Investigation of energy consumption and wear in bypass pneumatic conveying of alumina

Chen, B.; Cenna, A. A.; Williams, K. C.; Jones, M. G.; Wang, Y.

Title: Investigation of energy consumption and wear in bypass pneumatic conveying of alumina
Creator: Chen, B.; Cenna, A. A.; Williams, K. C.; Jones, M. G.; Wang, Y.
Relation: Engineering Asset Management 2011: Proceedings of the Sixth World Congress on Engineering Asset Management p. 221-230
Relation: Lecture Notes in Mechanical Engineering
Publisher Link: http://dx.doi.org/10.1007/978-1-4471-4993-4_20
Publisher: Springer
Resource Type: book chapter
Date: 2014
Description: Dense phase pneumatic conveying is critically dependent on the physical properties of the materials to be conveyed. However, many materials, such as alumina and coarse fly ash, which are highly abrasive, do not have dense phase conveying capacity. Bypass pneumatic conveying systems provide a dense phase capability to non-dense phase capable bulk materials. These systems also provide the capacity of lower the conveying velocity and therefore lower pipeline wear and lower power consumption occurs. The objectives of this work were to study the energy consumption and wear of bypass pneumatic transport systems. Pneumatic conveying of alumina experiments were carried out in a 79 mm diameter main pipe with a 27 mm inner diameter bypass pipe with orifice plate flute arrangement. High-speed camera visualizations were employed to present flow regimes in a horizontal pipe. The experimental result showed the conveying velocity of bypass system is much lower than that of conventional pipelines; thus, specific energy consumption in the conveying process is reduced. The service life of the bypass line has also been estimated.
Subject: pneumatic conveying; bypass system; wear; energy consumption; alumina
Identifier: http://hdl.handle.net/1959.13/1327801
Identifier: uon:25749
Identifier: ISBN:9781447149927
Rights: The final publication is available at Springer via http://dx.doi.org/10.1007/978-1-4471-4993-4_20
Language: eng
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