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ازالة الكبريت بالامتزاز من النفثا الثقيلة العراقية بواسطة 13X زيولايت == Adsorption Desulfurization of Iraqi Heavy Naphtha Using 13X Zeolite
Author name:
موفق محمد يحيى
Supervisor name:
حسين قاسم حسين
General topic:
Chemical Engineering
Specific topic:
Chemical Engineering
Degree:
Master
University:
University of Baghdad - College Of Engineering - Department Of Chemical Engineering
Language:
English
University location:
Baghdad
First pages:
38T289 - p.pdf
Abstract:
اجري هذا العمل لدراسة تاثير الامتزاز الانتقائي في ازالة مركبات الكبريت من النفثا الثقيلة العراقية التي تم توريدها من مصفاة الدورة. انجزت عملية الامتزاز بواسطة 13 منخل جزيئي داخل العمود ذو الحشوة الثابتة. X 6?? - من ??5 LHSV وقد نفذ الامتزاز الانتقائي في | This work was conducted to study the effect of selective adsorption on removal of sulfur compounds from Iraqi heavy naphtha which was supplied from Al - Dura refinery. The adsorption was carried out by molecular sieve 13X in a fixed - bed column.The selective adsorption was run out at different operating conditions such as LHSV from 1.5 - 6.0 h P - 1 P , molecular sieve bed weight from 15 - 30 g , sulfur inlet concentration of feedstock from 600 - 1650 ppm, and adsorption temperature at 25 PoPC and 40 PoPC.The breakthrough time, breakpoint and saturation state ( bed replace point ) were determined for different operating conditions in addition to the ratio of accumulated effluent weight per bed weight. Also , regeneration possibility of 13X spent catalyst was studied by using oxidative technique at different temperatures and air flow rates.The results show that increasing in LHSV and inlet concentration makes the breakthrough curves more steeper , also the breakthrough time and breakpoint decreases. Increasing the bed weight will increase both the breakthrough time and breakpoint.The best operating conditions for removing sulfur compounds were LHSV 3.0 h - 1 , bed weight of molecular sieve about 20 g and 25oC temperature , where the sulfur content in a heavy naphtha was reduced from nearly 600 ppm to less than 1 ppm (by weight).Regeneration step was thermally took place by hot air flow in a range of 16.66 - 25 liter / min and temperature range from 200 - 350 oC , the best desorption conditions for (85.8%) weight percent removal were at 16.66 liter / min air flow and 350 oC.
