Premesh Shehan Lowe scite author profile

Premesh Shehan Lowe

4Publications

89Citation Statements Received

56Citation Statements Given

How they've been cited

150

How they cite others

Affiliations

University of Sheffield, Brunel University London, Advanced Manufacturing Research Centre

Publications

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Numerical modelling of acoustic pressure fields to optimize the ultrasonic cleaning technique for cylinders

Lais

Lowe²,

Gan³

et al. 2018

Ultrasonics Sonochemistry

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Fouling build up is a well-known problem in the offshore industry. Accumulation of fouling occurs in different structures, e.g. offshore pipes, ship hulls, floating production platforms. The type of fouling that accumulates is dependent on environmental conditions surrounding the structure itself. Current methods deployed for fouling removal span across hydraulic, chemical and manual, all sharing the common disadvantage of necessitating halting production for the cleaning process to commence. Conventionally, ultrasound is used in ultrasonic baths to clean a submerged component by the generation and implosion of cavitation bubbles on the fouled surface; this method is particularly used in Reverse Osmosis applications. However, this requires the submersion of the fouled structure and thus may require a halt to production. Large fouled structures such as pipelines may not be accommodated. The application of high power ultrasonics is proposed in this work as a means to remove fouling on a structure whilst in operation. The work presented in this paper consists of the development of a finite element analysis model based on successful cleaning results from a pipe fouled with calcite on the inner pipe wall. A Polytec 3D Laser Doppler Vibrometer was used in this investigation to study the fouling removal process. Results show the potential of high power ultrasonics for fouling removal in pipe structures from the wave propagation across the structure under excitation, and are used to validate a COMSOL model to determine cleaning patterns based on pressure and displacement distributions for future transducer array design and optimization.

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Inspection of Cylindrical Structures Using the First Longitudinal Guided Wave Mode in Isolation for Higher Flaw Sensitivity

et al. 2016

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Less attention has been given to the inspection using the first longitudinal guided wave mode due to its attenuative and dispersive properties at commonly used ultrasonic guided waves (UGWs) operating frequency region (20-100 kHz). However, the first longitudinal guided wave mode has higher flaw sensitivity due to having a shorter wave length and having higher number of non-axisymmetric wave modes at a given frequency. This enhances the capabilities of advanced UGW techniques which require higher number of non-axisymmetric modes. This study has been performed to investigate the potential of mode purity and flaw sensitivity of the first longitudinal guided wave mode compared with other axisymmetric modes in the UGW operating frequency region. Numerical and experimental investigation have been conducted to investigate pure excitation and flaw sensitivity of the first longitudinal guided wave mode. It has been validated that the first longitudinal guided wave mode can be used in the UGW inspection effectively in isolation by adopting transducers with out-of-plane vibration. This reduces the cost and the weight of the UGW inspection tooling. The flaw sensitivity of the first longitudinal guided wave mode has been investigated by aid of an empirically validated UGW focusing technique. Under the studied conditions in this paper, the first longitudinal guided wave mode has ∼5 times higher flaw sensitivity compared with the second longitudinal guided wave mode and ∼2.5 times higher than the first torsional guided wave mode. This enhances the capability of UGW flaw detection and sizing. Index Terms-Pipeline inspection, ultrasonic guided waves, compression transducers, first longitudinal guided wave mode, ultrasonic guided wave focusing. I. INTRODUCTION R ESEARCH on UGW inspection has expanded over recent decades including the use of low frequency ultrasound to screen large specimens e.g. pipes. Pipelines are Manuscript

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Investigation of Ultrasonic Guided Waves Interacting With Piezoelectric Transducers

2015

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Inspection of Pipelines Using the First Longitudinal Guided Wave Mode

et al. 2015

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