Gas-liquid-liquid extraction in a novel rotating microchannel extractor

In this work, a novel rotating microchannel extractor (RME) is designed and further used for the extraction of chromium (III) from water. Unexpectedly, the micro-extraction had the same effect as carrying out 2.9-stage cross-flow extractions. Various factors, including the gas intake methods, gas in...

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Published in:Chinese journal of chemical engineering 2020-10, Vol.28 (10), p.2523-2532
Main Authors: Ma, Rui, Fan, Chunxin, Wang, Yubin, Luo, Jianhong, Li, Jun, Komarneni, Sridhar
Format: Article
Language:English
Subjects:
Extraction efficiency
Gas–liquid–liquid
Mass transfer
Microextraction
Rotating microchannel extractor
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cited_by cdi_FETCH-LOGICAL-c378t-c63f93353bba20a2327c33dbd32f0e2d226128e8d28d40b2e88cbbf2b8c87adb3
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container_issue 10
container_start_page 2523
container_title Chinese journal of chemical engineering
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creator Ma, Rui
Fan, Chunxin
Wang, Yubin
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Komarneni, Sridhar
description In this work, a novel rotating microchannel extractor (RME) is designed and further used for the extraction of chromium (III) from water. Unexpectedly, the micro-extraction had the same effect as carrying out 2.9-stage cross-flow extractions. Various factors, including the gas intake methods, gas intake quantity (Qg), distance between inner rotor and outer wall (D), rotational inner rotor speed (R) and volumetric flow rate (Qa, Qo), were selected to investigate their effect on the extraction efficiency (η) thoroughly. The relation map of η with Wea and Weo−g for RME provides a comprehension for the gas–liquid–liquid extraction process in this RME system. [Display omitted]
doi_str_mv 10.1016/j.cjche.2020.05.025
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subjects Extraction efficiency
Gas–liquid–liquid
Mass transfer
Microextraction
Rotating microchannel extractor
title Gas-liquid-liquid extraction in a novel rotating microchannel extractor
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