Indoor Air
Overview
Indoor Air is a reputable scientific journal dedicated to the study of indoor air quality and its impact on human health and well-being. It publishes cutting-edge research articles, reviews, and technical notes that explore various aspects of indoor air pollution, ventilation, building design, and related topics. With a multidisciplinary approach, Indoor Air serves as a valuable resource for researchers, practitioners, and policymakers seeking to understand and improve the quality of the air we breathe indoors.
Details
Details
Abbr.
Indoor Air
Start
1991
End
Continuing
Frequency
Quarterly
p-ISSN
0905-6947
e-ISSN
1600-0668
Country
United Kingdom
Language
English
Specialty
Environmental Health
Metrics
Metrics
h-index / Ranks: 2085
125
SJR / Ranks: 3827
997
CiteScore / Ranks: 2254
8.00
JIF / Ranks: 1190
5.8
Recent Articles
11.
Foat T, Higgins B, Abbs C, Maishman T, Coldrick S, Kelsey A, et al.
Indoor Air
. 2022 Nov;
32(11):e13146.
PMID: 36437673
Computational fluid dynamics models have been developed to predict airborne exposure to the SARS-CoV-2 virus from a coughing person in a mechanically ventilated room. The models were run with three...
12.
Hu J, Liu Y, Ma Y, Gao M, Wan N, Li L, et al.
Indoor Air
. 2022 Nov;
32(11):e13124.
PMID: 36437672
Postpartum depression (PPD) is possibly caused by indoor air pollution and may be modified by maternal diet during pregnancy. Using the data from a prospective cohort study, we examined the...
13.
Oksanen L, Auvinen M, Kuula J, Malmgren R, Romantschuk M, Hyvarinen A, et al.
Indoor Air
. 2022 Nov;
32(11):e13165.
PMID: 36437671
COVID-19 has highlighted the need for indoor risk-reduction strategies. Our aim is to provide information about the virus dispersion and attempts to reduce the infection risk. Indoor transmission was studied...
14.
Eriksson A, Abera A, Malmqvist E, Isaxon C
Indoor Air
. 2022 Nov;
32(11):e13143.
PMID: 36437670
Household burning of solid biomass fuels emits pollution particles that are a huge health risk factor, especially in low-income countries (LICs) such as those in Sub-Saharan Africa. In epidemiological studies,...
15.
Baeza Romero M, Dudzinska M, Torkmahalleh M, Barros N, Coggins A, Ruzgar D, et al.
Indoor Air
. 2022 Nov;
32(11):e13144.
PMID: 36437669
Indoor air in residential dwellings can contain a variety of chemicals, sometimes present at concentrations or in combinations which can have a negative impact on human health. Indoor Air Quality...
16.
Tsapalov A, Kovler K
Indoor Air
. 2022 Nov;
32(11):e13166.
PMID: 36437668
There now exists a broad consensus among the European radon community members that long-term measurements are the best practice in managing the risk of indoor radon exposure. This, not with...
17.
Berquist J, Cassidy N, Touchie M, OBrien W, Fine J
Indoor Air
. 2022 Nov;
32(11):e13158.
PMID: 36437667
Ventilation system performance in high-rise multi-unit residential buildings (MURBs) has a significant impact on resident wellbeing. While the importance of ventilation is well established, it is commonly overlooked since underperformance...
18.
Yan Y, Zhang H, Kang M, Lan L, Wang Z, Lin Y
Indoor Air
. 2022 Nov;
32(11):e13159.
PMID: 36437666
This study investigated the effects of air temperature and ventilation on the sleep quality of elderly subjects and elucidated the mechanisms involved. Sixteen subjects aged over 65 years old were...
19.
Chen Z, Liu N, Tang H, Gao X, Zhang Y, Kan H, et al.
Indoor Air
. 2022 Nov;
32(11):e13170.
PMID: 36437665
The burden of disease attributed to the indoor exposure to sulfur dioxide (SO ), nitrogen dioxide (NO ), ozone (O ), and carbon monoxide (CO) is not clear, and the...
20.
Oh W, Ooka R, Kikumoto H, Han M
Indoor Air
. 2022 Nov;
32(11):e13171.
PMID: 36437664
In this study, we aimed at providing datasets using experimental results to validate the sneeze airflow. In addition, the boundary conditions for the sneeze simulation that could reproduce the sneeze...