A numerical study to improve the position and angle of the producer gas injector inside the intake manifold to minimize emissions and efficiency enhancement of a bi engine

Mahmood, Hussein A.; Al-Sulttani, Ali Omran; Attia, Osam H.; Adam, Nor Mariah

doi:10.21303/2461-4262.2021.002045

Cited by 2 publications

(1 citation statement)

References 12 publications

(17 reference statements)

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“…On a basic wing model with (0°) angle attack, a grid independent test (GIT) for the mesh was performed to select the appropriate number of elements and nodes in order to obtain highly precise outcomes and reducing simulation time and which would then be applied on the models of the basic wing and a modified wing with different attack angles. Six various meshing cases were opted to evaluate the Grid independent test as shown in Figure 6 [22]. The GIT for the six cases was attained by comparing the results of drag coefficient (CD) on the basic wing model according to the nodes number and elements number as shown in Table 2.…”

Section: Mesh Generation and Grid Independence Testmentioning

confidence: 99%

Optimization Efficiency of the Aircraft Wing of Cessna 172 Skyhawk by Absorbent Adverse Pressure Using Tangential Suction Slot Without Vacuum Device

Mousa¹,

Attia²,

Mahmood³

et al. 2022

MMEP

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Efficiency of a wing is sufficient at stall angle of attack and breakdown by effecting turbulent flow intensity on upper wing surface which is destroyed the airflow pattern and generated adverse pressure, backflow airstream and forward transition separation point movement closely to the leading edge of the wing. To enhancement a wing efficiency factor at high angle of attacks in this research is using partially sucking adverse pressure to delay the separation point to control the backflow rate and expelling it through the wing tips ends using tangential suction slot channel without using any mechanical means depending on differential static pressure between adverse pressure and the static pressure generated on both win tips ends. Numerical CFD analysis has been managed the case study of the effect suction slot channel located on the upper wing surface at (70%) of the wing chord from the leading edge as a proposed modified wing model of the Cessna 172 Skyhawk half wing at angle of attacks (10°, 12°, 14°, 16°, 18°, 20°, 22°, 24°). The analysis study was conducted at stall speed (90 km/hr.) without flaps where it is equal (25 m/sec). The results of the analytical shows at the range of angle of attacks were chosen between (10° to 24°), lift coefficient CL increased (3.757%), drag coefficient CD is decreased (0.530%) and the wing efficiency lift to drag ratio Δ(CL/CD) is increased to (5.712%) while Δ(CD/CL) is decreased to (5.231%) which these parameters reflected to enhancement the wing to reduce required power at the minimum speed, increase angle of climb and decrease angle of descent reduce landing distance with high angle of attacks.

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Section: Mesh Generation and Grid Independence Testmentioning

confidence: 99%

Optimization Efficiency of the Aircraft Wing of Cessna 172 Skyhawk by Absorbent Adverse Pressure Using Tangential Suction Slot Without Vacuum Device

Mousa¹,

Attia²,

Mahmood³

et al. 2022

MMEP

Self Cite

View full text Add to dashboard Cite

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Investigating injector angles to eliminate spray-wall impingement in a manifold port injection system of gasoline engines

Nguyen

Duong³

et al. 2023

JMST

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There has been an outstanding improvement in injection technology in the spark ignition (SI) engines’ fuel supply systems, from traditional carburettors with throttle body injection (TBI), manifold port or multi-point injection (MPI) to direct injection (DI). This paper has developed an MPI intake manifold model and investigated fuel injector angles using a multiphase CFD package provided by FloEFD software. A wide range of injector angles from 22 to 30 degrees has been investigated in order to evaluate the influence of the injector angle on the wall-wetting issue, a critical problem of manifold injection systems in SI engines. The intake air pressure differential in the manifold was also evaluated. The results show that the fuel injector angle affects the multiphase flow in the MPI system. The manifold diameter meets the design specifications, and the pressure differential in the manifold is quite small. With an injector angle of 25 degrees, the wall-wetting issue is minimal. This model could be used for further studies on engine performance and emission formation.

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A numerical study to improve the position and angle of the producer gas injector inside the intake manifold to minimize emissions and efficiency enhancement of a bi engine

Cited by 2 publications

References 12 publications

Optimization Efficiency of the Aircraft Wing of Cessna 172 Skyhawk by Absorbent Adverse Pressure Using Tangential Suction Slot Without Vacuum Device

Optimization Efficiency of the Aircraft Wing of Cessna 172 Skyhawk by Absorbent Adverse Pressure Using Tangential Suction Slot Without Vacuum Device

Investigating injector angles to eliminate spray-wall impingement in a manifold port injection system of gasoline engines

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