Research on the static experiment of super heavy crude oil demulsification and dehydration using ultrasonic wave and audible sound wave at high temperatures

•Dehydration rate will decrease when sound intensity reach a certain level.•Water ratio has a heavy and complex influence on ultrasonic dehydration rate.•Bigger values of ultrasonic treatment time aren’t always better for dehydration.•The effect of ultrasonic dehydration become better with the incre...

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Veröffentlicht in:	Ultrasonics sonochemistry 2018-01, Vol.40 (Pt A), p.1014-1020
Hauptverfasser:	Wang, Zhenjun, Gu, Simin, Zhou, Long
Format:	Artikel
Sprache:	eng
Schlagworte:	Dehydration Demulsification Ultrasonic irradiation
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container_end_page	1020
container_issue	Pt A
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container_title	Ultrasonics sonochemistry
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creator	Wang, Zhenjun Gu, Simin Zhou, Long
description	•Dehydration rate will decrease when sound intensity reach a certain level.•Water ratio has a heavy and complex influence on ultrasonic dehydration rate.•Bigger values of ultrasonic treatment time aren’t always better for dehydration.•The effect of ultrasonic dehydration become better with the increase of temperature. In this paper, the static experiment of super heavy crude oil demulsification and dehydration using ultrasonic irradiation at high temperatures is carried out. How the all factors, such as ultrasonic frequency, sound intensity, ultrasonic power, ultrasonic treatment time, sedimentation time, temperature and water ratio, affect ultrasonic crude oil demulsification and dehydration are summarized though this experiment. In addition, recent progress on ultrasonic demulsification equipment in China are reviewed. The purpose of this paper is to provide equipment and technical support for the extensive application of the technique of ultrasonic demulsification and dehydration.
doi_str_mv	10.1016/j.ultsonch.2017.08.037
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subjects	Dehydration Demulsification Ultrasonic irradiation
title	Research on the static experiment of super heavy crude oil demulsification and dehydration using ultrasonic wave and audible sound wave at high temperatures
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