Publication detail
An overview of mercury emissions in the energy industry - A step to mercury footprint assessment
CHARVÁT, P. KLIMEŠ, L. POSPÍŠIL, J. KLEMEŠ, J. VARBANOV, P.
English title
An overview of mercury emissions in the energy industry - A step to mercury footprint assessment
Type
journal article in Web of Science
Language
en
Original abstract
The energy industry is currently the second largest anthropogenic source of mercury pollution worldwide, and in many countries, it is by far the largest anthropogenic source of mercury emissions. Mercury emissions can be traced to almost the entire energy industry value chain. Combustion of coal is the primary source of mercury emissions in energy production. Biomass, which is considered a renewable fuel, is also a source of atmospheric mercury emissions. A general trend from landfill waste disposal to waste incineration can be observed in many countries, but waste-to-energy incineration is also a source of mercury emissions. The increased mercury levels have been recorded in fish living in the reservoirs for hydroelectricity. The adverse effects of mercury exposure on human health have been indicated in a number of studies, and there seems to be no ‘zero effect’ exposure level. As a result, the mitigation of mercury emissions is gaining more and more attention. The overview creates the base for further research for quantification of the effect of mercury emissions on the environment and on human health, which can be expressed and quantified by Mercury Footprints.
English abstract
The energy industry is currently the second largest anthropogenic source of mercury pollution worldwide, and in many countries, it is by far the largest anthropogenic source of mercury emissions. Mercury emissions can be traced to almost the entire energy industry value chain. Combustion of coal is the primary source of mercury emissions in energy production. Biomass, which is considered a renewable fuel, is also a source of atmospheric mercury emissions. A general trend from landfill waste disposal to waste incineration can be observed in many countries, but waste-to-energy incineration is also a source of mercury emissions. The increased mercury levels have been recorded in fish living in the reservoirs for hydroelectricity. The adverse effects of mercury exposure on human health have been indicated in a number of studies, and there seems to be no ‘zero effect’ exposure level. As a result, the mitigation of mercury emissions is gaining more and more attention. The overview creates the base for further research for quantification of the effect of mercury emissions on the environment and on human health, which can be expressed and quantified by Mercury Footprints.
Keywords in English
Energy industry, Mercury emissions, Mercury removal methods, Mercury footprint
Released
10.09.2020
Publisher
Elsevier
ISSN
0959-6526
Volume
267
Number
1
Pages from–to
1–11
Pages count
11
BIBTEX
@article{BUT164320,
author="Pavel {Charvát} and Lubomír {Klimeš} and Jiří {Pospíšil} and Jiří {Klemeš} and Petar Sabev {Varbanov},
title="An overview of mercury emissions in the energy industry – A step to mercury footprint assessment",
year="2020",
volume="267",
number="1",
month="September",
pages="1--11",
publisher="Elsevier",
issn="0959-6526"
}