Combustion Mechanisms and Kinetics of Fuel Additives: A ReaxFF Molecular Simulation

Chen, Zhuojun; Sun, Weizhen; Zhao, Liang

doi:10.1021/acs.energyfuels.8b02035

Cited by 30 publications

(28 citation statements)

References 48 publications

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“…The problem of the ecological danger of fuels and their combustion products requires one to look for integrated solutions, including new approaches in car and engine constructions [10]; improving the technological parameters of transport, with emphasis on multi-material construction for weight reduction [11]; increasing the adaptability of vehicles to operating conditions [12], in particular under weather changes [13], with application of such instruments as the dynamic vehicle scheduling [14]; tightening international and national requirements for fuel quality [15][16][17], use of tax instruments [3,[18][19][20][21]. Limited possibilities for improving the quality of motor fuels by refining methods [22][23][24] necessitate the use of fuel additives of various purposes, the combination of which in small amounts ensures the environmental and operational characteristics achieve the desired level [25][26][27][28][29][30]. Often the use of additives is the only way to ensure an optimum engine mode that allows one the commodity fuel to be quickly and flexibly adapted to the operating conditions without increasing the fuel assortment.A significant part of the additives used are surfactants.…”

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confidence: 99%

Investigation on the Possibility of Increasing the Environmental Safety and Fuel Efficiency of Vehicles by Means of Gasoline Nano-Additive

et al. 2019

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Environmental safety problem originated from vehicles requires development and exploration of integrated and effective solutions, which considers the development level of technologies, the cost of their widespread use, the legislation requirements and other relevant aspects. One improvement method of the petroleum-derived fuels characteristics is the use of additives that complement the refining methods and provide ample opportunities to influence the individual characteristics. The aim of this work is to study the influence of the developed multifunctional surface-active nano-additive on the gasoline characteristics and engine performance. The measurement results confirmed the effective reduction of the surface tension of gasoline at the boundary with air, improving the mixture formation in the engine. On the other hand, the saturated vapor pressure was significantly decreased, which dramatically reduces evaporation losses and air pollution by light hydrocarbons. The use of the additive, due to a combination of its surface-active and catalytic action, significantly increases the fuel efficiency of engines and reduces octane requirements, greenhouse gases emissions, as well as noise level during operation of vehicles, and the environmental safety of vehicle operation increases.

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confidence: 99%

Investigation on the Possibility of Increasing the Environmental Safety and Fuel Efficiency of Vehicles by Means of Gasoline Nano-Additive

et al. 2019

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“…In ReaxFF simulations, employing high temperature and pressure to facilitate the collision and accelerate the simulation process is a common strategy. 19,20,24,25 A time step of 0.25 fs is adopted for both the equilibrating and reactive simulations. The species information is recorded every 100 fs while dynamic trajectory and bonding information is dumped every 250 fs.…”

Section: Simulation Detailsmentioning

confidence: 99%

“…19,20 It is a common practice to normalize the absolute rate constants using the slowest reaction obtained from ReaxFF simulations, that is, the rate constant of the slowest reaction is set to be 1. 24 The thermal pyrolysis pathways of the oxygenates and the relative kinetic rates are summarized in Table 2.…”

Section: Quantification Of Oxygenate Effectiveness In Soot Precursor mentioning

confidence: 99%

Molecular dynamics simulation of soot formation during diesel combustion with oxygenated fuel addition

Chen

Jiang

2020

Phys. Chem. Chem. Phys.

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“…In addition, in the absence of inhibitors, aviation kerosene that exhibits poor thermal stability is prone to coking at high temperatures. − Previous studies described mainly, with a macro point of view, the factors influencing coking and its precursors. , Unfortunately, such studies conducted on JP8-1 did not explain the mechanism of the formation of coking.…”

Section: Introductionmentioning

confidence: 99%

“…Using the ReaxFF, the MD simulation of pyrolysis and oxidation of complex multicomponent fuel models is feasible. Chen reported the applications of ReaxFF MD in the calculation of the cracking of n -hexadecane at high temperatures and pressures, analysis of catalytic cracking of heavy hydrocarbons, study of the combustion mechanism of multicomponent heavy hydrocarbons, and development of the additive-assisted combustion mechanism of heavy hydrocarbons . Wang reported the application of ReaxFF MD to simulate the cracking of single-component n -dodecane.…”

Section: Introductionmentioning

confidence: 99%

Combustion of Fuel JP8-1: Mechanism and Reaction Kinetics Based on ReaxFF MD

Liu

Wei

Sun

et al. 2021

Ind. Eng. Chem. Res.

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The mechanism and kinetics of combustion of jet fuel (JP8-1) were investigated using ReaxFF MD. The main components of the JP8-1 model included n-dodecane, n-tetradecane, isooctane, methylcyclohexane, m-xylene, and tetralin. The combustion product distribution obtained was in good agreement with the experimental data and quantum chemistry (QC) calculations. The combustion reactions of JP8-1 involve C–C bond cleavages, dehydrogenation, and oxidation, and the C–C bond dissociation dominates in the early stage of combustion. For normal paraffin, the length of molecular chains is reduced with continuous production of ethylene. For branched paraffins, cycloparaffins, and aromatics, the C–C bond cleavage and dehydrogenation have a major stake. The ·OH and ·OOH radicals oxidize six-component reactants and play an important role in subsequent free radical chain reactions. The ring-opening reactions of monocyclic aromatics easily produce diene radicals and alkynes, which are considered as standard kinetic reactions of JP8-1 combustion. The unsaturated three-, five- and six-membered rings are possible coke precursors. Hopefully, the mechanism and kinetic information obtained in this work would improve the understanding of JP8-1 fuel combustion and provide insights into the design and applications of new surrogates.

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Combustion Mechanisms and Kinetics of Fuel Additives: A ReaxFF Molecular Simulation

Cited by 30 publications

References 48 publications

Investigation on the Possibility of Increasing the Environmental Safety and Fuel Efficiency of Vehicles by Means of Gasoline Nano-Additive

Investigation on the Possibility of Increasing the Environmental Safety and Fuel Efficiency of Vehicles by Means of Gasoline Nano-Additive

Molecular dynamics simulation of soot formation during diesel combustion with oxygenated fuel addition

Combustion of Fuel JP8-1: Mechanism and Reaction Kinetics Based on ReaxFF MD

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