Cover Image

Chapter Schistosomiasis: Setting Routes for Drug Discovery

Show other versions (1)

Air quality sampling campaigns in three European subway systems (Barcelona, Athens and Oporto) were conducted in order to characterise particulate matter (PM) to better understand the main factors controlling it. PM mass concentrations varied among the European subway platforms, and also within the...

Full description

Saved in:
Bibliographic Details
Main Author: Tavares, Naiara Clemente (auth)
Other Authors: Aguiar, Pedro Henrique Nascimento de (auth), Gava, Sandra Grossi (auth), Oliveira, Guilherme (auth), Mourão, Marina Moraes (auth)
Format: Electronic Book Chapter
Language:English
Published: InTechOpen 2016
Subjects:
Transport technology & trades
metro, platforms, trains, subway aerosol, indoor air quality, exposure, commuting
Online Access:OAPEN Library: download the publication
OAPEN Library: description of the publication
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Air quality sampling campaigns in three European subway systems (Barcelona, Athens and Oporto) were conducted in order to characterise particulate matter (PM) to better understand the main factors controlling it. PM mass concentrations varied among the European subway platforms, and also within the same underground system, this being mainly associated to differences in the design of the stations and tunnels, system age, train frequency, ventilation and air‐conditioning systems, commuter's density, rails geometry and outdoor air quality. PM concentrations displayed clear diurnal patterns, depending largely on the operation and frequency of the trains and the ventilation system. Chemically, subway PM2.5 on the platforms consisted of iron, carbonaceous material, crustal matter, secondary inorganic compounds, insoluble sulphate, halite and trace elements. Fe was the most abundant element, accounting for 19-46% of the bulk PM2.5, which is generated mainly from mechanical wear at rail‐wheel‐brake interfaces. A source apportionment analysis allowed the identification of outdoor (sea salt, fuel‐oil combustion and secondary aerosol) and subway sources on platforms. The use of air‐conditioning inside the trains was an effective approach to reduce exposure concentrations, being more efficient removing coarser particles. PM concentrations inside the trains were greatly affected by the surrounding (i.e. platforms and tunnels) air quality conditions.
ISBN:65386
Access:Open Access

Similar Items