Disintegration Control Technology for Production Debottlenecking
Disintegration Control Technology for Production Debottlenecking
Debottlenecking is a significant operational activity for some ventures. To build the limit or throughput of a handling plant you would by and large need to put in new gear which can be cost-restrictive for some administrators. The arrangement is debottlenecking; the way toward expanding creation out of existing plant or hardware by improving certain procedures or patching up a gear. While the idea isn't new, the IntecSea group has been investigating better approaches to move toward an issue distinguished in numerous debottlenecking considers – sand disintegration in hardware. They have grown new innovations to handle this basic issue.
What is sand disintegration?
In the oil and gas industry, sand creation is a typical event. At the point when sand is experienced in an oil or gas store, it winds up being shipped through the whole delivering framework. This inconveniently influences the throughput of the activities, yet in addition the protected and dependable activity of hardware, as the sand dissolves the gear after some time.
What is Erosion Control Technology?
The IntecSea group has created Erosion Control Technology (ECT), which utilizes a novel methodology for controlling sand disintegration. It depends on the key arrangement of altered embeds inside a stream way to lessen the concentrated impacts of disintegration. The benefit of ECT is that it's adroitly straightforward and gives a versatile arrangement. The modified additions can be retrofitted for brownfield applications or considered for new improvements to separate included value.]
Current State of Development
ECT 'evidence of idea' testing was performed at the India Institute of Technology Delhi in their stream circle offices utilizing dry air and sand. During testing with the supplement introduced, disintegration rates were altogether decreased at problem areas inside the test twists and visually impaired tees. The great relationship was likewise accomplished with Computational Fluid Dynamic (CFD) displaying to anticipate disintegration rates under the test conditions.
Multiphase (air + water + sand) testing of a reexamined ECT model under genuine field conditions has now been performed at the Erosion/Corrosion Research Center at the University of Tulsa. The tests have indicated a critical decrease in disintegration. At high gas condition (VSG 31 m/s) the decrease in disintegration on the main elbow because of the ECT embed has been one request for a size lower. At low gas condition (VSG 23 m/s) the supplement has disposed of the disintegration on the first elbow.
The accompanying figures show CFD displaying results demonstrating disintegration problem areas and the subsequent alleviation when an addition is introduced.
The group is as of now in conversations with various driving administrators to lead a field preliminary, directed for 2020. The aftereffects of the path will be introduced to the more extensive oil and gas network and target potential uses of the innovation to comprehend continuous disintegration issues.
For more data, if it's not too much trouble contact Andrew Low, Prasad Kane or Robert McNaught.
Debottlenecking is a significant operational activity for some ventures. To build the limit or throughput of a handling plant you would by and large need to put in new gear which can be cost-restrictive for some administrators. The arrangement is debottlenecking; the way toward expanding creation out of existing plant or hardware by improving certain procedures or patching up a gear. While the idea isn't new, the IntecSea group has been investigating better approaches to move toward an issue distinguished in numerous debottlenecking considers – sand disintegration in hardware. They have grown new innovations to handle this basic issue.
What is sand disintegration?
In the oil and gas industry, sand creation is a typical event. At the point when sand is experienced in an oil or gas store, it winds up being shipped through the whole delivering framework. This inconveniently influences the throughput of the activities, yet in addition the protected and dependable activity of hardware, as the sand dissolves the gear after some time.
What is Erosion Control Technology?
The IntecSea group has created Erosion Control Technology (ECT), which utilizes a novel methodology for controlling sand disintegration. It depends on the key arrangement of altered embeds inside a stream way to lessen the concentrated impacts of disintegration. The benefit of ECT is that it's adroitly straightforward and gives a versatile arrangement. The modified additions can be retrofitted for brownfield applications or considered for new improvements to separate included value.]
Current State of Development
ECT 'evidence of idea' testing was performed at the India Institute of Technology Delhi in their stream circle offices utilizing dry air and sand. During testing with the supplement introduced, disintegration rates were altogether decreased at problem areas inside the test twists and visually impaired tees. The great relationship was likewise accomplished with Computational Fluid Dynamic (CFD) displaying to anticipate disintegration rates under the test conditions.
Multiphase (air + water + sand) testing of a reexamined ECT model under genuine field conditions has now been performed at the Erosion/Corrosion Research Center at the University of Tulsa. The tests have indicated a critical decrease in disintegration. At high gas condition (VSG 31 m/s) the decrease in disintegration on the main elbow because of the ECT embed has been one request for a size lower. At low gas condition (VSG 23 m/s) the supplement has disposed of the disintegration on the first elbow.
The accompanying figures show CFD displaying results demonstrating disintegration problem areas and the subsequent alleviation when an addition is introduced.
What's next for ECT?
The group is as of now in conversations with various driving administrators to lead a field preliminary, directed for 2020. The aftereffects of the path will be introduced to the more extensive oil and gas network and target potential uses of the innovation to comprehend continuous disintegration issues.
For more data, if it's not too much trouble contact Andrew Low, Prasad Kane or Robert McNaught.
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