Further evidence on environmental impacts of carbon monoxide from portable power generator on indoor air quality

• Main Authors: Ismail Babatunde Adefeso, Jacob Ademola Sonibare, Yusuf Markafi Isa
• Format: Article
• Language: English
• Published: Taylor & Francis Group 2020-01-01
• Series: Cogent Engineering
• Subjects: carbon monoxide; indoor air quality; emission factors; indoor activities; standby electricity generator; co-poisoning; indoor air quality model
• Online Access: http://dx.doi.org/10.1080/23311916.2020.1809771

The indoor air quality (IAQ) is paramount to the existence of humans considering the amount of time spent indoors. The indoor pollutant levels may be 100 times the levels outdoors. The indoor pollutants need to be considered to enhance better IAQ. This study determined the emission factors of carbon monoxide (CO) emitted from a standby electricity generator (SEG). It evaluated the impacts of CO concentrations on indoor air quality and identified appropriate ways to mitigate the CO concentrations. The indoor CO concentration was determined by simulating a number of scenarios of SEG operated outdoor using a Simulation Tool Kit for Indoor Air Quality and Inhalation Exposure (IAQX) model. Hourly measurements of mean CO concentrations in the ambient environment and wind speed were conducted for four weeks in four field locations. The emission rate of CO from the standby electricity generator was measured. The CO concentration from SEG was 2.4289 × 104 mg/m3, a very high CO concentration. The CO emission factors were obtained as 2.2366 × 103 kg/m3 of fuel consumed and 9.5411 × 106 kg/hr of activity. High CO concentrations were obtained in microenvironments from the scenarios 1.28 × 104 mg/m3, 4.78 × 103 mg/m3, 4.79 × 104 mg/m3 and 9.58 × 104 mg/m3. The results showed that a high air exchange rate allowed CO concentrations to decay fast while low air exchange rates created an accumulation of CO concentrations indoor.