Dynamic Oil-in-Water Concentration Acquisition on a Pilot-Scaled Offshore Water-Oil Separation Facility

Petar  Durdevic; Chitra Sangaraju Raju; Mads Valentin Bram; Dennis Severin Hansen; Zhenyu Yang

doi:10.3390/s17010124

Dynamic Oil-in-Water Concentration Acquisition on a Pilot-Scaled Offshore Water-Oil Separation Facility

Petar Durdevic, Chitra Sangaraju Raju, Mads Valentin Bram, Dennis Severin Hansen, Zhenyu Yang

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

11 Citationer (Scopus)

305 Downloads (Pure)

Abstract

This article is a feasibility study on using fluorescence-based oil-in-water (OiW) monitors for on-line dynamic efficiency measurement of a deoiling hydrocyclone. Dynamic measurements are crucial in the design and validation of dynamic models of the hydrocyclones, and to our knowledge, no dynamic OiW analysis of hydrocyclones has been carried out. Previous studies have extensively studied the steady state efficiency perspective of hydrocyclones, and have related them to different key parameters, such as the pressure drop ratio (PDR), inlet flow rate, and the flow-spilt. Through our study, we were able to measure the dynamics of the hydrocyclone’s efficiency (ϵ) response to step changes in the inlet flow rate with high accuracy. This is a breakthrough in the modelling, control, and monitoring of hydrocyclones.

Originalsprog	Engelsk
Artikelnummer	124
Tidsskrift	Sensors
Vol/bind	17
Udgave nummer	1
Antal sider	11
ISSN	1424-8220
DOI	https://doi.org/10.3390/s17010124
Status	Udgivet - 2017

Adgang til dokumentet

10.3390/s17010124

Open access articleForlagets udgivne version, 1,27 MBLicens: CC BY 4.0

AUB Link

Søg efter materialet i Aalborg Universitetsbiblioteks søgemaskine

Control-oriented modeling of de-oiling hydrocyclone system coupled with upstream 3-phase separator
Yang, Z. & Bram, M. V.
01/09/2016 → 31/12/2016
Projekter: Projekt › Forskning
PDPWAC: Plant-wide De-oiling of Produced Water using Advanced Control
Yang, Z., Pedersen, S., Durdevic, P., Pedersen, J. K., N. Soltani, M., Stigkær, J. P., Aillos, A., Løhndorf, B. & Sørensen, P.
22/04/2013 → 31/12/2016
Projekter: Projekt › Forskning

Citationsformater

@article{16b2c967240943049d1fcb34123452eb,

title = "Dynamic Oil-in-Water Concentration Acquisition on a Pilot-Scaled Offshore Water-Oil Separation Facility",

abstract = "This article is a feasibility study on using fluorescence-based oil-in-water (OiW) monitors for on-line dynamic efficiency measurement of a deoiling hydrocyclone. Dynamic measurements are crucial in the design and validation of dynamic models of the hydrocyclones, and to our knowledge, no dynamic OiW analysis of hydrocyclones has been carried out. Previous studies have extensively studied the steady state efficiency perspective of hydrocyclones, and have related them to different key parameters, such as the pressure drop ratio (PDR), inlet flow rate, and the flow-spilt. Through our study, we were able to measure the dynamics of the hydrocyclone{\textquoteright}s efficiency (ϵ) response to step changes in the inlet flow rate with high accuracy. This is a breakthrough in the modelling, control, and monitoring of hydrocyclones.",

keywords = "Oil in water, Oil and gas, Offshore, Dynamic, On-line monitoring, Process control",

author = "Petar Durdevic and Raju, {Chitra Sangaraju} and Bram, {Mads Valentin} and Hansen, {Dennis Severin} and Zhenyu Yang",

year = "2017",

doi = "10.3390/s17010124",

language = "English",

volume = "17",

journal = "Sensors",

issn = "1424-8220",

publisher = "M D P I AG",

number = "1",

}

TY - JOUR

T1 - Dynamic Oil-in-Water Concentration Acquisition on a Pilot-Scaled Offshore Water-Oil Separation Facility

AU - Durdevic, Petar

AU - Raju, Chitra Sangaraju

AU - Bram, Mads Valentin

AU - Hansen, Dennis Severin

AU - Yang, Zhenyu

PY - 2017

Y1 - 2017

N2 - This article is a feasibility study on using fluorescence-based oil-in-water (OiW) monitors for on-line dynamic efficiency measurement of a deoiling hydrocyclone. Dynamic measurements are crucial in the design and validation of dynamic models of the hydrocyclones, and to our knowledge, no dynamic OiW analysis of hydrocyclones has been carried out. Previous studies have extensively studied the steady state efficiency perspective of hydrocyclones, and have related them to different key parameters, such as the pressure drop ratio (PDR), inlet flow rate, and the flow-spilt. Through our study, we were able to measure the dynamics of the hydrocyclone’s efficiency (ϵ) response to step changes in the inlet flow rate with high accuracy. This is a breakthrough in the modelling, control, and monitoring of hydrocyclones.

AB - This article is a feasibility study on using fluorescence-based oil-in-water (OiW) monitors for on-line dynamic efficiency measurement of a deoiling hydrocyclone. Dynamic measurements are crucial in the design and validation of dynamic models of the hydrocyclones, and to our knowledge, no dynamic OiW analysis of hydrocyclones has been carried out. Previous studies have extensively studied the steady state efficiency perspective of hydrocyclones, and have related them to different key parameters, such as the pressure drop ratio (PDR), inlet flow rate, and the flow-spilt. Through our study, we were able to measure the dynamics of the hydrocyclone’s efficiency (ϵ) response to step changes in the inlet flow rate with high accuracy. This is a breakthrough in the modelling, control, and monitoring of hydrocyclones.

KW - Oil in water

KW - Oil and gas

KW - Offshore

KW - Dynamic

KW - On-line monitoring

KW - Process control

U2 - 10.3390/s17010124

DO - 10.3390/s17010124

M3 - Journal article

SN - 1424-8220

VL - 17

JO - Sensors

JF - Sensors

IS - 1

M1 - 124

ER -

Dynamic Oil-in-Water Concentration Acquisition on a Pilot-Scaled Offshore Water-Oil Separation Facility

Abstract

Adgang til dokumentet

AUB Link

Fingeraftryk

Projekter

Control-oriented modeling of de-oiling hydrocyclone system coupled with upstream 3-phase separator

PDPWAC: Plant-wide De-oiling of Produced Water using Advanced Control

Citationsformater