 2, (297), (2017).
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• Ricardo M. S. F. Almeida, Manuel Pinto, Paulo G. Pinho and Luís T. de Lemos, Natural ventilation and indoor air quality in educational buildings: experimental assessment and improvement strategies, Energy Efficiency, 10, 4, (839), (2017).
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• Marta Oliveira, Klara Slezakova, Cristina Delerue-Matos, Maria do Carmo Pereira and Simone Morais, Indoor air quality in preschools (3- to 5-year-old children) in the Northeast of Portugal during spring–summer season: pollutants and comfort parameters, Journal of Toxicology and Environmental Health, Part A, 80, 13-15, (740), (2017).
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• Lucian Cîrstolovean, Paraschiva Mizgan, Răzvan Calotă, Alina Girip and Anica Ilie, Critical Assessment of CO 2 Emissions in an Inhabited Room on the Basis of the Stress Theory, Procedia Engineering, 181, (425), (2017).
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• Tomas Mikeska, Jianhua Fan and Svend Svendsen, Full scale measurements and CFD investigations of a wall radiant cooling system integrated in thin concrete walls, Energy and Buildings, 139, (242), (2017).
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• Luísa Dias Pereira, Luis Neto, Hermano Bernardo and Manuel Gameiro da Silva, An integrated approach on energy consumption and indoor environmental quality performance in six Portuguese secondary schools, Energy Research & Social Science, 10.1016/j.erss.2017.02.004, 32, (23-43), (2017).
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• W. J. Fisk, The ventilation problem in schools: literature review, Indoor Air, 27, 6, (1039-1051), (2017).
  Wiley Online Library
• S. Petersen, K. L. Jensen, A. L. S. Pedersen and H. S. Rasmussen, The effect of increased classroom ventilation rate indicated by reduced CO2 concentration on the performance of schoolwork by children, Indoor Air, 26, 3, (366-379), (2015).
  Wiley Online Library
• N. Canha, C. Mandin, O. Ramalho, G. Wyart, J. Ribéron, C. Dassonville, O. Hänninen, S. M. Almeida and M. Derbez, Assessment of ventilation and indoor air pollutants in nursery and elementary schools in France, Indoor Air, 26, 3, (350-365), (2015).
  Wiley Online Library
• S. Liu, R. Li, R. J. Wild, C. Warneke, J. A. Gouw, S. S. Brown, S. L. Miller, J. C. Luongo, J. L. Jimenez and P. J. Ziemann, Contribution of human‐related sources to indoor volatile organic compounds in a university classroom, Indoor Air, 26, 6, (925-938), (2015).
  Wiley Online Library
• J. C. Luongo, K. P. Fennelly, J. A. Keen, Z. J. Zhai, B. W. Jones and S. L. Miller, Role of mechanical ventilation in the airborne transmission of infectious agents in buildings, Indoor Air, 26, 5, (666-678), (2015).
  Wiley Online Library
• M. Verriele, C. Schoemaecker, B. Hanoune, N. Leclerc, S. Germain, V. Gaudion and N. Locoge, The MERMAID study: indoor and outdoor average pollutant concentrations in 10 low‐energy school buildings in France, Indoor Air, 26, 5, (702-713), (2015).
  Wiley Online Library
• B. Kolarik, Z. Jovanovic Andersen, T. Ibfelt, E. Hoj Engelund, E. Møller and E. Vaclavik Bräuner, Ventilation in day care centers and sick leave among nursery children, Indoor Air, 26, 2, (157-167), (2015).
  Wiley Online Library
• William J. Fisk, Jerome A. Paulson, Lloyd J. Kolbe and Claire L. Barnett, Significance of the School Physical Environment – A Commentary, Journal of School Health, 86, 7, (483-487), (2016).
  Wiley Online Library
• Krystallia K. Kalimeri, Dikaia E. Saraga, Vasileios D. Lazaridis, Nikolaos A. Legkas, Dafni A. Missia, Evangelos I. Tolis and John G. Bartzis, Indoor air quality investigation of the school environment and estimated health risks: Two-season measurements in primary schools in Kozani, Greece, Atmospheric Pollution Research, 7, 6, (1128), (2016).
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• Trevor J. Terrill and Bryan P. Rasmussen, An evaluation of HVAC energy usage and occupant comfort in religious facilities, Energy and Buildings, 128, (224), (2016).
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• Luca Stabile, Marco Dell’Isola, Andrea Frattolillo, Angelamaria Massimo and Aldo Russi, Effect of natural ventilation and manual airing on indoor air quality in naturally ventilated Italian classrooms, Building and Environment, 98, (180), (2016).
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• Simi Hoque and Ben Weil, THE RELATIONSHIP BETWEEN COMFORT PERCEPTIONS AND ACADEMIC PERFORMANCE IN UNIVERSITY CLASSROOM BUILDINGS, Journal of Green Building, 11, 1, (108), (2016).
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• Tunga Salthammer, Erik Uhde, Tobias Schripp, Alexandra Schieweck, Lidia Morawska, Mandana Mazaheri, Sam Clifford, Congrong He, Giorgio Buonanno, Xavier Querol, Mar Viana and Prashant Kumar, Children's well-being at schools: Impact of climatic conditions and air pollution, Environment International, 94, (196), (2016).
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• Shi-Jie Cao, Dong-Hao Zhu and Yin-Bao Yang, Associated relationship between ventilation rates and indoor air quality, RSC Advances, 6, 112, (111427), (2016).
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• Gabriel Rojas, Waldemar Wagner, Jürgen Suschek-Berger, Rainer Pfluger and Wolfgang Feist, Applying the passive house concept to a social housing project in Austria – evaluation of the indoor environment based on long-term measurements and user surveys, Advances in Building Energy Research, 10, 1, (125), (2016).
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• Yuqiao Tang, Xiaofeng Li, Wumengjian Zhu and Pok Lun Cheng, Predicting single-sided airflow rates based on primary school experimental study, Building and Environment, 98, (71), (2016).
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• Elliott T. Gall, Toby Cheung, Irvan Luhung, Stefano Schiavon and William W. Nazaroff, Real-time monitoring of personal exposures to carbon dioxide, Building and Environment, 104, (59), (2016).
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• , Ventilation, Indoor Air Quality, Health, and Productivity, Ergonomic Workplace Design for Health, Wellness, and Productivity, 10.1201/9781315374000-4, (39-72), (2016).
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• P. Wargocki and N. A. F. Da Silva, Use of visual CO2 feedback as a retrofit solution for improving classroom air quality, Indoor Air, 25, 1, (105-114), (2014).
  Wiley Online Library
• N. Muscatiello, A. McCarthy, C. Kielb, W.‐H. Hsu, S.‐A. Hwang and S. Lin, Classroom conditions and CO2 concentrations and teacher health symptom reporting in 10 New York State Schools, Indoor Air, 25, 2, (157-167), (2014).
  Wiley Online Library
• Joon-sig Jung, Duck-shin Park, Hyung-jin Jeon, Hyea-suk Song and Min-jong Lee, A Study of Indoor Air Quality of School Classrooms, Journal of the Korea Academia-Industrial cooperation Society, 16, 5, (3643), (2015).
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• Paraskevi Vivian Dorizas, Margarita-Niki Assimakopoulos and Mattheos Santamouris, A holistic approach for the assessment of the indoor environmental quality, student productivity, and energy consumption in primary schools, Environmental Monitoring and Assessment, 187, 5, (2015).
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• Naziah Muhamad Salleh, Syahrul Nizam Kamaruzzaman, Mike Riley, Emma Marinie Ahmad Zawawi and Raha Sulaiman, A quantitative evaluation of indoor environmental quality in refurbished kindergarten buildings: A Malaysian case study, Building and Environment, 94, (723), (2015).
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• Tess M. Stafford, Indoor air quality and academic performance, Journal of Environmental Economics and Management, 70, (34), (2015).
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• Joon-sig Jung, Duckshin Park, Jong bum Kim, Hyea-suk Song and Hyung-kyu Park, A Study on the PM₁₀ and CO₂ Concentrations at Public Places, Journal of the Korea Academia-Industrial cooperation Society, 16, 6, (4335), (2015).
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• Jørn Toftum, Birthe U. Kjeldsen, Pawel Wargocki, Henriette R. Menå, Eva M.N. Hansen and Geo Clausen, Association between classroom ventilation mode and learning outcome in Danish schools, Building and Environment, 92, (494), (2015).
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• Asit Kumar Mishra and Maddali Ramgopal, A comparison of student performance between conditioned and naturally ventilated classrooms, Building and Environment, 84, (181), (2015).
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• D. I. Sidorin, Dynamics of carbon dioxide concentrations in the air and its effect on the cognitive ability of school students, Izvestiya, Atmospheric and Oceanic Physics, 51, 8, (871), (2015).
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• Shijie Cao, Donghao Zhu and Xueliang Fan, Evaluation of the Influence of Transitional Slot Reynolds Numbers on Ventilation Efficiency in Mechanically Ventilated Enclosures, Procedia Engineering, 121, (635), (2015).
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• Andrew Persily, Challenges in developing ventilation and indoor air quality standards: The story of ASHRAE Standard 62, Building and Environment, 91, (61), (2015).
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• Mark J. Mendell, Ekaterina A. Eliseeva, Michael Spears, Wanyu R. Chan, Sebastian Cohn, Douglas P. Sullivan and William J. Fisk, A longitudinal study of ventilation rates in California office buildings and self-reported occupant outcomes including respiratory illness absence, Building and Environment, 92, (292), (2015).
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• Paolo Carrer, Pawel Wargocki, Annaclara Fanetti, Wolfgang Bischof, Eduardo De Oliveira Fernandes, Thomas Hartmann, Stylianos Kephalopoulos, Susanna Palkonen and Olli Seppänen, What does the scientific literature tell us about the ventilation–health relationship in public and residential buildings?, Building and Environment, 94, (273), (2015).
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• Ioan Sarbu and Cristian Pacurar, Experimental and numerical research to assess indoor environment quality and schoolwork performance in university classrooms, Building and Environment, 93, (141), (2015).
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• Evangenlia Chatzidiakou, Dejan Mumovic, Alex James Summerfield and Hector Medina Altamirano, Indoor air quality in London schools. Part 1: ‘performance in use’, Intelligent Buildings International, 7, 2-3, (101), (2015).
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• Jinho Yang, Insick Nam, Hyunjun Yun, Jinman Kim, Hyeon-Ju Oh, Dohee Lee, Si-Moon Jeon, Seung-Ho Yoo and Jong-Ryeul Sohn, Characteristics of indoor air quality at urban elementary schools in Seoul, Korea: Assessment of effect of surrounding environments, Atmospheric Pollution Research, 6, 6, (1113), (2015).
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• L. Dias Pereira, Edna Cardoso and M. Gameiro da Silva, Indoor air quality audit and evaluation on thermal comfort in a school in Portugal, Indoor and Built Environment, 24, 2, (256), (2015).
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• Luca Stabile, Andrea Frattolillo, Marco Dell’Isola, Angelamaria Massimo and Aldo Russi, Air Permeability of Naturally Ventilated Italian Classrooms, Energy Procedia, 78, (3150), (2015).
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• Chun-Fu Chiu, Ming-Hung Chen, Feng-Hsiang Chang and Jeffrey Shaman, Carbon Dioxide Concentrations and Temperatures within Tour Buses under Real-Time Traffic Conditions, PLOS ONE, 10, 4, (e0125117), (2015).
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• Santosh Gaihre, Sean Semple, Janice Miller, Shona Fielding and Steve Turner, Classroom Carbon Dioxide Concentration, School Attendance, and Educational Attainment, Journal of School Health, 84, 9, (569-574), (2014).
  Wiley Online Library
• Spencer M. Dutton and William J. Fisk, Energy and indoor air quality implications of alternative minimum ventilation rates in California offices, Building and Environment, 82, (121), (2014).
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• Gianluigi de Gennaro, Paolo Rosario Dambruoso, Annamaria Demarinis Loiotile, Alessia Di Gilio, Pasquale Giungato, Maria Tutino, Annalisa Marzocca, Antonio Mazzone, Jolanda Palmisani and Francesca Porcelli, Indoor air quality in schools, Environmental Chemistry Letters, 12, 4, (467), (2014).
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• Jennifer Law, Mary Van Baalen, Millennia Foy, Sara S. Mason, Claudia Mendez, Mary L. Wear, Valerie E. Meyers and David Alexander, Relationship Between Carbon Dioxide Levels and Reported Headaches on the International Space Station, Journal of Occupational and Environmental Medicine, 56, 5, (477), (2014).
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• Jie Gao, Pawel Wargocki and Yi Wang, Ventilation system type, classroom environmental quality and pupils' perceptions and symptoms, Building and Environment, 75, (46), (2014).
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• Michael S Mott, Daniel H Robinson, Thea H Williams-Black and Susan S McClelland, The supporting effects of high luminous conditions on grade 3 oral reading fluency scores, SpringerPlus, 3, 1, (53), (2014).
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• Ricardo M.S.F. Almeida and Vasco Peixoto de Freitas, Indoor environmental quality of classrooms in Southern European climate, Energy and Buildings, 81, (127), (2014).
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• Philomena M. Bluyssen, What do we need to be able to (re)design healthy and comfortable indoor environments?, Intelligent Buildings International, 6, 2, (69), (2014).
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• Valentina Turanjanin, Biljana Vučićević, Marina Jovanović, Nikola Mirkov and Ivan Lazović, Indoor CO 2 measurements in Serbian schools and ventilation rate calculation, Energy, 77, (290), (2014).
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• M. J. Mendell, E. A. Eliseeva, M. M. Davies, M. Spears, A. Lobscheid, W. J. Fisk and M. G. Apte, Association of classroom ventilation with reduced illness absence: a prospective study in California elementary schools, Indoor Air, 23, 6, (515-528), (2013).
  Wiley Online Library
• William W Nazaroff, Between Scylla and Charybdis: energy, carbon dioxide, and indoor environmental quality, Indoor Air, 23, 4, (265-267), (2013).
  Wiley Online Library
• C.A. Mydlarz, R. Conetta, D. Connolly, T.J. Cox, J.E. Dockrell and B.M. Shield, Comparison of environmental and acoustic factors in occupied school classrooms for 11–16 year old students, Building and Environment, 60, (265), (2013).
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• Gianluigi de Gennaro, Genoveffa Farella, Annalisa Marzocca, Antonio Mazzone and Maria Tutino, Indoor and Outdoor Monitoring of Volatile Organic Compounds in School Buildings: Indicators Based on Health Risk Assessment to Single out Critical Issues, International Journal of Environmental Research and Public Health, 10, 12, (6273), (2013).
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2013 IEEE International Conference on Distributed Computing in Sensor Systems (DCOSS) Cambridge, MA, USA 2013 IEEE International Conference on Distributed Computing in Sensor Systems IEEE , (2013). 978-0-7695-5041-1 978-1-4799-0206-4 Yun Xiang, Ricardo Piedrahita, Robert P. Dick, Michael Hannigan, Qin Lv and Li Shang A Hybrid Sensor System for Indoor Air Quality Monitoring , (2013). 96 104 6569414 , 10.1109/DCOSS.2013.48 http://ieeexplore.ieee.org/document/6569414/
• Pawel Wargocki and David P. Wyon, Providing better thermal and air quality conditions in school classrooms would be cost-effective, Building and Environment, 59, (581), (2013).
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• Isabella Annesi-Maesano, Nour Baiz, Soutrik Banerjee, Peter Rudnai, Solenne Rive and the SINPHONIE Group, Indoor Air Quality and Sources in Schools and Related Health Effects, Journal of Toxicology and Environmental Health, Part B, 16, 8, (491), (2013).
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• William W Nazaroff, Exploring the consequences of climate change for indoor air quality, Environmental Research Letters, 8, 1, (015022), (2013).
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• Zheng Yang, Burcin Becerik-Gerber and Laura Mino, A study on student perceptions of higher education classrooms: Impact of classroom attributes on student satisfaction and performance, Building and Environment, 70, (171), (2013).
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• Hui Xie and Jian Kang, Environmental noise impact on school students' academic achievements, Noise Notes, 12, 1, (39), (2013).
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• Q. Zhang and Y. Zhu, Characterizing ultrafine particles and other air pollutants at five schools in South Texas, Indoor Air, 22, 1, (33-42), (2011).
  Wiley Online Library
• D. Twardella, W. Matzen, T. Lahrz, R. Burghardt, H. Spegel, L. Hendrowarsito, A. C. Frenzel and H. Fromme, Effect of classroom air quality on students’ concentration: results of a cluster‐randomized cross‐over experimental study, Indoor Air, 22, 5, (378-387), (2012).
  Wiley Online Library
• William J. Fisk, Douglas Black and Gregory Brunner, Changing ventilation rates in U.S. offices: Implications for health, work performance, energy, and associated economics, Building and Environment, 47, (368), (2012).
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• Hui Xie and Jian Kang, Environmental Noise Impact on School Students' Academic Achievements, Noise & Vibration Worldwide, 43, 6, (2), (2012).
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• Ehsanul Kabir, K.-H. Kim, Jong Ryeul Sohn, Bo Youn Kweon and Jong Hyun Shin, Indoor air quality assessment in child care and medical facilities in Korea, Environmental Monitoring and Assessment, 184, 10, (6395), (2012).
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• Lia Chatzidiakou, Dejan Mumovic and Alex James Summerfield, What do we know about indoor air quality in school classrooms? A critical review of the literature, Intelligent Buildings International, 4, 4, (228), (2012).
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• Zs. Bakó-Biró, D.J. Clements-Croome, N. Kochhar, H.B. Awbi and M.J. Williams, Ventilation rates in schools and pupils’ performance, Building and Environment, 48, (215), (2012).
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• V.S. Chithra and S.M. Shiva Nagendra, Indoor air quality investigations in a naturally ventilated school building located close to an urban roadway in Chennai, India, Building and Environment, 54, (159), (2012).
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• Natalie Sampson, Environmental Justice at School: Understanding Research, Policy, and Practice to Improve Our Children's Health, Journal of School Health, 82, 5, (246-252), (2012).
  Wiley Online Library
2012 North American Power Symposium (NAPS 2012) Champaign, IL, USA 2012 North American Power Symposium (NAPS) IEEE , (2012). 978-1-4673-2308-6 978-1-4673-2306-2 978-1-4673-2307-9 Md. Rasheduzzaman, Shyam N. Bhaskara and Badrul H. Chowdhury Implementation of a microgrid central controller in a laboratory microgrid network , (2012). 1 6 6336332 , 10.1109/NAPS.2012.6336332 http://ieeexplore.ieee.org/document/6336332/
• Khaled Al-Rashidi, Dennis Loveday and Nawaf Al-Mutawa, Impact of ventilation modes on carbon dioxide concentration levels in Kuwait classrooms, Energy and Buildings, 47, (540), (2012).
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• Hyunsoo Lee, Youn Jae Lee, So Yun Park, Yu Won Kim and Yeunsook Lee, The Improvement of Ventilation Behaviours in Kitchens of Residential Buildings, Indoor and Built Environment, 21, 1, (48), (2012).
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• P. N. Pegas, C. A. Alves, T. Nunes, E. F. Bate-Epey, M. Evtyugina and C. A. Pio, Could Houseplants Improve Indoor air Quality in Schools?, Journal of Toxicology and Environmental Health, Part A, 75, 22-23, (1371), (2012).
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• Seunghae Lee, CO2‐Based Demand‐Controlled Ventilation and Its Implications for Interior Design, Journal of Interior Design, 37, 2, (19-36), (2012).
  Wiley Online Library
• Mélissa St-Jean, Annie St-Amand, Nicolas L. Gilbert, Julio C. Soto, Mireille Guay, Karelyn Davis and Theresa W. Gyorkos, Indoor air quality in Montréal area day-care centres, Canada, Environmental Research, 118, (1), (2012).
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• J. Sundell, H. Levin, W. W. Nazaroff, W. S. Cain, W. J. Fisk, D. T. Grimsrud, F. Gyntelberg, Y. Li, A. K. Persily, A. C. Pickering, J. M. Samet, J. D. Spengler, S. T. Taylor and C. J. Weschler, Ventilation rates and health: multidisciplinary review of the scientific literature, Indoor Air, 21, 3, (191-204), (2011).
  Wiley Online Library
• U. Haverinen‐Shaughnessy, D. J. Moschandreas and R. J. Shaughnessy, Association between substandard classroom ventilation rates and students’ academic achievement, Indoor Air, 21, 2, (121-131), (2010).
  Wiley Online Library
• W. J. Fisk, D. Black and G. Brunner, Benefits and costs of improved IEQ in U.S. offices, Indoor Air, 21, 5, (357-367), (2011).
  Wiley Online Library
• Samina S. Mizan, Derek G. Shendell and George G. Rhoads, Absence, Extended Absence, and Repeat Tardiness Related to Asthma Status among Elementary School Children, Journal of Asthma, 48, 3, (228), (2011).
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• Tunga Salthammer, Critical evaluation of approaches in setting indoor air quality guidelines and reference values, Chemosphere, 82, 11, (1507), (2011).
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• Jong-Dae Lee, Bu-Soon Son and Yung HwangBo, A Study on the Subjective Symptoms of Workers and Users in Public Facilities, Journal of Environmental Science International, 20, 2, (175), (2011).
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• Selen Okcu, Erica Ryherd and Charlene Bayer, The role of physical environment on student health and education in green schools, Reviews on Environmental Health, 26, 3, (2011).
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• Hee-Jung Yoo, Jeong-Sik Kim, Jeong-Soon Lee, Dong-Min Moon, Jin-Bok Lee, Jong-Ho Kim, Sang-Hoon Kim and Il-Yong Lee, Measurement and Characterization of Atmospheric SF6at Korea GAW Center in 2007, Journal of Korean Society for Atmospheric Environment, 27, 1, (1), (2011).
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• Jill Breysse, David E. Jacobs, William Weber, Sherry Dixon, Carol Kawecki, Susan Aceti and Jorge Lopez, Health Outcomes and Green Renovation of Affordable Housing, Public Health Reports, 126, 1_suppl, (64), (2011).
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• Mahima Habil and Ajay Taneja, Children’s Exposure to Indoor Particulate Matter in Naturally Ventilated Schools in India, Indoor and Built Environment, 20, 4, (430), (2011).
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• Hui Xie, Jian Kang and Roger Tompsett, The impacts of environmental noise on the academic achievements of secondary school students in Greater London, Applied Acoustics, 72, 8, (551), (2011).
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• Young-Min Cho, Ji-Yun Lee, Soon-Bark Kwon, Duck-Shin Park, Jae-Hyoung Park and Ki-Chul Cho, The Distribution Characteristics of Carbon Dioxide in Indoor School Spaces, Journal of Korean Society for Atmospheric Environment, 27, 1, (117), (2011).
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• Yurena Yanes and Crayton J. Yapp, Indoor and outdoor urban atmospheric CO2: Stable carbon isotope constraints on mixing and mass balance, Applied Geochemistry, 25, 9, (1339), (2010).
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• Derek G. Shendell, Melannie S. Alexander, Danna L. Sanders, Amy Jewett and Jianhua Yang, Assessing the Potential Influence of Asthma on Student Attendance/Absence in Public Elementary Schools, Journal of Asthma, 47, 4, (465), (2010).
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• Soon-Bark Kwon, Duckshin Park, Youngmin Cho and Eun-Young Park, Measurement of Natural Ventilation Rate in Seoul Metropolitan Subway Cabin, Indoor and Built Environment, 19, 3, (366), (2010).
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• Elinor Simons, Syni-An Hwang, Edward F. Fitzgerald, Christine Kielb and Shao Lin, The Impact of School Building Conditions on Student Absenteeism in Upstate New York, American Journal of Public Health, 100, 9, (1679), (2010).
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• Wim Zeiler and Gert Boxem, Effects of thermal activated building systems in schools on thermal comfort in winter, Building and Environment, 44, 11, (2308), (2009).
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• Radha Goyal and Mukesh Khare, Indoor–outdoor concentrations of RSPM in classroom of a naturally ventilated school building near an urban traffic roadway, Atmospheric Environment, 43, 38, (6026), (2009).
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• Won-Ho Yang, School Indoor Air Quality and Health Effects, Korean Journal of Environmental Health Sciences, 35, 3, (143), (2009).
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• D. Mumovic, J. Palmer, M. Davies, M. Orme, I. Ridley, T. Oreszczyn, C. Judd, R. Critchlow, H.A. Medina, G. Pilmoor, C. Pearson and P. Way, Winter indoor air quality, thermal comfort and acoustic performance of newly built secondary schools in England, Building and Environment, 44, 7, (1466), (2009).
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• J. Madureira, M. C. M. Alvim-Ferraz, S. Rodrigues, C. Gonçalves, M. C. Azevedo, E. Pinto and O. Mayan, Indoor Air Quality in Schools and Health Symptoms among Portuguese Teachers, Human and Ecological Risk Assessment: An International Journal, 15, 1, (159), (2009).
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