Emissions Control Catalysis
The important advances achieved over the past years in all technological directions (industry, energy, and health) contributing to human well-being are unfortunately, in many cases, accompanied by a threat to the environment, with photochemical smog, stratospheric ozone depletion, acid rain, global...
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Yentekakis, Ioannis edt Emissions Control Catalysis Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020 1 electronic resource (448 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier The important advances achieved over the past years in all technological directions (industry, energy, and health) contributing to human well-being are unfortunately, in many cases, accompanied by a threat to the environment, with photochemical smog, stratospheric ozone depletion, acid rain, global warming, and finally climate change being the most well-known major issues. These are the results of a variety of pollutants emitted through these human activities. The indications show that we are already at a tipping point that might lead to non-linear and sudden environmental change on a global scale. Aiming to tackle these adverse effects in an attempt to mitigate any damage that has already occurred and to ensure that we are heading toward a cleaner (green) and sustainable future, scientists around the world are developing tools and techniques to understand, monitor, protect, and improve the environment. Emissions control catalysis is continuously advancing, providing novel, multifunctional, and optimally promoted using a variety of methods, nano-structured catalytic materials, and strategies (e.g., energy chemicals recycling, cyclic economy) that enable us to effectively control emissions, either of mobile or stationary sources, improving the quality of air (outdoor and indoor) and water and the energy economy. Representative cases include the abatement and/or recycling of CO2, CO, NOx, N2O, NH3, CH4, higher hydrocarbons, volatile organic compounds (VOCs), particulate matter, and specific industrial emissions (e.g., SOx, H2S, dioxins aromatics, and biogas). The “Emissions Control Catalysis” Special Issue has succeeded in collecting 22 high-quality contributions, included in this MDPI open access book, covering recent research progress in a variety of fields relevant to the above topics and/or applications, mainly on: (i) NOx catalytic reduction from cars (i.e., TWC) and industry (SCR) emissions; (ii) CO, CH4, and other hydrocarbons removal, and (iii) CO2 capture/recirculation combining emissions control with added-value chemicals production. English Research & information: general bicssc Environmental economics bicssc Pollution control bicssc LNT NSR NOx storage phosphorous deactivation poisoning electrochemical reduction CO2 CuO TiO2 ethanol cerium-doped titania sulfur-tolerant materials organic compounds purification diesel oxidation catalyst vehicle exhaust chemical looping reforming hydrogen oxygen carrier CeO2 nanorod selective catalytic reduction nitric oxide ammonia Cu/ZSM-5 cerium zirconium CO2 electroreduction CO2 valorization Cu catalyst particle size PEM acetaldehyde production methanol production Ce-based catalyst stepwise precipitation diesel exhaust nitrogen oxides abatement electrochemical promotion NEMCA palladium ionic promoter nanoparticles yttria-stabilized zirconia direct NO decomposition PGM oxide promotion PdO vs. PtO in-situ FT-IR NO adsorption properties redox properties sintered ore catalyst sulfate In-situ DRIFTS SCR copper-ceria catalysts hydrothermal method CO oxidation copper clusters nanoceria SOECs RWGS reaction kinetics Au-Mo-Fe-Ni/GDC electrodes high temperature H2O/CO2 co-electrolysis platinum Rhodium iridium NO N2O propene CO methane alkali alkaline earth platinum group metals deNOx chemistry lean burn conditions TWC catalyst promotion EPOC NH3-SCR nanostructure kinetics thermodynamics manganese oxides Co3O4 complete CH4 oxidation hydrothermal synthesis precipitation Pd/BEA Cold start Pd species NOx abatement ammonia oxidation response surface methodology desirability function Box-Behnken design carbon dioxide hydrogenation heterogeneous catalysis plasma catalysis value-added chemicals methanol synthesis methanation Catalyst (NH4)2SO4 deNOx H2O and SO2 poisoning low-temperature selective catalytic reduction de-NOx catalysis SO2/H2O tolerance transition metal-based catalysts perovskite catalytic coating cathodic sputtering method 3-03936-036-1 3-03936-037-X Vernoux, Philippe edt Yentekakis, Ioannis oth Vernoux, Philippe oth |
| language |
English |
| format |
eBook |
| author2 |
Vernoux, Philippe Yentekakis, Ioannis Vernoux, Philippe |
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Vernoux, Philippe Yentekakis, Ioannis Vernoux, Philippe |
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i y iy p v pv |
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HerausgeberIn Sonstige Sonstige |
| title |
Emissions Control Catalysis |
| spellingShingle |
Emissions Control Catalysis |
| title_full |
Emissions Control Catalysis |
| title_fullStr |
Emissions Control Catalysis |
| title_full_unstemmed |
Emissions Control Catalysis |
| title_auth |
Emissions Control Catalysis |
| title_new |
Emissions Control Catalysis |
| title_sort |
emissions control catalysis |
| publisher |
MDPI - Multidisciplinary Digital Publishing Institute |
| publishDate |
2020 |
| physical |
1 electronic resource (448 p.) |
| isbn |
3-03936-036-1 3-03936-037-X |
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