SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3048508027> ?p ?o ?g. }

Showing items 1 to 100 of ±127 with 100 items per page.

W3048508027 endingPage "852" @default.
W3048508027 startingPage "852" @default.
W3048508027 abstract "In China, as the major source of energy consumption and air pollutant emissions, the power industry is not only the principal force that bears the responsibility of national emission reduction targets but also a breakthrough that reflects the effectiveness of emission reduction. In this study, based on the integrated MARKAL-EFOM system (TIMES) model and scenario analysis method, a bottom-up energy system optimization model for the power industry was established, and four scenarios with different constraints were set up to predict and analyze the power demand and the energy consumption structure. Emission characteristics, emission reduction characteristics, and emission reduction cost of sulfur dioxide (SO2), nitrogen oxide (NOX), particulate matter 2.5 (PM2.5), and mercury (Hg) were quantitatively studied. Finally, for the environmentally friendly development and optimal adjustment of power production systems in China, the control path in the power industry that is conducive to the emission reduction of air pollutants was obtained, which is of great significance for the ultimate realization of climate friendliness. The results demonstrate that from 2020 to 2050, the power demand of the terminal departments will increase, with the composition significantly changed. The focus of power demand will change from industry to the service industry gradually. If no additional targeted emission reduction or adjustment policies are added in the power industry, the primary energy and air pollutant emissions will increase significantly, putting great pressure on resources and the environment. For the emission reduction of air pollutants, the promotion effect of emission reduction measures, such as the implementation and promotion of non-fossil fuels, is restricted. The power industry can introduce and maximize the best available technologies while optimizing the structure of energy consumption to realize efficient emission reduction of air pollutants and energy conservation. In 2030, emissions will reach peak values with reasonable emission reduction cost. This has the additional effect of abating energy consumption and preventing deterioration of the ecological environment, which is of profound significance for the ultimate realization of climate friendliness." @default.
W3048508027 created "2020-08-18" @default.
W3048508027 creator A5000234334 @default.
W3048508027 creator A5008132724 @default.
W3048508027 creator A5033673973 @default.
W3048508027 creator A5034822034 @default.
W3048508027 creator A5035443305 @default.
W3048508027 date "2020-08-12" @default.
W3048508027 modified "2023-09-25" @default.
W3048508027 title "An Air Pollutant Emission Reduction Path of China’s Power Industry" @default.
W3048508027 cites W1966895504 @default.
W3048508027 cites W1976802266 @default.
W3048508027 cites W1995702510 @default.
W3048508027 cites W2089798654 @default.
W3048508027 cites W2192895533 @default.
W3048508027 cites W2388703240 @default.
W3048508027 cites W2406283676 @default.
W3048508027 cites W2515428923 @default.
W3048508027 cites W2774165502 @default.
W3048508027 cites W2778061148 @default.
W3048508027 cites W2802546437 @default.
W3048508027 cites W2810239311 @default.
W3048508027 cites W2810480515 @default.
W3048508027 cites W2894174409 @default.
W3048508027 cites W2900198061 @default.
W3048508027 cites W2911039501 @default.
W3048508027 cites W2925364786 @default.
W3048508027 cites W2942830063 @default.
W3048508027 cites W2947139135 @default.
W3048508027 cites W2948006906 @default.
W3048508027 cites W2971498716 @default.
W3048508027 cites W2977565523 @default.
W3048508027 cites W2982477648 @default.
W3048508027 cites W2985795779 @default.
W3048508027 cites W2990271835 @default.
W3048508027 cites W2994868972 @default.
W3048508027 cites W2996281608 @default.
W3048508027 cites W2997467960 @default.
W3048508027 cites W2999497286 @default.
W3048508027 cites W2999924099 @default.
W3048508027 cites W3006609433 @default.
W3048508027 cites W3008629872 @default.
W3048508027 cites W3010701474 @default.
W3048508027 cites W3011529586 @default.
W3048508027 cites W3011605304 @default.
W3048508027 cites W3012108457 @default.
W3048508027 cites W3012977580 @default.
W3048508027 cites W3015349988 @default.
W3048508027 cites W3015842159 @default.
W3048508027 cites W3021044180 @default.
W3048508027 cites W3021108849 @default.
W3048508027 cites W3022436017 @default.
W3048508027 cites W3022892666 @default.
W3048508027 cites W3024964215 @default.
W3048508027 cites W3025406924 @default.
W3048508027 cites W3031859571 @default.
W3048508027 cites W3036714229 @default.
W3048508027 cites W3040755219 @default.
W3048508027 cites W3042467454 @default.
W3048508027 doi "https://doi.org/10.3390/atmos11080852" @default.
W3048508027 hasPublicationYear "2020" @default.
W3048508027 type Work @default.
W3048508027 sameAs 3048508027 @default.
W3048508027 citedByCount "2" @default.
W3048508027 countsByYear W30485080272021 @default.
W3048508027 crossrefType "journal-article" @default.
W3048508027 hasAuthorship W3048508027A5000234334 @default.
W3048508027 hasAuthorship W3048508027A5008132724 @default.
W3048508027 hasAuthorship W3048508027A5033673973 @default.
W3048508027 hasAuthorship W3048508027A5034822034 @default.
W3048508027 hasAuthorship W3048508027A5035443305 @default.
W3048508027 hasBestOaLocation W30485080271 @default.
W3048508027 hasConcept C105923489 @default.
W3048508027 hasConcept C119599485 @default.
W3048508027 hasConcept C127413603 @default.
W3048508027 hasConcept C134560507 @default.
W3048508027 hasConcept C162324750 @default.
W3048508027 hasConcept C170777988 @default.
W3048508027 hasConcept C178790620 @default.
W3048508027 hasConcept C185592680 @default.
W3048508027 hasConcept C203032635 @default.
W3048508027 hasConcept C206658404 @default.
W3048508027 hasConcept C2776720842 @default.
W3048508027 hasConcept C2780165032 @default.
W3048508027 hasConcept C2780640597 @default.
W3048508027 hasConcept C39432304 @default.
W3048508027 hasConcept C82685317 @default.
W3048508027 hasConcept C87717796 @default.
W3048508027 hasConceptScore W3048508027C105923489 @default.
W3048508027 hasConceptScore W3048508027C119599485 @default.
W3048508027 hasConceptScore W3048508027C127413603 @default.
W3048508027 hasConceptScore W3048508027C134560507 @default.
W3048508027 hasConceptScore W3048508027C162324750 @default.
W3048508027 hasConceptScore W3048508027C170777988 @default.
W3048508027 hasConceptScore W3048508027C178790620 @default.
W3048508027 hasConceptScore W3048508027C185592680 @default.
W3048508027 hasConceptScore W3048508027C203032635 @default.
W3048508027 hasConceptScore W3048508027C206658404 @default.