دورة محاكاة العمليات باستخدام برنامج Aspen Hysys من الصفر للإحتراف

دورة محاكاة العمليات باستخدام برنامج Aspen Hysys من الصفر للإحتراف

برنامج أسبن هايسز هو البرمجية الأشهر في مجال محاكاة العمليات الصناعية في الهندسة الكيميائية والأكثر استخداماً حول العالم. تعلم الهايسز مهم لكل طالب، أو خريج هندسة كيميائية سواء في سيرتك الذاتية أو مهاراتك العملية كمهندس كيميائي.

59.99
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المدرب م.محمد حلمي أبو زهرة
السيرة الذاتية

محمد حلمى أبو زهرة، خريج هندسة البترول والتعدين بجامعة قناة السويس، مؤلف كتاب "Principles of Gas Flaring System"، محاضر معتمد في كورس الهايسس من Aspen Technology، ومدرس خارجي منتدب من قطاع البترول المصري، يتمتع بخبرة واسعة ويقدم دورات وندوات تدريبية دولية ومحلية في مجالات البترول والغاز والهندسة الكيميائية

آخر تحديث 28 يونيو, 2024
وقت الإكمال يوم 19 ساعة 36 دقيقة
الأعضاء 0
الأساسي متوسط متقدم
  • محاور الدورة
    64الدروس · يوم 19 س 36 د
    • معاينة مجانية
    • معاينة مجانية
    • Applications of simulation
    • ? What is a process simulator
    • ? What is Aspen Hysys
    • What makes Aspen Hysys different
    • ? How does Aspen Hysys work
    • Features of Aspen Hysys
    • Basics of thermodynamic calculations
    • How to start a simulation case in Aspen Hysys
    • Case (01): Flash calculation
    • Ethylene: The King of petrochemicals
    • Case (02): Studying the thermos-physical properties of Ethylene
    • How to select the most appropriate EOS to use in your case
    • What is gas liquefaction?
    • Gas liquefaction case with Aspen Hysys
    • What are compressors and expanders?
    • What are gas/liquid separators?
    • Flash separation case (simple oil/gas separator)
    • Developing the case
    • Gaber Ibn Hayyan: The Father of chemistry.
    • Theory and basics of distillation
    • Distillation tower internals: Trays
    • Distillation tower internals: Packing
    • The tallest distillation towers in Egypt
    • Types of distillation towers in Aspen Hysys
    • Practical part: Executing a case in Aspen Hysys
    • Practical part: Showing results of the case in Aspen Hysys
    • Practical part: Adding new design specification for a distillation tower.
    • Can we define distillation tower’s height, diameter, and internals type?
    • Operational problems of distillation towers: weeping, flooding
    • How to mechanically design a distillation tower using Aspen Hysys (User-selected VS Auto-selected)
    • Practical part: User-selected mechanical design of a distillation tower in Aspen Hysys (one-diameter tower).
    • Practical part: User-selected mechanical design of a distillation tower in Aspen Hysys (two-diameter tower).
    • Practical part: User-selected mechanical design of a distillation tower in Aspen Hysys (changing number of liquid passes per tray).
    • Practical part: Auto-selected mechanical design of a distillation tower in Aspen Hysys.
    • Gas treatment and gas processing.
    • Reviewing the case and quick revision
    • Doing the case: Mechanical design of the Absorber tower
    • Doing the case: installing the Absorber tower
    • Doing the case: adding a FWKOD upstream the Absorber tower
    • Doing the case: installing the regenerator tower.
    • Doing the case: finalizing the unit.
    • Developing the case using a fully-integrated distillation tower
    • Pipelines as the best reliable transportations method for oil&gas
    • Issues related to pipelines.
    • How to manually calculate pressure drop through a pipeline?
    • How to create a hypothetical component in Aspen Hysys
    • Doing the case in Aspen Hysys (V.10).
    • Doing the case in Aspen Hysys (V.12.1).
    • What are distillation towers (Quick Revision).
    • Shortcut distillation in Aspen Hysys.
    • BTX: Key players in petrochemical industry.
    • Doing the case in Aspen Hysys.
    • Quick review of comp., exp. HEx., and Air Coolers.
    • Developing the case: Linking the expander to the compressor.
    • Compressor-expander linkage in the site.
    • What is a chemical reaction? What are the chemical reactors?
    • Chemical reactors in Aspen Hysys.
    • The kingdom of petrochemicals.
    • Doing the case: Adding the reaction and starting the simulation.
    • Doing the case: Adding the reactor and exploring the results.
    • Doing the case: Using separator or tank as a reactor.
    • Exploring the different cooling techniques for the case.