Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Air, 4. Pollution Monitoring
View through CrossRef
AbstractThe article contains sections titled:1.Introduction2.Measurement Planning2.1.Types of Air Pollution Monitoring2.2.Planning of Pollution Measurements2.2.1.Measurement Networks (General Air Pollution Monitoring)2.2.2.Evaluation of Data; Period and Frequency of Measurements2.2.3.Planning Measurements on Industrial Plants3.Quality Assurance3.1.Procedure‐Based Methods3.2.User‐Based Methods4.Measuring Methods4.1.Measuring Methods for Inorganic Gases4.1.1.Automatic Measuring Methods4.1.2.Calibration of Automatic Measuring Methods4.1.3.Manual Methods4.2.Measurement and Analysis of Particulate Atmospheric Impurities4.2.1.Measurement of Particle Mass and Particle Fractions4.2.2.Measurement of Particle Numbers and Size Distributions4.2.3.Measurement of Inorganic Components in Suspended Particle Matter4.2.3.1.Measurement of Major Ionic Compounds in Suspended Particulate Matter4.2.3.2.Measurement of Heavy Metals and Metalloid Compounds in Suspended Particulate Matter4.2.3.3.Measurement of Soot (Elemental Carbon)4.2.3.4.Measurement of Fibers4.3.Measurement of Deposition4.3.1.Measurement of Total (Bulk) Deposition4.3.2.Measurement of Wet Deposition4.3.3.Special Sampling Devices for Deposition Measurements4.3.4.Analysis4.4.Optical Methods of Remote Measurement4.4.1.Fourier Transform Infrared Spectroscopy4.4.2.Differential Optical Absorption Spectroscopy4.4.3.Long‐Path‐Length Absorption Spectroscopy with Tunable Diode Lasers4.4.4.Differential Adsorption LIDAR4.4.5.Correlation Spectroscopy and Gas Filter Correlation Spectroscopy4.4.6.Significance of Remote Measurement Methods4.4.7.Measurement of Unstable Trace Substances4.5.Measurement of Organic Atmospheric Pollutants4.5.1.Overview4.5.2.Summation Methods (Total‐C Measurements)4.5.3.Chromatographic Methods4.5.3.1.Chromatographic Methods for Volatile Organic Compounds (VOCs)4.5.3.2.Chromatographic Methods for Low‐Volatility Organic Compounds4.5.3.3.Determination of Organic Compounds with Functional Groups4.6.Olfactometric Methods4.7.Screening Measurements
Title: Air, 4. Pollution Monitoring
Description:
AbstractThe article contains sections titled:1.
Introduction2.
Measurement Planning2.
1.
Types of Air Pollution Monitoring2.
2.
Planning of Pollution Measurements2.
2.
1.
Measurement Networks (General Air Pollution Monitoring)2.
2.
2.
Evaluation of Data; Period and Frequency of Measurements2.
2.
3.
Planning Measurements on Industrial Plants3.
Quality Assurance3.
1.
Procedure‐Based Methods3.
2.
User‐Based Methods4.
Measuring Methods4.
1.
Measuring Methods for Inorganic Gases4.
1.
1.
Automatic Measuring Methods4.
1.
2.
Calibration of Automatic Measuring Methods4.
1.
3.
Manual Methods4.
2.
Measurement and Analysis of Particulate Atmospheric Impurities4.
2.
1.
Measurement of Particle Mass and Particle Fractions4.
2.
2.
Measurement of Particle Numbers and Size Distributions4.
2.
3.
Measurement of Inorganic Components in Suspended Particle Matter4.
2.
3.
1.
Measurement of Major Ionic Compounds in Suspended Particulate Matter4.
2.
3.
2.
Measurement of Heavy Metals and Metalloid Compounds in Suspended Particulate Matter4.
2.
3.
3.
Measurement of Soot (Elemental Carbon)4.
2.
3.
4.
Measurement of Fibers4.
3.
Measurement of Deposition4.
3.
1.
Measurement of Total (Bulk) Deposition4.
3.
2.
Measurement of Wet Deposition4.
3.
3.
Special Sampling Devices for Deposition Measurements4.
3.
4.
Analysis4.
4.
Optical Methods of Remote Measurement4.
4.
1.
Fourier Transform Infrared Spectroscopy4.
4.
2.
Differential Optical Absorption Spectroscopy4.
4.
3.
Long‐Path‐Length Absorption Spectroscopy with Tunable Diode Lasers4.
4.
4.
Differential Adsorption LIDAR4.
4.
5.
Correlation Spectroscopy and Gas Filter Correlation Spectroscopy4.
4.
6.
Significance of Remote Measurement Methods4.
4.
7.
Measurement of Unstable Trace Substances4.
5.
Measurement of Organic Atmospheric Pollutants4.
5.
1.
Overview4.
5.
2.
Summation Methods (Total‐C Measurements)4.
5.
3.
Chromatographic Methods4.
5.
3.
1.
Chromatographic Methods for Volatile Organic Compounds (VOCs)4.
5.
3.
2.
Chromatographic Methods for Low‐Volatility Organic Compounds4.
5.
3.
3.
Determination of Organic Compounds with Functional Groups4.
6.
Olfactometric Methods4.
7.
Screening Measurements.
Related Results
Røgplagen eller den snigende død. Luftforurening og sundhed i København, ca. 1920-2020
Røgplagen eller den snigende død. Luftforurening og sundhed i København, ca. 1920-2020
“The Smoke Nuisance” or “The Insidious Death”: Air Pollution and Health in Copenhagen, c. 1920–2020The perception and handling of air pollution in Copenhagen between c. 1920–2020 c...
Abstract CN08-03: How does air pollution cause cancer?
Abstract CN08-03: How does air pollution cause cancer?
Abstract
In October 2013, the International Agency for Research on Cancer (IARC) evaluated outdoor air pollution and associated particulate matter (PM) as group 1 (k...
Can we clean up the earth?
Can we clean up the earth?
Introduction: Contamination causes undue risks to society, ecosystems, water and soil resources, and threatens the viability of many industries1,2. As well as affecting soil, surfa...
Evaluation of Physiological and Biochemical Responses of Air Pollution in Selected Plant Species around Industrial Premises of Malappuram District, Kerala
Evaluation of Physiological and Biochemical Responses of Air Pollution in Selected Plant Species around Industrial Premises of Malappuram District, Kerala
Air pollution impact on various physiological and biochemical parameters of fifteen plant species around industrial premises of Malappuram district, Kerala were investigated. The p...
Impacts of air pollution on respiratory symptoms and pulmonary functions among public drivers in Chiang Mai
Impacts of air pollution on respiratory symptoms and pulmonary functions among public drivers in Chiang Mai
Objectives To explore differences in pulmonary functions, respiratory symptoms and related factors among public commercial drivers between periods of high and low air pollution. ...
Cardiovascular disease mortality and air pollution in countries with different socioeconomic status
Cardiovascular disease mortality and air pollution in countries with different socioeconomic status
AbstractBackgroundCardiovascular diseases (CVDs) account for 17.9 million deaths annually. Behavioral risk factors increase the risk of dying from CVD. Air pollution is not include...
Unveiling the association between air pollution and cardiovascular diseases: the silent threat to heart health
Unveiling the association between air pollution and cardiovascular diseases: the silent threat to heart health
Cardiovascular diseases (CVDs) remain the leading cause of death worldwide, accounting for about 17.9 million deaths annually—making up roughly 31–32% of all global deaths (1, 2). ...
Impact of Sawmill Industry on Ambient Air Quality: A Case Study of Ilorin Metropolis, Kwara State, Nigeria
Impact of Sawmill Industry on Ambient Air Quality: A Case Study of Ilorin Metropolis, Kwara State, Nigeria
Amid sawmill busy lives, air pollution is one of the greatest casualties of our time and has increased worldwide since 1990. Today, the history of air pollution in sawmills account...