Exhaled Carbon Dioxide as a Physiological Source of Deterioration of Indoor Air Quality in Non-Industrial Environments: Influence of Air Temperature

Angelova, Radostina A.; Markov, Detelin; Stankov, Peter

doi:10.3390/en14238127

Cited by 5 publications

(7 citation statements)

References 29 publications

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“…On the contrary, the simulation by Wang et al 54 that focused on the CO 2 concentration in a personalized work environment (PWE) showed that the inhaled CO 2 concentration was higher than the volume‐averaged concentration over time, which could be caused by upward flow towards the ceiling. Angelova et al 38–40 also indicated that a region of high CO 2 concentration (1200 ppm and above) was formed in front of the occupant's head when there was downward flow from the ceiling, and they assumed that the inhaled CO 2 concentration differed from the CO 2 concentration measured at both the inlet and outlet of the chamber. Thus, the flow field in the breathing zone and the locations of the outdoor supply inlet and exhaust outlet strongly affect the inhaled CO 2 concentration.…”

Section: Resultsmentioning

confidence: 99%

“…showed that the inhaled CO 2 concentration was higher than the volume-averaged concentration over time, which could be caused by upward flow towards the ceiling. Angelova et al [38][39][40]…”

Section: Inhaled Co 2 Concentrationmentioning

confidence: 99%

“…For this purpose, CSPs incorporating a computational fluid dynamics (CFD) approach were developed because they make it possible to simulate the non-uniform airflow pattern and temperature distribution surrounding the human body indoors, together with CO 2 emissions from breathing. [32][33][34][35][36][37][38][39][40] Bulińska and Buliński 35 analyzed three different breathing models that simulate a micro-environment around the human body, particularly the CO 2 concentration distribution emitted by a sleeping person. They confirmed that complete breathing with inhalation and exhalation should be included in an accurate prediction of contaminant transport from humans.…”

Section: Introductionmentioning

confidence: 99%

“…Prediction of human CO 2 emissions during continuous breathing with inhalation and exhalation modes requires reliable modeling of human interaction with the ambient indoor environment. For this purpose, CSPs incorporating a computational fluid dynamics (CFD) approach were developed because they make it possible to simulate the non‐uniform airflow pattern and temperature distribution surrounding the human body indoors, together with CO 2 emissions from breathing 32–40 . Bulińska and Buliński 35 analyzed three different breathing models that simulate a micro‐environment around the human body, particularly the CO 2 concentration distribution emitted by a sleeping person.…”

Section: Introductionmentioning

confidence: 99%

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Prediction of exhaled carbon dioxide concentration using a computer‐simulated person that included alveolar gas exchange

et al. 2022

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Accurate prediction of inhaled CO 2 concentration and alveolar gas exchange efficiency would improve the prediction of CO 2 concentrations around the human body, which is essential for advanced ventilation design in buildings. We therefore, developed a computer-simulated person (CSP) that included a computational fluid dynamics approach. The CSP simulates metabolic heat production at the skin surface and carbon dioxide (CO 2 ) gas exchange at the alveoli during the transient breathing cycle. This makes it possible to predict the CO 2 distribution around the human body. The numerical model of the CO 2 gas exchange mechanism includes both the upper and lower airways and makes it possible to calculate the alveolar CO 2 partial pressure; this improves the prediction accuracy. We used the CSP to predict emission rates of metabolically generated CO 2 exhaled by a person and assumed that the tidal volume will be unconsciously reduced as a result of exposure to poor indoor air quality. A reduction in tidal volume resulted in a decrease in CO 2 emission rates of the same magnitude as was observed in our published experimental data. We also observed that the predicted inhaled CO 2 concentration depended on the flow pattern around the human body, as would be expected.

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Section: Resultsmentioning

confidence: 99%

Section: Inhaled Co 2 Concentrationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Prediction of exhaled carbon dioxide concentration using a computer‐simulated person that included alveolar gas exchange

et al. 2022

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“…9). Angelova et al [12] also found that carbon dioxide emissions from the human body will increase when air temperature in the indoor environment increased. Therefore, the fact that the air temperature in the bedrooms on summer nights was higher than that on winter nights may explain why the CO2 concentration in the bedrooms was higher on summer nights.…”

Section: Discussionmentioning

confidence: 98%

Field Measurements of Bedroom Environment in Winter and Summer on Qinghai-Tibet Plateau

Zhang

Li²,

Yan³

et al. 2022

E3S Web Conf.

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Field measurements of the bedroom environment on Qinghai-Tibet Plateau was conducted by continuously measuring the air temperature, relative humidity, and CO2 concentration in the bedrooms of 197 residents (100 in winter and 97 in summer) for 7 days. And the daily environmental controls of residents were recorded. The results showed that the night-time thermal environment in bedrooms on the Qinghai-Tibet Plateau was more warmer and wetter in summer than in winter, but the CO2 concentration was lower in winter. On both winter and summer nights, drops in air temperature, relative humidity and CO2 concentration in the bedrooms were found when doors or windows were opened, increases in relative humidity and CO2 concentration in bedrooms were found when there were more occupants in the bedrooms. This study also found there was a greater reduction of CO2 concentrations when doors or windows were opened in the bedrooms of multiple occupants compared to the bedrooms of a single occupant. And on winter nights, the humidity increase in the bedrooms caused by the action of the humidifier was not affected by the status of doors and windows.

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Reversible decentralized ventilation: Experimental determination of efficiency by carbon dioxide level

Monarkin

2023

Journal of Building Engineering

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Exhaled Carbon Dioxide as a Physiological Source of Deterioration of Indoor Air Quality in Non-Industrial Environments: Influence of Air Temperature

Cited by 5 publications

References 29 publications

Prediction of exhaled carbon dioxide concentration using a computer‐simulated person that included alveolar gas exchange

Prediction of exhaled carbon dioxide concentration using a computer‐simulated person that included alveolar gas exchange

Field Measurements of Bedroom Environment in Winter and Summer on Qinghai-Tibet Plateau

Reversible decentralized ventilation: Experimental determination of efficiency by carbon dioxide level

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