SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4311453655> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W4311453655 endingPage "126879" @default.
W4311453655 startingPage "126879" @default.
W4311453655 abstract "The complex dynamics of NH3/H2/air mixtures have been numerically investigated in an idealized reactor environment of fast fuel/air mixing represented by perfectly stirred reactors (PSR). The complete steady state “S-curve” solutions are obtained with eigenvalue analysis for quantifying the stable/unstable characteristics of different branches. With four different chemical mechanisms, stable cool flame branches are observed for NH3/H2/air mixtures. The reactions involving species NH2, H2NO and NNH are found important for both fuel consumption and NOx formation on the cool flame branch. The parametric study further shows that with less than 5 % hydrogen addition in ammonia (in volume), stable cool flames exist over a wide range of inlet temperature, equivalence ratio and pressure. For the states in the cool flame branch, although hydrogen is almost consumed completely, only portion of the ammonia is consumed resulting in low NOx emission due to the reduction effects of remaining ammonia and high N2O emission resulting from low temperature. Inspired by the observed stable cool flame characteristics, a multi-staged low-temperature model system is formulated for low NOx emission of NH3/H2/air combustion, in which small amount of hydrogen is sequentially injected to homogeneous reactors of lean NH3/H2/air mixture. With the representative high inlet temperature of 850 K, pressure of 20 atm, fuel lean of ϕ=0.7 and critical fuel efficiency of 99.7 %, results with the 28-species Li reduced mechanism show that less than 75 ppm of NOx and 98 ppm of N2O can be achieved with two-staged homogenous combustion operating at low temperature of 1300 K and 2 % H2 addition in each stage. With three-staged homogenous combustion, less than 70 ppm of NOx and 10 ppm of N2O can be achieved at 1300 K. NOx emission is lower than those of direct NH3/H2/air combustion without aftertreatment, demonstrating the opportunity of utilizing low temperature combustion to achieve high fuel conversion, low NOx and N2O formation for lean NH3/H2/air mixtures." @default.
W4311453655 created "2022-12-26" @default.
W4311453655 creator A5028710085 @default.
W4311453655 creator A5052505002 @default.
W4311453655 creator A5058481549 @default.
W4311453655 creator A5072417331 @default.
W4311453655 creator A5089379180 @default.
W4311453655 date "2023-04-01" @default.
W4311453655 modified "2023-09-26" @default.
W4311453655 title "Analysis of low emission characteristics of NH3/H2/air mixtures under low temperature combustion conditions" @default.
W4311453655 cites W1994422102 @default.
W4311453655 cites W2004266299 @default.
W4311453655 cites W2007870981 @default.
W4311453655 cites W2063363570 @default.
W4311453655 cites W2138198422 @default.
W4311453655 cites W2529694186 @default.
W4311453655 cites W2580683961 @default.
W4311453655 cites W2598801800 @default.
W4311453655 cites W2750219939 @default.
W4311453655 cites W2763318383 @default.
W4311453655 cites W2766368062 @default.
W4311453655 cites W2792293282 @default.
W4311453655 cites W2808210501 @default.
W4311453655 cites W2810358356 @default.
W4311453655 cites W2821414876 @default.
W4311453655 cites W2827295069 @default.
W4311453655 cites W2886948459 @default.
W4311453655 cites W2887679581 @default.
W4311453655 cites W2892230460 @default.
W4311453655 cites W2895539071 @default.
W4311453655 cites W2900226406 @default.
W4311453655 cites W2903833825 @default.
W4311453655 cites W2911758878 @default.
W4311453655 cites W2919951600 @default.
W4311453655 cites W2920184291 @default.
W4311453655 cites W2984250512 @default.
W4311453655 cites W3015836696 @default.
W4311453655 cites W3016689234 @default.
W4311453655 cites W3026187387 @default.
W4311453655 cites W3026513756 @default.
W4311453655 cites W3036044489 @default.
W4311453655 cites W3042085517 @default.
W4311453655 cites W3046163554 @default.
W4311453655 cites W3049589586 @default.
W4311453655 cites W3081528507 @default.
W4311453655 cites W3083960751 @default.
W4311453655 cites W3084229872 @default.
W4311453655 cites W3092270839 @default.
W4311453655 cites W3095654254 @default.
W4311453655 cites W3097515647 @default.
W4311453655 cites W3099455817 @default.
W4311453655 cites W3105269989 @default.
W4311453655 cites W3126332808 @default.
W4311453655 cites W3127397420 @default.
W4311453655 cites W3134896145 @default.
W4311453655 cites W3152992273 @default.
W4311453655 cites W3168014154 @default.
W4311453655 cites W3168838301 @default.
W4311453655 cites W3184749280 @default.
W4311453655 cites W3209108616 @default.
W4311453655 cites W4206396600 @default.
W4311453655 cites W4206732740 @default.
W4311453655 cites W4281558369 @default.
W4311453655 cites W597237383 @default.
W4311453655 cites W648253174 @default.
W4311453655 cites W820122444 @default.
W4311453655 doi "https://doi.org/10.1016/j.fuel.2022.126879" @default.
W4311453655 hasPublicationYear "2023" @default.
W4311453655 type Work @default.
W4311453655 citedByCount "0" @default.
W4311453655 crossrefType "journal-article" @default.
W4311453655 hasAuthorship W4311453655A5028710085 @default.
W4311453655 hasAuthorship W4311453655A5052505002 @default.
W4311453655 hasAuthorship W4311453655A5058481549 @default.
W4311453655 hasAuthorship W4311453655A5072417331 @default.
W4311453655 hasAuthorship W4311453655A5089379180 @default.
W4311453655 hasConcept C105923489 @default.
W4311453655 hasConcept C107872376 @default.
W4311453655 hasConcept C113196181 @default.
W4311453655 hasConcept C121332964 @default.
W4311453655 hasConcept C178790620 @default.
W4311453655 hasConcept C185592680 @default.
W4311453655 hasConcept C197554733 @default.
W4311453655 hasConcept C203032635 @default.
W4311453655 hasConcept C20556612 @default.
W4311453655 hasConcept C2776382133 @default.
W4311453655 hasConcept C39353612 @default.
W4311453655 hasConcept C512968161 @default.
W4311453655 hasConcept C83104080 @default.
W4311453655 hasConcept C97355855 @default.
W4311453655 hasConceptScore W4311453655C105923489 @default.
W4311453655 hasConceptScore W4311453655C107872376 @default.
W4311453655 hasConceptScore W4311453655C113196181 @default.
W4311453655 hasConceptScore W4311453655C121332964 @default.
W4311453655 hasConceptScore W4311453655C178790620 @default.
W4311453655 hasConceptScore W4311453655C185592680 @default.
W4311453655 hasConceptScore W4311453655C197554733 @default.
W4311453655 hasConceptScore W4311453655C203032635 @default.