W. Stalewski scite author profile

W. Stalewski

5Publications

33Citation Statements Received

4Citation Statements Given

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Affiliations

Łukasiewicz Research Network, Instytut Lotnictwa

Publications

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The preliminary design of the air-intake system and the nacelle in the small aircraft-engine integration process

Stalewski

Żółtak

2014

Aircraft Eng & Aerospace Tech

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Purpose – The purpose of this paper is to present the results of the preliminary design and optimization of the air-intake system and the engine nacelle. The work was conducted as part of an integration process of a turboprop engine in a small aircraft in a tractor configuration. Design/methodology/approach – The preliminary design process was performed using a parametric, interactive design approach. The parametric model of the aircraft was developed using the PARADES™ in-house software. The model assumed a high level of freedom concerning shaping all the components of aircraft important from the point of view of the engine integration. Additionally, the software was used to control the fulfillment of design constraints and to analyze selected geometrical properties. Based on the developed parametric model, the preliminary design was conducted using the interactive design and optimization methodology. Several concepts of the engine integration were investigated in the process. All components of the aircraft propulsion system were designed simultaneously to ensure their compliance with each other. Findings – The concepts of the engine integration were modified according to changes in the design and technological constraints in the preliminary design process. For the most promising configurations, computational fluid dynamics (CFD) computations were conducted using commercial Reynolds-averaged Navier–Stokes solver FLUENT™ (ANSYS). The simulations tested the flow around the nacelle and inside the air-delivery system which consists of the air-intake duct, the foreign-particles separator and the auxiliary ducts delivering air to the cooling and air-conditioning systems. The effect of the working propeller was modeled using the Virtual Blade Model implemented in the FLUENT code. The flow inside the air-intake system was analyzed from the point of view of minimization of pressure losses in the air-intake duct, the quality of air stream delivered to the engine compressor and the effectiveness of the foreign particles separator. Practical implications – Based on results of the CFD analyses, the final concept of the turboprop engine integration has been chosen. Originality/value – The presented results of preliminary design process are valuable to achieve the final goal in the ongoing project.

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Stalewski

2016

PIL

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Flow Control on Helicopter-Rotor Blades Via Active Gurney Flap

Stalewski

2018

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The Active Gurney Flap (AGF) is a small, flat tab cyclically deployed and retracted at lower surface of the rotor blade near its trailing edge. It is expected that the device may improve performance of modern helicopters. The main goal of presented investigations was to develop research methodology and next to use it in studies on phenomena occurring in the flow around helicopter-rotor blades equipped with AGF. Conducted CFD simulations aimed at validation of the developed methodology as well as at significant supplementing and extension of results of experimental research. Simplified sensitivity analysis has been conducted aiming at determination of geometric and motion-control parameters of the AGF, optimal from point of view of helicopter-performance improvement. Fully three-dimensional simulations of the rotor flight aimed at determination of flight conditions, in which the use of Active Gurney Flaps could significantly improve the rotorcraft performance.

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Design and Optimisation of Exhaust System of Light Turboprop Airplane

Stalewski

2016

Journal of KONES. Powertrain and Transport

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Load Control of Natural-Laminar-Flow Wing via Boundary Layer Control

Stalewski¹,

Sznajder²

2016

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W. Stalewski

The preliminary design of the air-intake system and the nacelle in the small aircraft-engine integration process

Flow Control on Helicopter-Rotor Blades Via Active Gurney Flap

Design and Optimisation of Exhaust System of Light Turboprop Airplane

Load Control of Natural-Laminar-Flow Wing via Boundary Layer Control

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