Juraj Kabát scite author profile

Juraj Kabát

3Publications

20Citation Statements Received

29Citation Statements Given

How they've been cited

How they cite others

Affiliations

Comenius University Bratislava, Slovak University of Technology in Bratislava, Institute of Process Engineering

Publications

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Modification of Powder Material by Compaction Processing

et al. 2017

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Abstract. There are different criteria for assessing the appropriateness of an agglomeration technology in the deployment processing of dry, fine and dirty dust burdening in the communal and working environment. Besides the benefit of the environment components, the agglomeration technology offers the possibility of re-processing the material as the primary raw material within a wide range of industries. Preliminary tests have shown that the compressed material remains in the memory from the previous compression. For returning the already processed material into a primary production, it is essential that it is reformed without the need for additional materials, a requirement that can be problematic. This article deals with the modification of a powder material (powder dust from the manufacture of friction components) and the investigation of its properties before and after the compaction processing.

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Design of Particulate Material Compactor Rolls Diameter

et al. 2017

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Abstract. At present, in a period of an industrial expansion great emphasis is placed on the environment. That means aiming for a reduced energy consumption, and also lessening dustiness from very fine powder material. This category also includes particulate material agglomeration processes. Because this process is very energy-intensive, it is necessary to correctly design these devices. The aim of this paper is to focus on a theoretical design of a production compactor with the rolls diameter for an experimental particulate material, based on Johanson's theory and experimentally measured material properties. The material used for experimental measurements was an NPK-based industrial fertilizer consisting of several components. The results of this paper is the dependence of the ratio of the maximum compression pressure to the initial compression pressure from the rolls diameter of the proposed compactor.

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Shell and Tube Heat Exchanger – the Heat Transfer Area Design Process

Gužela

Dzianik

Juriga

et al. 2017

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Nowadays, the operating nuclear reactors are able to utilise only 1  of mined out uranium. An effective exploitation of uranium, even 60 , is possible to achieve in so-called fast reactors. These reactors commercial operation is expected after the year 2035. Several design configurations of these reactors exist. Fast reactors rank among the so-called Generation IV reactors. Helium-cooled reactor, as a gas-cooled fast reactor, is one of them. Exchangers used to a heat transfer from a reactor active zone (i.e. heat exchangers) are an important part of fast reactors. This paper deals with the design calculation of U-tube heat exchanger (precisely 1-2 shell and tube heat exchanger with U-tubes): water -helium.

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Juraj Kabát

Modification of Powder Material by Compaction Processing

Design of Particulate Material Compactor Rolls Diameter

Shell and Tube Heat Exchanger – the Heat Transfer Area Design Process

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