Development of High Pressure Membrane-Based Associated Gas Separation System for DME Synthesis

Abstract A rapid method for the determination of aflatoxins was developed using high pressure liquid chromatography and a radial compression separation system. A standard solution of aflatoxins B1, B1, G1, G2, and M1 was analyzed at flow rates of 2.0 and 6.0 mL/min. Retention times, peak heights, and peak areas were reproducible over a 3-day period. Coefficients of variation for aflatoxin B1 at 2.0 and 6.0 mL/min were, respectively, 1.04 and 0.87% (retention time); 2.9 and 4.7% (peak height); and 8.2 and 4.7% (peak area). At 6.0 mL/min there was an approximate 25% loss in sensitivity but a greater than 50% reduction in retention time. Separation of all the aflatoxins was excellent using a dual flow rate of 2.0 mL/min with a change to 8.0 mL/min at 15 min post-injection. The applicability of the radial compression separation system for the rapid determination of aflatoxins in human tissues was also tested. Spiked samples of liver, serum, and urine showed good resolution of all aflatoxin peaks at the higher flow rates.

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High pressure gas separation performance of mixed-matrix polymer membranes containing mesoporous Fe(BTC)

Journal of Membrane Science ◽

10.1016/j.memsci.2014.02.009 ◽

2014 ◽

Vol 459 ◽

pp. 33-44 ◽

Cited By ~ 102

Author(s):

Salman Shahid ◽

Kitty Nijmeijer

Keyword(s):

High Pressure ◽

Gas Separation ◽

Polymer Membranes ◽

Separation Performance ◽

Mixed Matrix ◽

Matrix Polymer ◽

Gas Separation Performance

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High-pressure gas separation

Membrane Technology ◽

10.1016/s0958-2118(02)80172-0 ◽

2002 ◽

Vol 2002 (5) ◽

pp. 14

Keyword(s):

High Pressure ◽

Gas Separation

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High Pressure Liquid Chromatographic Determination of Zearalenone in Chicken Tissues

Journal of AOAC INTERNATIONAL ◽

10.1093/jaoac/66.1.102 ◽

1983 ◽

Vol 66 (1) ◽

pp. 102-104

Author(s):

G Vincent Turner ◽

Timothy D Phillips ◽

Norman D Heidelbaugh ◽

Leon H Russell

Keyword(s):

High Pressure ◽

Kidney Tissue ◽

Chromatographic Determination ◽

Radial Compression ◽

Separation System ◽

High Pressure Liquid Chromatographic ◽

Chicken Fat ◽

Liquid Chromatographic Determination ◽

Liquid Chromatographic

Abstract A method is reported for the extraction and analysis of zearalenone in chicken fat, heart muscle, and kidney tissue by using high pressure liquid chromatography (HPLC). Zearalenone is extracted with acetonitrile, cleaned up with hexane, and extracted further with ethyl acetate. Zearalenone is determined by HPLC using a reverse phase radial compression separation system, an ultraviolet absorbance detector, and a mobile phase of acetonitrile-water (60 + 40) (v/v). Recoveries of zearalenone added at levels from 50 to 200 ng/g are in the range 82.6-95.1%.

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Success Story of First Malaysia Flare Tips Decommissioning in Sarawak Offshore Field Platform

10.2118/208622-ms ◽

2021 ◽

Author(s):

M Sahir Ahmad Shatiry ◽

Tajul Ekram Tajul Arif ◽

Norhafizah Baharuddin ◽

Firdaus Harun ◽

M Noraznan Asmadi ◽

...

Keyword(s):

High Pressure ◽

Offshore Platform ◽

Suitable Method ◽

Single Type ◽

Concept Selection ◽

Separation System ◽

Success Story ◽

Ignition System ◽

Offshore Field ◽

Lower Deck

Abstract The project was for part production enhancement project which to cater for brownfield & greenfield project. To cater to the production (oil) increment for the brownfield project, the existing flare tips and separation system need to be upgraded with higher capacity. The inclusive project was upgrading existing. Part of the scope was decommissioning the existing flare tip and associated system, e.g., ignition panel and ignition pipe. The project will decommission the current flare tips and replaced it with new higher capacity flare tips with Low Pressure (LP) & High Pressure (HP) connection. The existing flare panel was a single-type ignition system. The existing flare tip had LP & HP tip with 8″ inch size; the weight for both tip was estimated at 300 kg. The concept selection was discussed on the suitable method to lifting down the decommissioning flare tip at the offshore platform. There were 2 suitable techniques selected at the initial of the concept selection. One was lifting down the decommissioning flare tip directly from flare boom to vessel. Another method was manual rigging of the flare tips from the flare boom to the lower deck. After several discussions and workshops, it was decided to proceed with manual rigging of the decommissioning flare tip to the safe deck area. The removal of the decommissioning flare tip was performed during turnaround. The total days for the overall activity of the decommissioning & installation of the new flare tip was 3 days, 2 days ahead from planned duration 5 days.

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