Dewatering of finely dispersed calcium carbonate-water slurries in decanter centrifuges: About modelling of a dynamic simulation tool

•Dynamic simulation tool for decanter centrifuges.•Consideration of the cylindrical and conical part in the mathematical model.•Consideration of settling behavior, cake consolidation, and sediment transport.•Validated with experimental results obtained in an industrial-scale centrifuge.•Could be use...

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Published in:Separation and purification technology 2020-11, Vol.251, p.117287, Article 117287
Main Authors: Menesklou, Philipp, Nirschl, Hermann, Gleiss, Marco
Format: Article
Language:English
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Centrifugation
Decanter centrifuge
Dewatering
Dynamic simulation
Solid-liquid separation
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creator Menesklou, Philipp
Nirschl, Hermann
Gleiss, Marco
description •Dynamic simulation tool for decanter centrifuges.•Consideration of the cylindrical and conical part in the mathematical model.•Consideration of settling behavior, cake consolidation, and sediment transport.•Validated with experimental results obtained in an industrial-scale centrifuge.•Could be used as stand-alone simulation tool or in optimisation algorithms. Finely dispersed suspensions are used as intermediate or end products in many processes in the chemical, pharmaceutical, and minerals processing industries. Continuously working decanter centrifuges are often applied for the separation or purification of the resulting suspensions. In order to minimise the experimental effort for dimensioning a centrifuge, mathematical models are required which describe the process adequately. The mathematical description of the cylindrical and conical part is needed to predict the build-up of finely dispersed cake in decanter centrifuges. This article presents a physically based computational model to predict the dynamic behaviour of decanter centrifuges. The method considers settling behaviour, cake consolidation, and sediment transport by means of material functions. The used material functions describe the behaviour of the slurry within the apparatus and are measured with well-established lab-scale centrifuges. Consideration of the cylindrical and conical part in the mathematical model allows for the investigation of the influence of different parameters (e.g. cone angle, length of cone, rotational speed, differential speed, etc.) on the process behaviour of decanter centrifuges. The presented dynamic model is validated by comparison with experimental data for an industrial-scale decanter centrifuge.
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Finely dispersed suspensions are used as intermediate or end products in many processes in the chemical, pharmaceutical, and minerals processing industries. Continuously working decanter centrifuges are often applied for the separation or purification of the resulting suspensions. In order to minimise the experimental effort for dimensioning a centrifuge, mathematical models are required which describe the process adequately. The mathematical description of the cylindrical and conical part is needed to predict the build-up of finely dispersed cake in decanter centrifuges. This article presents a physically based computational model to predict the dynamic behaviour of decanter centrifuges. The method considers settling behaviour, cake consolidation, and sediment transport by means of material functions. The used material functions describe the behaviour of the slurry within the apparatus and are measured with well-established lab-scale centrifuges. Consideration of the cylindrical and conical part in the mathematical model allows for the investigation of the influence of different parameters (e.g. cone angle, length of cone, rotational speed, differential speed, etc.) on the process behaviour of decanter centrifuges. 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Finely dispersed suspensions are used as intermediate or end products in many processes in the chemical, pharmaceutical, and minerals processing industries. Continuously working decanter centrifuges are often applied for the separation or purification of the resulting suspensions. In order to minimise the experimental effort for dimensioning a centrifuge, mathematical models are required which describe the process adequately. The mathematical description of the cylindrical and conical part is needed to predict the build-up of finely dispersed cake in decanter centrifuges. This article presents a physically based computational model to predict the dynamic behaviour of decanter centrifuges. The method considers settling behaviour, cake consolidation, and sediment transport by means of material functions. The used material functions describe the behaviour of the slurry within the apparatus and are measured with well-established lab-scale centrifuges. Consideration of the cylindrical and conical part in the mathematical model allows for the investigation of the influence of different parameters (e.g. cone angle, length of cone, rotational speed, differential speed, etc.) on the process behaviour of decanter centrifuges. 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subjects Centrifugation
Decanter centrifuge
Dewatering
Dynamic simulation
Solid-liquid separation
title Dewatering of finely dispersed calcium carbonate-water slurries in decanter centrifuges: About modelling of a dynamic simulation tool
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