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Using additive manufacturing to build energy efficient filter supports

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

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Using additive manufacturing to build energy efficient filter supports. / Vijayakumar, Bhavani; Rennie, Allan; Burns, Neil et al.
2013. Paper presented at 3rd International Conference on Additive Manufacturing Technologies (AM 2013), Bangalore, India.

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

Harvard

Vijayakumar, B, Rennie, A, Burns, N, Burns, M, Travis, D & Battersby, P 2013, 'Using additive manufacturing to build energy efficient filter supports', Paper presented at 3rd International Conference on Additive Manufacturing Technologies (AM 2013), Bangalore, India, 7/10/13 - 8/10/13.

APA

Vijayakumar, B., Rennie, A., Burns, N., Burns, M., Travis, D., & Battersby, P. (2013). Using additive manufacturing to build energy efficient filter supports. Paper presented at 3rd International Conference on Additive Manufacturing Technologies (AM 2013), Bangalore, India.

Vancouver

Vijayakumar B, Rennie A, Burns N, Burns M, Travis D, Battersby P. Using additive manufacturing to build energy efficient filter supports. 2013. Paper presented at 3rd International Conference on Additive Manufacturing Technologies (AM 2013), Bangalore, India.

Author

Vijayakumar, Bhavani ; Rennie, Allan ; Burns, Neil et al. / Using additive manufacturing to build energy efficient filter supports. Paper presented at 3rd International Conference on Additive Manufacturing Technologies (AM 2013), Bangalore, India.9 p.

Bibtex

@conference{aadae111c72547e3938e9600144484f1,
title = "Using additive manufacturing to build energy efficient filter supports",
abstract = "This paper discusses the application for additive manufacturing technology in creating geometrically optimised, conical, in-line filter supports used in filtration and pumping systems. In comparison with such products currently fabricated by more conventional means, the paper further discusses the benefits to be realised in terms of efficiency gains, from both a pressure drop and reduction in energy consumption perspective, and also in the reduction of raw materials used in the manufacturing process which is far superior. Physical testing has been conducted to validate simulations of fluid flow, indicatively returning very positive results, showing that pressure drops of up to 690Pa from the current value of 1586Pa is possible, which could reduce the energy consumption by 57%. Through the optimisation of design for component realisation using additive manufacturing, it is also shown that almost 53% of material could be saved by transitioning over to these alternative manufacturing processes.",
author = "Bhavani Vijayakumar and Allan Rennie and Neil Burns and Mark Burns and Darren Travis and Paul Battersby",
year = "2013",
month = oct,
language = "English",
note = "3rd International Conference on Additive Manufacturing Technologies (AM 2013) ; Conference date: 07-10-2013 Through 08-10-2013",

}

RIS

TY - CONF

T1 - Using additive manufacturing to build energy efficient filter supports

AU - Vijayakumar, Bhavani

AU - Rennie, Allan

AU - Burns, Neil

AU - Burns, Mark

AU - Travis, Darren

AU - Battersby, Paul

PY - 2013/10

Y1 - 2013/10

N2 - This paper discusses the application for additive manufacturing technology in creating geometrically optimised, conical, in-line filter supports used in filtration and pumping systems. In comparison with such products currently fabricated by more conventional means, the paper further discusses the benefits to be realised in terms of efficiency gains, from both a pressure drop and reduction in energy consumption perspective, and also in the reduction of raw materials used in the manufacturing process which is far superior. Physical testing has been conducted to validate simulations of fluid flow, indicatively returning very positive results, showing that pressure drops of up to 690Pa from the current value of 1586Pa is possible, which could reduce the energy consumption by 57%. Through the optimisation of design for component realisation using additive manufacturing, it is also shown that almost 53% of material could be saved by transitioning over to these alternative manufacturing processes.

AB - This paper discusses the application for additive manufacturing technology in creating geometrically optimised, conical, in-line filter supports used in filtration and pumping systems. In comparison with such products currently fabricated by more conventional means, the paper further discusses the benefits to be realised in terms of efficiency gains, from both a pressure drop and reduction in energy consumption perspective, and also in the reduction of raw materials used in the manufacturing process which is far superior. Physical testing has been conducted to validate simulations of fluid flow, indicatively returning very positive results, showing that pressure drops of up to 690Pa from the current value of 1586Pa is possible, which could reduce the energy consumption by 57%. Through the optimisation of design for component realisation using additive manufacturing, it is also shown that almost 53% of material could be saved by transitioning over to these alternative manufacturing processes.

M3 - Conference paper

T2 - 3rd International Conference on Additive Manufacturing Technologies (AM 2013)

Y2 - 7 October 2013 through 8 October 2013

ER -