Nicholas J. Regan scite author profile

Nicholas J. Regan

3Publications

0Citation Statements Received

9Citation Statements Given

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University of Sussex

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An Experimental Study of Sprays in Cross Flow Representative of Gas Turbine Engine Secondary Air Systems

Regan

Atkins

Long

et al. 2009

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The flow in the secondary air system of a gas turbine engine passes over numerous oil supply and scavenge pipes and a fracture in such a pipe will cause a jet of oil to be ejected as a spray. This spray will disperse in the surrounding flow. Accurate and reliable numerical modelling of these sprays presents significant problems due in part to their complexity, but also the lack of experimental data available for model validation. This paper describes the design, manufacture, testing and results from an experimental test rig aimed at spray characterisation. The sprays considered were produced through a round sharp edged nozzle with a 0.57 mm diameter and a length to diameter ratio of 1.61. The spray was introduced normal to the cross flow. Phase Doppler Anemometry was used to determine droplet size and velocity for Weber numbers within the range of 13 < Weg < 580 and Momentum Flux Ratio within the range of 0.8 < q < 136, resulting in 19 different spray fields. Each of these spray fields has been characterised at three axial locations. Contours of droplet size, mass flux distribution, axial droplet velocity and transverse droplet velocity are presented. In addition, a pulsed laser sheet and CCD camera were used to analyse the jet behaviour in terms of break up length and jet trajectory.

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The Production of a Microsoft Excel Tool to Assist in the Teaching of the Use of Venturi Tubes to Calculate Mass Flow Rates and Their Associated Uncertainties

Cooke

Regan

2010

International Journal of Mechanical Engineering Education

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This paper describes the use of venturi tubes and the calculations involved in their use; it also introduces a new spreadsheet tool developed to assist in the teaching of the subject. The tool is easy to use and allows the user to calculate liquid or gas mass flow rates. This is done by the user entering the values of required variables and choosing the applicable units of measurement from embedded drop-down lists. Non-SI units can be selected, as the tool makes the necessary conversions within hidden cells and tabs. In addition to calculating mass flow rates, the tool also calculates their associated uncertainty. The tool can be used by lecturers as part of undergraduate teaching or by practising engineers who use venturi tubes or have an interest in them.

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Modelling of Liquid Leakage Sprays in Crossflow

Hutcheson

Chew

Thorpe

et al. 2009

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The leakage and transport of oil within secondary air system cavities is of interest in oil and air system design, for which CFD can be used as a predictive tool. This paper focuses on the leakage of oil from cracks into a high speed crossflow, idealised as round nozzles at Weber numbers and momentum flux ratios relevant to those in an aero-engine. Simulations were performed using the Euler-Lagrangian approach implemented in a commercial CFD code (FLUENT), including sub-models for breakup, deforming droplet drag, collisions/coalescence and turbulent dispersion. CFD predictions were compared with experimental data from two independent studies. The calculated position of the centre-of-mass of the spray plume agreed well with experiment in all cases, but the penetration was found to be under-estimated. Differences in droplet sizes between experiments could not be explained by variations in the the gas Weber number alone, and a review of the literature has highlighted the importance of the liquid to gas viscosity ratio in determining droplet size trends. Experimental trends in droplet size with changing viscosity ratios were captured by CFD simulations, and droplet SMD was predicted within 20% of experiment. It is concluded that the sub-models used within an Euler-Lagrangian approach can be useful tools for the prediction of droplet size, although further improvements in breakup and coalescence modelling will be necessary if greater accuracy is required.

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Nicholas J. Regan

An Experimental Study of Sprays in Cross Flow Representative of Gas Turbine Engine Secondary Air Systems

The Production of a Microsoft Excel Tool to Assist in the Teaching of the Use of Venturi Tubes to Calculate Mass Flow Rates and Their Associated Uncertainties

Modelling of Liquid Leakage Sprays in Crossflow

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