Results of this study confirm that mechanical ventilation with filtration can significantly reduce indoor particle levels compared with natural ventilation. The I/O ratios of particles substantially varied at the naturally ventilated apartments because of the influence of variable window opening conditions and unsteadiness of wind flow on the penetration of outdoor air particles. For better prediction of the exposure to outdoor particles in naturally ventilated residential buildings, it is important to understand the penetration of outdoor particles with variable window opening conditions.
The results of this experiment show that ventilation had positive impacts on perceived air quality and work performance for the subjects tested. Work performance logarithmically increased by approximately 2.5-5% as ventilation rates were increased from 5 to 20 l/s per person. The positive effect of ventilation rate on work performance was shown to be limited at the low ventilation rate. The positive effects on work performance were at lower ventilation rates. The learning effect in repeated work performance tasks could increase the uncertainty of the work performance analysis in 8-h exposure period.
Occupants often encounter not just one compound in indoor environments, but many compounds due to their concurrent emissions from several sources. This paper describes characteristics of statistical distributions for concentrations of 17 VOCs and 11 aldehydes in homes in Japan. After applying a probability model to the occupants' simultaneous exposure to mixtures of organic compounds, the authors interpret the current state of the occupant's exposure to the mixtures within homes using joint probability distributions of 28 organic compounds.
The mixed-state superconducting properties of bulk
MgB2+2 at.%TiO2, prepared by the in situ solid state reaction, have been investigated. The
high-resolution transmission electron microscopy study reveals that the sample
has combined microstructures, consisting of regions with small- and large-size
MgB2
grains, and the MgO inclusions. The particular grains are separated by thin
TiB2 interlayers
along the c
axis. Analysis on the mixed-state parameters, such as the upper critical
field, the coherence length and the Ginzburg–Landau parameter
κ, proves that
the MgB2+2 at.% TiO2 belongs
to a high-κ
type-II superconductor in the dirty limit. The non-uniformly scaled microstructure results
in an unusual (close to the double peak) magnetic field dependence of the pinning force
density. The field-cooled temperature dependence of magnetic moment exhibits a
transition of the sample to the paramagnetic state at certain applied magnetic fields,
which is treated as a manifestation of the paramagnetic Meissner effect. The
experimental results are discussed on the basis of modern theoretical approaches.
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