SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2757153885> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2757153885 endingPage "12987" @default.
W2757153885 startingPage "12977" @default.
W2757153885 abstract "A nonlinear programming (NLP) model has been established to describe the process of low rank coal pyrolysis, and the model was validated through comparison with pilot or semi-industry technologies. Results showed good agreement with actual production values, suggesting that the model can be regarded as a general one for simulating low rank coal pyrolysis. On the basis of this model, the products’ distributions and energy penalties can be obtained from the coal pyrolysis process. In this study, the NLP model was used to simulate typical five pyrolysis processes such as the Toscoal process, Lurgi–Ruhrgas process, Char Oil Energy Development technology, Dalian University of Technology process, and Multistage Rotary Furnace technology from China Coal Research Institute, and Hulunbuir lignite was taken as a coal sample. Combined with the simulation results from the NLP model, effects of the key parameters on the performance of the pyrolysis technologies are investigated and a comprehensive evaluation in terms of techno-economic performance is completed, from which the most suitable pyrolysis technologies for the Hulunbuir lignite feedstock are the Toscoal and Lurgi–Ruhrgas processes. All of the above work is beneficial for assisting the selection of the optimal pyrolysis technology for a coal feedstock with different composition features." @default.
W2757153885 created "2017-10-06" @default.
W2757153885 creator A5027799026 @default.
W2757153885 creator A5035374461 @default.
W2757153885 creator A5056320138 @default.
W2757153885 creator A5073483190 @default.
W2757153885 date "2017-10-13" @default.
W2757153885 modified "2023-10-03" @default.
W2757153885 title "Comparative Analysis of Typical Low Rank Coal Pyrolysis Technology Based on a Nonlinear Programming Model" @default.
W2757153885 cites W1970084818 @default.
W2757153885 cites W1974957733 @default.
W2757153885 cites W1975892957 @default.
W2757153885 cites W1979166144 @default.
W2757153885 cites W1982582618 @default.
W2757153885 cites W1985657900 @default.
W2757153885 cites W1991975309 @default.
W2757153885 cites W1994386459 @default.
W2757153885 cites W1998945265 @default.
W2757153885 cites W2006035189 @default.
W2757153885 cites W2009462425 @default.
W2757153885 cites W2019597574 @default.
W2757153885 cites W2024081195 @default.
W2757153885 cites W2025286877 @default.
W2757153885 cites W2031404776 @default.
W2757153885 cites W2031589668 @default.
W2757153885 cites W2033070370 @default.
W2757153885 cites W2035212289 @default.
W2757153885 cites W2037526737 @default.
W2757153885 cites W2040493256 @default.
W2757153885 cites W2043994691 @default.
W2757153885 cites W2048561114 @default.
W2757153885 cites W2058610391 @default.
W2757153885 cites W2061127262 @default.
W2757153885 cites W2066788451 @default.
W2757153885 cites W2073155666 @default.
W2757153885 cites W2081047144 @default.
W2757153885 cites W2089682235 @default.
W2757153885 cites W2090980230 @default.
W2757153885 cites W2102568000 @default.
W2757153885 cites W2103321313 @default.
W2757153885 cites W2117358946 @default.
W2757153885 cites W2181938108 @default.
W2757153885 cites W2225677079 @default.
W2757153885 cites W2233179821 @default.
W2757153885 cites W2267224653 @default.
W2757153885 cites W2314403956 @default.
W2757153885 cites W2320330221 @default.
W2757153885 cites W2320859387 @default.
W2757153885 cites W2322487585 @default.
W2757153885 cites W2325890533 @default.
W2757153885 cites W2326753240 @default.
W2757153885 cites W2329586771 @default.
W2757153885 cites W2329969941 @default.
W2757153885 cites W2330225921 @default.
W2757153885 cites W2330270005 @default.
W2757153885 cites W2332292557 @default.
W2757153885 cites W2333835836 @default.
W2757153885 cites W2335457012 @default.
W2757153885 cites W2496227421 @default.
W2757153885 cites W2512652375 @default.
W2757153885 cites W2512808431 @default.
W2757153885 cites W2514531114 @default.
W2757153885 cites W2565894968 @default.
W2757153885 cites W2703245928 @default.
W2757153885 cites W820576689 @default.
W2757153885 cites W2461229112 @default.
W2757153885 doi "https://doi.org/10.1021/acs.energyfuels.7b02412" @default.
W2757153885 hasPublicationYear "2017" @default.
W2757153885 type Work @default.
W2757153885 sameAs 2757153885 @default.
W2757153885 citedByCount "18" @default.
W2757153885 countsByYear W27571538852018 @default.
W2757153885 countsByYear W27571538852019 @default.
W2757153885 countsByYear W27571538852020 @default.
W2757153885 countsByYear W27571538852021 @default.
W2757153885 countsByYear W27571538852022 @default.
W2757153885 crossrefType "journal-article" @default.
W2757153885 hasAuthorship W2757153885A5027799026 @default.
W2757153885 hasAuthorship W2757153885A5035374461 @default.
W2757153885 hasAuthorship W2757153885A5056320138 @default.
W2757153885 hasAuthorship W2757153885A5073483190 @default.
W2757153885 hasConcept C111919701 @default.
W2757153885 hasConcept C114614502 @default.
W2757153885 hasConcept C115527620 @default.
W2757153885 hasConcept C121332964 @default.
W2757153885 hasConcept C127413603 @default.
W2757153885 hasConcept C158622935 @default.
W2757153885 hasConcept C164226766 @default.
W2757153885 hasConcept C178790620 @default.
W2757153885 hasConcept C185592680 @default.
W2757153885 hasConcept C206139338 @default.
W2757153885 hasConcept C21880701 @default.
W2757153885 hasConcept C2779970684 @default.
W2757153885 hasConcept C2993933909 @default.
W2757153885 hasConcept C33923547 @default.
W2757153885 hasConcept C36759035 @default.
W2757153885 hasConcept C39432304 @default.
W2757153885 hasConcept C41008148 @default.