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Three-dimensional energetic and exergetic analysis of the injection orientation of DI diesel engine under different engine speeds

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Three-dimensional (3-D) computational code was implemented to solve conservation equations based on finite volume method as to simulate 1.8 L Ford diesel engine. Velocity and pressure of each computational cell is achieved by
SIMPLE (semi-implicit method for pressure-linked equations) algorithm. For the exergetic aspect, the initial condition is set at 0.1 MPa and 300 K. The engine modeling is performed with 130°, 140°, and 150° with respect to x-axis
under 1500 and 2500 rpm engine speeds. The results, however, indicate better air/fuel mixture (near stoichiometric equivalence ratio) for 130° of injection angle, albeit smaller spray droplets (lower sauter mean diameter) were introduced with 140°. It is seen that higher soot and NOx mass fraction is attributed to 1500 rpm engine speed. The highest NOx and soot are exhausted at 130°and 150° of injection, respectively. Second law efficiency was calculated for different spray angle and engine speed schemes such that 36.62%, 30.2%, and 32.07% are associated with 130°, 140°, and 150° of injection angle under 1500 rpm, respectively. In terms of engine performance, that is, indicated mean
effective pressure, indicated specific fuel consumption, and temperature, the best performance metrics are of 130° equal to 15.4 bar, 0.3856 kg/kW-h, and 2074.97 K under 1500 rpm, respectively. Instant irreversibility rate is the highest amount with peak value of 17.48 J/deg for 130 deg-1500 rpm, while 140° shows higher mean irreversibility rate over crank angle (CA) period.

Keywords
CFD, exergy, irreversibility, spray-guided injection, swirl chamber

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Informasi Detail

Judul Seri

Energy Science and Engineering

No. Panggil

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Penerbit

: The Authors., 2015

Deskripsi Fisik

Energy Science and Engineering 2015; 3(4): 360–370

Bahasa

English

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Klasifikasi

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Tipe Isi

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Tipe Media

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Tipe Pembawa

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Edisi

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Subjek

FISIKA

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Pernyataan Tanggungjawab

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