Menu
Search
Filters
Close
Menu

Chemical Inertness, Reproducibility And Coke Deposition For Coated And Non-Coated AISI 347 Tubes

Picture for Chemical Inertness, Reproducibility And Coke Deposition For Coated And Non-Coated AISI 347 Tubes
Available for download
Product Number: 51321-16623-SG
Author: Micael Presa Aller/ Sanjay Lodha/ Andres Tomás Aguayo/ Ana Guadalupe Gayubo
Publication Date: 2021
$0.00
$20.00
$20.00

Regarding the economic and operational issues derived from the carbon deposition on the surface of stainless steel tubes in the chemical industry, the coating of the internal surface with a ceramic layer is useful for preventing the formation of deposits and extending the lifetime of the tubes. The thermal degradation of dimethyl ether (DME) at 700 ºC has been used as reaction test to compare the carbon deposition on standard (non-coated) and coated tubes. The results evidence an outstanding decrease in the amount of deposited carbon on the coated tubes, as well as the possibility of operating at longer times since the carbon deposits are only formed at the very beginning of the tests. The reversibility of the formation and combustion of the carbon deposits is proved for the coated tube, so that reproducible results have been attained in different cycles, which is not possible with a conventional uncoated stainless steel tube.

Key words: anti-coking, ceramic coating, stainless steel, dimethyl ether

Regarding the economic and operational issues derived from the carbon deposition on the surface of stainless steel tubes in the chemical industry, the coating of the internal surface with a ceramic layer is useful for preventing the formation of deposits and extending the lifetime of the tubes. The thermal degradation of dimethyl ether (DME) at 700 ºC has been used as reaction test to compare the carbon deposition on standard (non-coated) and coated tubes. The results evidence an outstanding decrease in the amount of deposited carbon on the coated tubes, as well as the possibility of operating at longer times since the carbon deposits are only formed at the very beginning of the tests. The reversibility of the formation and combustion of the carbon deposits is proved for the coated tube, so that reproducible results have been attained in different cycles, which is not possible with a conventional uncoated stainless steel tube.

Key words: anti-coking, ceramic coating, stainless steel, dimethyl ether

Product tags
Also Purchased
Picture for Using a Computational Galvanic Model in a Fracture Mechanics Framework to Improve Material Degradation Prediction
Available for download

Using a Computational Galvanic Model in a Fracture Mechanics Framework to Improve Material Degradation Prediction

Product Number: 51321-16509-SG
Author: Robert Adey/ Andres Peratta/ John Baynham/ Thomas Curtin
Publication Date: 2021
$20.00
Picture for Friction Reduction Coatings For Carbonate Scale Mitigation: A Comparison Of Materials Technologies
Available for download

Friction Reduction Coatings For Carbonate Scale Mitigation: A Comparison Of Materials Technologies

Product Number: 51321-16533-SG
Author: Manuel Marya/ Virendra Singh/ Alireza Zolfaghari/ Vipul Shinde
Publication Date: 2021
$20.00
Picture for Case Study On The Downhole Materials Selection And Sour Service Qualification For A High Pressure, High Temperature Gas Field
Available for download

Case Study On The Downhole Materials Selection And Sour Service Qualification For A High Pressure, High Temperature Gas Field

Product Number: 51321-16554-SG
Author: Roberto Morana/ Lee Smith/ Sai Prasanth Venkateswaran/ Elizabeth Trillo/Luciana Intiso
Publication Date: 2021
$20.00
Categories
Industry
Recently viewed
Popular tags
View all

Association for Materials Protection and Performance

© AMPP All Rights Reserved.
Membership Terms of Content Use
Contact Customer Support