Effects of injection timing and EGR on combustion and emissions characteristics of the diesel engine fuelled with acetone–butanol–ethanol/diesel blend fuels

Duan, Xiongbo; Xu, Zhengxin; Sun, Xingyu; Deng, Banglin; Liu, Jingping

doi:10.1016/j.energy.2021.121069

Cited by 97 publications

(27 citation statements)

References 47 publications

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“…The change of ignition delay and combustion duration with injection timing for IBE30 is also given in Table 5. In a study where the mixtures of ABE and diesel fuel were tested in the different injection timings, similar results were reported and explained by increased ID period where more premixed charge was formed and burned by advancing the injection timing with using the ABE20 as fuel [34]. The increase in premixed combustion and the fact that most of the heat released is around the TDC increases the combustion rate and causes an increase in amount of heat converted to work.…”

Section: Combustion Diagnosticssupporting

confidence: 63%

Geleneksel Dizel ve IBE Yakıtlı Bir Common-Rail Dizel Motorun Yanma ve Emisyonları Üzerinde Karışım Oranı ve Püskürtme Zamanının Etkisi

İlçin¹,

Fırat²,

Altun³

et al. 2023

Politeknik Dergisi

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Section: Combustion Diagnosticssupporting

confidence: 63%

Geleneksel Dizel ve IBE Yakıtlı Bir Common-Rail Dizel Motorun Yanma ve Emisyonları Üzerinde Karışım Oranı ve Püskürtme Zamanının Etkisi

İlçin¹,

Fırat²,

Altun³

et al. 2023

Politeknik Dergisi

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show abstract

“…For the simulation of the combustion chamber, the following reaction is considered by assuming the byproducts of the gasification process [40]:…”

Section: Combustion Chambermentioning

confidence: 99%

Multi-objective bat optimization for a biomass gasifier integrated energy system based on 4E analyses

Cao

Dhahad

Farouk

et al. 2021

Applied Thermal Engineering

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“…Considering this, it is essential to study the principles of combustion in the microscale and mesoscale. However, due to the high rate of heat dissipation of the walls due to the high surface-to-volume ratio at this scale, thermal management is needed to create a stable flame [218][219][220][221]. Norton and Vlachos investigated the flame stability of microchannels for stoichiometric mixtures of methane-air [222] and propane-air [223] using numerical methods.…”

Section: Combustion In Microchannelsmentioning

confidence: 99%

A Review of the Methods of Modeling Multi-Phase Flows within Different Microchannels Shapes and Their Applications

et al. 2021

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In industrial processes, the microtechnology concept refers to the operation of small devices that integrate the elements of operational and reaction units to save energy and space. The advancement of knowledge in the field of microfluidics has resulted in fabricating devices with different applications in micro and nanoscales. Micro- and nano-devices can provide energy-efficient systems due to their high thermal performance. Fluid flow in microchannels and microstructures has been widely considered by researchers in the last two decades. In this paper, a review study on fluid flow within microstructures is performed. The present study aims to present the results obtained in previous studies on this type of system. First, different types of flows in microchannels are examined. The present article will then review previous articles and present a general summary in each section. Then, the multi-phase flows inside the microchannels are discussed, and the flows inside the micropumps, microturbines, and micromixers are evaluated. According to the literature review, it is found that the use of microstructures enhances energy efficiency. The results of previous investigations revealed that the use of nanofluids as a working fluid in microstructures improves energy efficiency. Previous studies have demonstrated special attention to the design aspects of microchannels and micro-devices compared to other design strategies to improve their performance. Finally, general concluding remarks are presented, and the existing challenges in the use of these devices and suggestions for future investigations are presented.

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Effects of injection timing and EGR on combustion and emissions characteristics of the diesel engine fuelled with acetone–butanol–ethanol/diesel blend fuels

Cited by 97 publications

References 47 publications

Geleneksel Dizel ve IBE Yakıtlı Bir Common-Rail Dizel Motorun Yanma ve Emisyonları Üzerinde Karışım Oranı ve Püskürtme Zamanının Etkisi

Geleneksel Dizel ve IBE Yakıtlı Bir Common-Rail Dizel Motorun Yanma ve Emisyonları Üzerinde Karışım Oranı ve Püskürtme Zamanının Etkisi

Multi-objective bat optimization for a biomass gasifier integrated energy system based on 4E analyses

A Review of the Methods of Modeling Multi-Phase Flows within Different Microchannels Shapes and Their Applications

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