| P2093 | author name string | Atila Novoselac | |
| | Donghyun Rim | |
| P2860 | cites work | Improving the health of workers in indoor environments: priority research needs for a National Occupational Research Agenda | Q23917743 |
| | Association of ventilation rates and CO2 concentrations with health and other responses in commercial and institutional buildings | Q23918953 |
| | Airflow pattern around a worker in a uniform freestream | Q23922295 |
| | American Thoracic Society statement: occupational contribution to the burden of airway disease | Q23924497 |
| | Association of asthma symptoms with peak particulate air pollution and effect modification by anti-inflammatory medication use | Q24811036 |
| | Benzene in the environment: an assessment of the potential risks to the health of the population | Q28345173 |
| | Elevated personal exposure to particulate matter from human activities in a residence | Q31055328 |
| | The relationships between personal PM exposures for elderly populations and indoor and outdoor concentrations for three retirement center scenarios | Q34284311 |
| | Respiratory symptoms and airflow limitation in asphalt workers | Q35500870 |
| | Biological dust exposure in the workplace is a risk factor for chronic obstructive pulmonary disease | Q35537864 |
| | Air movement around a worker in a low-speed flow field | Q36848970 |
| | Importance of the personal endotoxin cloud in school-age children with asthma | Q39735612 |
| | Quality control of computational fluid dynamics in indoor environments | Q40603215 |
| | Investigations of the proximity effect for pollutants in the indoor environment | Q41714732 |
| | Increases in airway responsiveness following acute exposure to respiratory irritants. Reactive airway dysfunction syndrome or occupational asthma? | Q41869615 |
| | Prevalence of neuropsychiatric and mucous membrane irritation complaints among Palestinian shoe factory workers exposed to organic solvents and plastic compounds | Q43700664 |
| | Measurement and prediction of indoor air quality using a breathing thermal manikin | Q47814579 |
| | Ventilation performance prediction for buildings: A method overview and recent applications | Q56706253 |
| | Estimates of Improved Productivity and Health from Better Indoor Environments | Q56960084 |
| | Risk in cleaning: chemical and physical exposure | Q57122218 |
| | CFD Study of the Thermal Environment around a Human Body: A Review | Q61663115 |
| | The influence of chemical interactions at the human surface on breathing zone levels of reactants and products | Q83696669 |
| P6195 | funding scheme | grant | Q230788 |
| P433 | issue | 12 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | respiratory system | Q7891 |
| | particulates | Q498957 |
| | work system | Q629132 |
| | environmental factor | Q2142347 |
| | exposure assessment | Q4008388 |
| | air sampling | Q91057398 |
| P5008 | on focus list of Wikimedia project | Wikimedia–NIOSH collaboration | Q104416361 |
| P304 | page(s) | 683-692 | |
| P12526 | performing organization | University of Texas Health Science Center at Houston | Q7896431 |
| P577 | publication date | 2010-10-05 | |
| | 2010-12-01 | |
| P1433 | published in | Journal of Occupational and Environmental Hygiene | Q15758376 |
| P859 | sponsor | National Institute for Occupational Safety and Health | Q60346 |
| P1476 | title | Occupational exposure to hazardous airborne pollutants: effects of air mixing and source location | |
| | Occupational Exposure to Hazardous Airborne Pollutants: Effects of Air Mixing and Source Location | |
| P478 | volume | 7 | |