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Basics of Air Pollution: Sources and Monitoring delivers a comprehensive reference for those seeking understanding of air pollution basics, including sources, transformations, and effects. The book covers a full range of related topics¿from the very basics to the advanced level¿not typically found in other books on air pollution. The book explains concepts using case studies and offers good comprehensive understanding of air pollution sources, transformations and effects. The book offers relevant fundamental knowledge which can facilitate future in-depth studies aimed at solving real world problems.…mehr
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Basics of Air Pollution: Sources and Monitoring delivers a comprehensive reference for those seeking understanding of air pollution basics, including sources, transformations, and effects. The book covers a full range of related topics¿from the very basics to the advanced level¿not typically found in other books on air pollution. The book explains concepts using case studies and offers good comprehensive understanding of air pollution sources, transformations and effects. The book offers relevant fundamental knowledge which can facilitate future in-depth studies aimed at solving real world problems.
Produktdetails
- Produktdetails
- Verlag: Elsevier Health Sciences
- Seitenzahl: 350
- Erscheinungstermin: 1. Januar 2025
- Englisch
- ISBN-13: 9780443189432
- ISBN-10: 0443189439
- Artikelnr.: 64140017
- Verlag: Elsevier Health Sciences
- Seitenzahl: 350
- Erscheinungstermin: 1. Januar 2025
- Englisch
- ISBN-13: 9780443189432
- ISBN-10: 0443189439
- Artikelnr.: 64140017
Dr Kirpa Ram has a doctoral degree in Chemistry from Physical Research Laboratory (PRL), Ahmedabad and has specializations the field of atmospheric physics, air pollution and atmospheric chemistry. He has worked as a post-doctoral researcher at the University of Tokyo, Japan. After a short period of stay at IIT Bhubaneshwar and NEERI, Nagpur, and has been an Assistant Professor since March 2014 where he has been teaching atmospheric physics, air pollution and atmospheric chemistry to post-graduate and PhD scholars. Dr Kirpa is not only involved in teaching and research but also has been giving popular lectures to various academic as well as non-academic Institutions.
Section A: The Earth and its atmosphere Chapter 1: The Earth and evolution of its atmosphere Theories related to the evolution of Earth
s atmosphere, Uniqueness of Earth and its
s atmosphere (comparison of Earth
s atmosphere with other planets), Criterion for a habitable planet and its Environment, what makes Earth as a habitable planet? Importance of GHGs in the atmosphere, Comparison between present day atmosphere and past atmospheric composition, historic events (e.g., volcanic eruption) related to air pollution. Chapter 2: The atmosphere and its composition Structure and composition of atmosphere, Physical and chemical properties of atmosphere, Density and concentration profiles, meteorology, lapse rate, Equilibrium, moist vs dry air, thermal insulation: Tropical Nature
s creativity and Earth
s capability to cope up air pollution, if it becomes too much how it is going to react? Section B: Air pollution Chapter 3: Pre industrial and present air quality comparison. Air pollution-Types and sources, Urban vs rural air pollution with emphasis on road dust emission (Rural vs urban indoor: biomass burning vs cooking, deodorant), its impact on green belt (Plantation around the roads: which plants to be planted) and plant photosynthesis, Urban heat island effect, Indoor quality measurement, quality, development of indoor quality standards. Agencies responsible for monitoring and regulating air quality: NAAQS, EPA, WHO standards, WHO new guidelines, Indoor vs outdoor air pollution; Indian laws and act related to air pollution Chapter 4: Particulate air Pollutants: Aerosols: Atmospheric aerosols: source, sinks, removal mechanism; Size distribution, Importance and effect of aerosols, Importance and effect of aerosols, Chemical composition, source, budget of different types of aerosols. Carbonaceous aerosols: organic matter (OM = 1.6*OC) + Black carbon (BC), dust aerosols, brown carbon (BrC); Primary and secondary organic aerosol (POA and SOA) formations, chemistry and mechanisms; radiative forcing and climatic impact of aerosols, Biogenic and anthropogenic SOA, Bioaerosols: Types, classification and impacts Chapter 5: Gaseous air Pollutants: Emission sources of CO, SOx and NOx, lightening, oxidation chemistry, Stratospheric and tropospheric ozone, chemical formation, sinks, removal process; atmospheric burden, life time, Importance and effect of gaseous pollutants, secondary inorganic aerosol Volatile organic compounds (VOCs) emission and sources Section C: Atmospheric Chemistry, cloud, precipitation and climate Chapter 6: Atmospheric Chemistry Consequences of air pollution: Ozone hole, Chapman cycle, CFCs, smog formation, acid rain, greenhouse gas effect, global warming, feedback mechanisms Chapter 7: Impact of air pollution Human Health effects, environmental pollutants and occupational health hazard (lungs deposition, bronchitis, COPD, ophthalmic diseases and cancer etc), > reduction in photosynthesis) Effect of air pollution on flora and fauna of the ecosystems as well as Deposition of pollutants and their impact on nutrients cycling and soil composition): Himalayas, Indo-Burman, western Ghats, Sundaland), Reduction in efficiency of solar plants, Impact of air pollutants on gaseous cycles, Dust geochemistry, bioavailability of nutrients, Chemistry on BC surface, effect of air pollution on mangrove ecosystem. Nonliving things: Air pollution impact on monuments, decoloring of the Taj mahal and stone leprosy, material and structure (stone, fabrics, metals), economics of the country. Ocean: Deposition of particulates species (limiting nutrients such as Fe, P) and acidic species (HNO3, H2SO4) and its impact on Ocean pH, biogeochemistry Cryosphere: Antarctic, Arctic, Himalayas, snow albedo, melting of glaciers Mitigation policies, new developed technology, several case study, future goals Chapter 8: Aerosol and cloud interaction Aerosol and cloud interaction: Different types of clouds, cloud formation and precipitation, aerosols as CCN, impact of radiation budget (high vs low CCN), cloud inhibition, Chapter 9: Air pollution and climate change Climate relevant aerosols and GHGs, radiative forcing concept and global warming, Optical properties of aerosols such as black carbon (BC), organic matter (OM), SO4, NO3, MAE, SAE, absorption and scattering coefficient, single scattering albedo (SSA), Aerosol optical depth (AOD), Asymmetry factor, fine- and coarse-mode fraction (FMF and CMF) Section D: Monitoring and mitigation Chapter 10: Methods for measuring air pollution and mitigation Units and their application of pollutants in Environmental sciences, Offline methods for air pollution monitoring, problems in Offline methods and development of online systems, Sampling techniques for both gaseous and particulate matter, instruments used. PM: aerosol sampling, Gravimetric, beta attenuation, AOD, Absorption methods: BC aerosols, BrC Scattering optical methods: beta attenuation, AOD, Monitoring air pollutants and vertical profile using satellite instruments Fly ash and brick kilns, Use the details which I used for preparation of the lecture at ATRIA, Modeling theory and application Chapter 11: Mitigation of air pollution through technological advancement Ancient way to control air pollution, Air pollution and control techniques, mainly at emission sources in coal extraction, coal thermal plants, BS6 and alternative transport (electric vehicles, improved public transport, rope ways and metros), Development of cost-effective technologies (Biodiesel and biofuels) to combat air pollution. (Biodiesel and biofuels), Development of road side barriers, promoting alternative forms of energy.
s atmosphere, Uniqueness of Earth and its
s atmosphere (comparison of Earth
s atmosphere with other planets), Criterion for a habitable planet and its Environment, what makes Earth as a habitable planet? Importance of GHGs in the atmosphere, Comparison between present day atmosphere and past atmospheric composition, historic events (e.g., volcanic eruption) related to air pollution. Chapter 2: The atmosphere and its composition Structure and composition of atmosphere, Physical and chemical properties of atmosphere, Density and concentration profiles, meteorology, lapse rate, Equilibrium, moist vs dry air, thermal insulation: Tropical Nature
s creativity and Earth
s capability to cope up air pollution, if it becomes too much how it is going to react? Section B: Air pollution Chapter 3: Pre industrial and present air quality comparison. Air pollution-Types and sources, Urban vs rural air pollution with emphasis on road dust emission (Rural vs urban indoor: biomass burning vs cooking, deodorant), its impact on green belt (Plantation around the roads: which plants to be planted) and plant photosynthesis, Urban heat island effect, Indoor quality measurement, quality, development of indoor quality standards. Agencies responsible for monitoring and regulating air quality: NAAQS, EPA, WHO standards, WHO new guidelines, Indoor vs outdoor air pollution; Indian laws and act related to air pollution Chapter 4: Particulate air Pollutants: Aerosols: Atmospheric aerosols: source, sinks, removal mechanism; Size distribution, Importance and effect of aerosols, Importance and effect of aerosols, Chemical composition, source, budget of different types of aerosols. Carbonaceous aerosols: organic matter (OM = 1.6*OC) + Black carbon (BC), dust aerosols, brown carbon (BrC); Primary and secondary organic aerosol (POA and SOA) formations, chemistry and mechanisms; radiative forcing and climatic impact of aerosols, Biogenic and anthropogenic SOA, Bioaerosols: Types, classification and impacts Chapter 5: Gaseous air Pollutants: Emission sources of CO, SOx and NOx, lightening, oxidation chemistry, Stratospheric and tropospheric ozone, chemical formation, sinks, removal process; atmospheric burden, life time, Importance and effect of gaseous pollutants, secondary inorganic aerosol Volatile organic compounds (VOCs) emission and sources Section C: Atmospheric Chemistry, cloud, precipitation and climate Chapter 6: Atmospheric Chemistry Consequences of air pollution: Ozone hole, Chapman cycle, CFCs, smog formation, acid rain, greenhouse gas effect, global warming, feedback mechanisms Chapter 7: Impact of air pollution Human Health effects, environmental pollutants and occupational health hazard (lungs deposition, bronchitis, COPD, ophthalmic diseases and cancer etc), > reduction in photosynthesis) Effect of air pollution on flora and fauna of the ecosystems as well as Deposition of pollutants and their impact on nutrients cycling and soil composition): Himalayas, Indo-Burman, western Ghats, Sundaland), Reduction in efficiency of solar plants, Impact of air pollutants on gaseous cycles, Dust geochemistry, bioavailability of nutrients, Chemistry on BC surface, effect of air pollution on mangrove ecosystem. Nonliving things: Air pollution impact on monuments, decoloring of the Taj mahal and stone leprosy, material and structure (stone, fabrics, metals), economics of the country. Ocean: Deposition of particulates species (limiting nutrients such as Fe, P) and acidic species (HNO3, H2SO4) and its impact on Ocean pH, biogeochemistry Cryosphere: Antarctic, Arctic, Himalayas, snow albedo, melting of glaciers Mitigation policies, new developed technology, several case study, future goals Chapter 8: Aerosol and cloud interaction Aerosol and cloud interaction: Different types of clouds, cloud formation and precipitation, aerosols as CCN, impact of radiation budget (high vs low CCN), cloud inhibition, Chapter 9: Air pollution and climate change Climate relevant aerosols and GHGs, radiative forcing concept and global warming, Optical properties of aerosols such as black carbon (BC), organic matter (OM), SO4, NO3, MAE, SAE, absorption and scattering coefficient, single scattering albedo (SSA), Aerosol optical depth (AOD), Asymmetry factor, fine- and coarse-mode fraction (FMF and CMF) Section D: Monitoring and mitigation Chapter 10: Methods for measuring air pollution and mitigation Units and their application of pollutants in Environmental sciences, Offline methods for air pollution monitoring, problems in Offline methods and development of online systems, Sampling techniques for both gaseous and particulate matter, instruments used. PM: aerosol sampling, Gravimetric, beta attenuation, AOD, Absorption methods: BC aerosols, BrC Scattering optical methods: beta attenuation, AOD, Monitoring air pollutants and vertical profile using satellite instruments Fly ash and brick kilns, Use the details which I used for preparation of the lecture at ATRIA, Modeling theory and application Chapter 11: Mitigation of air pollution through technological advancement Ancient way to control air pollution, Air pollution and control techniques, mainly at emission sources in coal extraction, coal thermal plants, BS6 and alternative transport (electric vehicles, improved public transport, rope ways and metros), Development of cost-effective technologies (Biodiesel and biofuels) to combat air pollution. (Biodiesel and biofuels), Development of road side barriers, promoting alternative forms of energy.
Section A: The Earth and its atmosphere Chapter 1: The Earth and evolution of its atmosphere Theories related to the evolution of Earth
s atmosphere, Uniqueness of Earth and its
s atmosphere (comparison of Earth
s atmosphere with other planets), Criterion for a habitable planet and its Environment, what makes Earth as a habitable planet? Importance of GHGs in the atmosphere, Comparison between present day atmosphere and past atmospheric composition, historic events (e.g., volcanic eruption) related to air pollution. Chapter 2: The atmosphere and its composition Structure and composition of atmosphere, Physical and chemical properties of atmosphere, Density and concentration profiles, meteorology, lapse rate, Equilibrium, moist vs dry air, thermal insulation: Tropical Nature
s creativity and Earth
s capability to cope up air pollution, if it becomes too much how it is going to react? Section B: Air pollution Chapter 3: Pre industrial and present air quality comparison. Air pollution-Types and sources, Urban vs rural air pollution with emphasis on road dust emission (Rural vs urban indoor: biomass burning vs cooking, deodorant), its impact on green belt (Plantation around the roads: which plants to be planted) and plant photosynthesis, Urban heat island effect, Indoor quality measurement, quality, development of indoor quality standards. Agencies responsible for monitoring and regulating air quality: NAAQS, EPA, WHO standards, WHO new guidelines, Indoor vs outdoor air pollution; Indian laws and act related to air pollution Chapter 4: Particulate air Pollutants: Aerosols: Atmospheric aerosols: source, sinks, removal mechanism; Size distribution, Importance and effect of aerosols, Importance and effect of aerosols, Chemical composition, source, budget of different types of aerosols. Carbonaceous aerosols: organic matter (OM = 1.6*OC) + Black carbon (BC), dust aerosols, brown carbon (BrC); Primary and secondary organic aerosol (POA and SOA) formations, chemistry and mechanisms; radiative forcing and climatic impact of aerosols, Biogenic and anthropogenic SOA, Bioaerosols: Types, classification and impacts Chapter 5: Gaseous air Pollutants: Emission sources of CO, SOx and NOx, lightening, oxidation chemistry, Stratospheric and tropospheric ozone, chemical formation, sinks, removal process; atmospheric burden, life time, Importance and effect of gaseous pollutants, secondary inorganic aerosol Volatile organic compounds (VOCs) emission and sources Section C: Atmospheric Chemistry, cloud, precipitation and climate Chapter 6: Atmospheric Chemistry Consequences of air pollution: Ozone hole, Chapman cycle, CFCs, smog formation, acid rain, greenhouse gas effect, global warming, feedback mechanisms Chapter 7: Impact of air pollution Human Health effects, environmental pollutants and occupational health hazard (lungs deposition, bronchitis, COPD, ophthalmic diseases and cancer etc), > reduction in photosynthesis) Effect of air pollution on flora and fauna of the ecosystems as well as Deposition of pollutants and their impact on nutrients cycling and soil composition): Himalayas, Indo-Burman, western Ghats, Sundaland), Reduction in efficiency of solar plants, Impact of air pollutants on gaseous cycles, Dust geochemistry, bioavailability of nutrients, Chemistry on BC surface, effect of air pollution on mangrove ecosystem. Nonliving things: Air pollution impact on monuments, decoloring of the Taj mahal and stone leprosy, material and structure (stone, fabrics, metals), economics of the country. Ocean: Deposition of particulates species (limiting nutrients such as Fe, P) and acidic species (HNO3, H2SO4) and its impact on Ocean pH, biogeochemistry Cryosphere: Antarctic, Arctic, Himalayas, snow albedo, melting of glaciers Mitigation policies, new developed technology, several case study, future goals Chapter 8: Aerosol and cloud interaction Aerosol and cloud interaction: Different types of clouds, cloud formation and precipitation, aerosols as CCN, impact of radiation budget (high vs low CCN), cloud inhibition, Chapter 9: Air pollution and climate change Climate relevant aerosols and GHGs, radiative forcing concept and global warming, Optical properties of aerosols such as black carbon (BC), organic matter (OM), SO4, NO3, MAE, SAE, absorption and scattering coefficient, single scattering albedo (SSA), Aerosol optical depth (AOD), Asymmetry factor, fine- and coarse-mode fraction (FMF and CMF) Section D: Monitoring and mitigation Chapter 10: Methods for measuring air pollution and mitigation Units and their application of pollutants in Environmental sciences, Offline methods for air pollution monitoring, problems in Offline methods and development of online systems, Sampling techniques for both gaseous and particulate matter, instruments used. PM: aerosol sampling, Gravimetric, beta attenuation, AOD, Absorption methods: BC aerosols, BrC Scattering optical methods: beta attenuation, AOD, Monitoring air pollutants and vertical profile using satellite instruments Fly ash and brick kilns, Use the details which I used for preparation of the lecture at ATRIA, Modeling theory and application Chapter 11: Mitigation of air pollution through technological advancement Ancient way to control air pollution, Air pollution and control techniques, mainly at emission sources in coal extraction, coal thermal plants, BS6 and alternative transport (electric vehicles, improved public transport, rope ways and metros), Development of cost-effective technologies (Biodiesel and biofuels) to combat air pollution. (Biodiesel and biofuels), Development of road side barriers, promoting alternative forms of energy.
s atmosphere, Uniqueness of Earth and its
s atmosphere (comparison of Earth
s atmosphere with other planets), Criterion for a habitable planet and its Environment, what makes Earth as a habitable planet? Importance of GHGs in the atmosphere, Comparison between present day atmosphere and past atmospheric composition, historic events (e.g., volcanic eruption) related to air pollution. Chapter 2: The atmosphere and its composition Structure and composition of atmosphere, Physical and chemical properties of atmosphere, Density and concentration profiles, meteorology, lapse rate, Equilibrium, moist vs dry air, thermal insulation: Tropical Nature
s creativity and Earth
s capability to cope up air pollution, if it becomes too much how it is going to react? Section B: Air pollution Chapter 3: Pre industrial and present air quality comparison. Air pollution-Types and sources, Urban vs rural air pollution with emphasis on road dust emission (Rural vs urban indoor: biomass burning vs cooking, deodorant), its impact on green belt (Plantation around the roads: which plants to be planted) and plant photosynthesis, Urban heat island effect, Indoor quality measurement, quality, development of indoor quality standards. Agencies responsible for monitoring and regulating air quality: NAAQS, EPA, WHO standards, WHO new guidelines, Indoor vs outdoor air pollution; Indian laws and act related to air pollution Chapter 4: Particulate air Pollutants: Aerosols: Atmospheric aerosols: source, sinks, removal mechanism; Size distribution, Importance and effect of aerosols, Importance and effect of aerosols, Chemical composition, source, budget of different types of aerosols. Carbonaceous aerosols: organic matter (OM = 1.6*OC) + Black carbon (BC), dust aerosols, brown carbon (BrC); Primary and secondary organic aerosol (POA and SOA) formations, chemistry and mechanisms; radiative forcing and climatic impact of aerosols, Biogenic and anthropogenic SOA, Bioaerosols: Types, classification and impacts Chapter 5: Gaseous air Pollutants: Emission sources of CO, SOx and NOx, lightening, oxidation chemistry, Stratospheric and tropospheric ozone, chemical formation, sinks, removal process; atmospheric burden, life time, Importance and effect of gaseous pollutants, secondary inorganic aerosol Volatile organic compounds (VOCs) emission and sources Section C: Atmospheric Chemistry, cloud, precipitation and climate Chapter 6: Atmospheric Chemistry Consequences of air pollution: Ozone hole, Chapman cycle, CFCs, smog formation, acid rain, greenhouse gas effect, global warming, feedback mechanisms Chapter 7: Impact of air pollution Human Health effects, environmental pollutants and occupational health hazard (lungs deposition, bronchitis, COPD, ophthalmic diseases and cancer etc), > reduction in photosynthesis) Effect of air pollution on flora and fauna of the ecosystems as well as Deposition of pollutants and their impact on nutrients cycling and soil composition): Himalayas, Indo-Burman, western Ghats, Sundaland), Reduction in efficiency of solar plants, Impact of air pollutants on gaseous cycles, Dust geochemistry, bioavailability of nutrients, Chemistry on BC surface, effect of air pollution on mangrove ecosystem. Nonliving things: Air pollution impact on monuments, decoloring of the Taj mahal and stone leprosy, material and structure (stone, fabrics, metals), economics of the country. Ocean: Deposition of particulates species (limiting nutrients such as Fe, P) and acidic species (HNO3, H2SO4) and its impact on Ocean pH, biogeochemistry Cryosphere: Antarctic, Arctic, Himalayas, snow albedo, melting of glaciers Mitigation policies, new developed technology, several case study, future goals Chapter 8: Aerosol and cloud interaction Aerosol and cloud interaction: Different types of clouds, cloud formation and precipitation, aerosols as CCN, impact of radiation budget (high vs low CCN), cloud inhibition, Chapter 9: Air pollution and climate change Climate relevant aerosols and GHGs, radiative forcing concept and global warming, Optical properties of aerosols such as black carbon (BC), organic matter (OM), SO4, NO3, MAE, SAE, absorption and scattering coefficient, single scattering albedo (SSA), Aerosol optical depth (AOD), Asymmetry factor, fine- and coarse-mode fraction (FMF and CMF) Section D: Monitoring and mitigation Chapter 10: Methods for measuring air pollution and mitigation Units and their application of pollutants in Environmental sciences, Offline methods for air pollution monitoring, problems in Offline methods and development of online systems, Sampling techniques for both gaseous and particulate matter, instruments used. PM: aerosol sampling, Gravimetric, beta attenuation, AOD, Absorption methods: BC aerosols, BrC Scattering optical methods: beta attenuation, AOD, Monitoring air pollutants and vertical profile using satellite instruments Fly ash and brick kilns, Use the details which I used for preparation of the lecture at ATRIA, Modeling theory and application Chapter 11: Mitigation of air pollution through technological advancement Ancient way to control air pollution, Air pollution and control techniques, mainly at emission sources in coal extraction, coal thermal plants, BS6 and alternative transport (electric vehicles, improved public transport, rope ways and metros), Development of cost-effective technologies (Biodiesel and biofuels) to combat air pollution. (Biodiesel and biofuels), Development of road side barriers, promoting alternative forms of energy.