The effects of sulfides and sulfur/phosphorus‐containing compounds on coke formation during thermal cracking of light naphtha

Abstract: In this study, coke deposits during thermal cracking of light naphtha in the presence of sulfur‐ and sulfur/phosphorous‐containing compounds with different addition methods were investigated from the points of morphology and structure. Sulfur/phosphorous‐containing compounds were applied by continuous addition, pretreatment, and pretreatment followed by continuous addition. As for continuous addition, the amount of coke was decreased with increasing the mass concentration of sulfides in short‐term cracking per… Show more

“…A catalytic mechanism occurs due to the catalytic effect of metal particles such as Cr and Ni and its morphology is filaments of various types, such as segmented worms, spiral and rod filaments. [ 21 ] As a result, encapsulating coke is observed on the surface whenever the catalytic effect is suppressed, and carbon cannot penetrate through the metal particles. The coke morphology formed on the HP40 coupon in conditions of preoxidized and presulphided is shown in Figure 6.…”

“…The influence of the sulphurcontaining compounds on coke deposition depends on different factors, including the application methods (presulphidation and continuous addition), the nature and the amount of the sulphur compounds, and metal surface composition. [2,15,[18][19][20] Ding et al [21] used DMDS, thiophene, and benzothiophene as coke inhibitors and surveyed the influence of the application method and realized that pretreatment followed by continuous addition is the most effective procedure. In addition, Dhuyvetter et al [13] and Wang et al [15] both used DMDS in naphtha cracking and other hydrocarbons and figured out that the amount and the method of using this inhibitor make a significant change in the morphology and the amount of the coke.…”

Investigation of the effect of presulphidation on coke deposition on 25Cr‐35Ni alloy during ethane steam cracking

“…A catalytic mechanism occurs due to the catalytic effect of metal particles such as Cr and Ni and its morphology is filaments of various types, such as segmented worms, spiral and rod filaments. [ 21 ] As a result, encapsulating coke is observed on the surface whenever the catalytic effect is suppressed, and carbon cannot penetrate through the metal particles. The coke morphology formed on the HP40 coupon in conditions of preoxidized and presulphided is shown in Figure 6.…”

“…The influence of the sulphurcontaining compounds on coke deposition depends on different factors, including the application methods (presulphidation and continuous addition), the nature and the amount of the sulphur compounds, and metal surface composition. [2,15,[18][19][20] Ding et al [21] used DMDS, thiophene, and benzothiophene as coke inhibitors and surveyed the influence of the application method and realized that pretreatment followed by continuous addition is the most effective procedure. In addition, Dhuyvetter et al [13] and Wang et al [15] both used DMDS in naphtha cracking and other hydrocarbons and figured out that the amount and the method of using this inhibitor make a significant change in the morphology and the amount of the coke.…”

Investigation of the effect of presulphidation on coke deposition on 25Cr‐35Ni alloy during ethane steam cracking

“…The usual procedure carried out is the sulfurization with dimethyl disulfide (DMDS) of the catalytic solid with the objective of minimize the material coking tendency by inducing the passivation of active metal by a strong attach of the sulfur [50,51]. The Differential Thermogravimetric analysis (DTG) profiles of used samples (Fig.…”

Bi‐Reforming of Biogas for Hydrogen Production with Sulfur‐Resistant Multimetallic Catalyst