Download Gas Processing & Liquefaction Simulation with Aspen HYSYS 2024
Gas Processing & Liquefaction Simulation with Aspen HYSYS udemy video course download, Comprehensive Guide to Modeling Natural Gas Processing and Liquefaction Plant in Aspen HYSYS. Unlock the power of Aspen HYSYS and elevate your skills in gas processing and liquefaction simulation with this hands-on, comprehensive course.
Whether you’re a chemical engineering student, a process engineer, or a professional looking to enhance your simulation expertise, this course is your gateway to mastering one of the most widely-used software tools in the industry. In this course, you’ll dive deep into the core principles of natural gas processing and liquefaction. You’ll start by learning the essential gas treatment processes, from gas separation and sweetening to dehydration, all while building practical simulations in Aspen HYSYS.
We’ll guide you through real-world case studies, where you’ll learn to model gas-oil separators, optimize gas treatment systems, and troubleshoot common issues in process simulations. But we don’t stop there! You’ll also explore the fascinating world of liquefaction, learning to simulate natural gas liquefaction processes step by step. With easy-to-follow tutorials and industry-relevant examples, you’ll gain the skills to design and simulate complete natural gas processing and liquefaction systems.
What you’ll learn
- Natural Gas processing and liquefaction principles
- Model an acid gas sweetening process using diethanolamine (DEA)
- Model a gas dehydration unit using tri-ethylene Glycol (TEG)
- Model an NGL fractionation process
- Model an LNG production process
Course content
- Section 1: Getting Started with Natural Gas Processing and Liquefaction
- Lecture 1 Introduction to Natural Gas Processing and Liquefaction
- Section 2: Acid Gas Sweetening with Diethanolamine (DEA)
- Lecture 2 Overview of Acid Gas Sweetening with Diethanolamine (DEA)
- Lecture 3 Defining the Fluid Package
- Lecture 4 Building the Amine Contactor
- Lecture 5 Adding the Regenerator and Makeup
- Lecture 6 Completing the Flowsheet and Reviewing Results
- Section 3: Gas Dehydration with Tri-ethylene Glycol (TEG)
- Lecture 7 Overview of Gas Dehydration with Tri-ethylene Glycol (TEG)
- Lecture 8 Defining the Feed Streams
- Lecture 9 Saturating the Dry Gas Feed
- Lecture 10 Adding the TEG Contactor
- Lecture 11 Adding TEG Regenerator and Makeup Operation
- Lecture 12 Performing Water Dew Point Calculation
- Section 4: Natural-Gas Liquids Recovery using Turbo Expanders (NGL Fractionation Plant)
- Lecture 13 Overview Natural-Gas Liquids Recovery using Turbo Expanders
- Lecture 14 Setting Up the Turbo Expander
- Lecture 15 Adding the Fractionation Columns
- Lecture 16 Sales Gas Compression
- Lecture 17 Customizing Stream Properties
- Section 5: Natural Gas Liquefaction (LNG Plant)
- Lecture 18 Overview of Natural Gas Liquefaction (LNG Plant)
Who this course is for
- Chemical Engineers
- Process Engineers
- Recent Graduates from Chemical Engineering or other Related Engineering Fields
- Students in Chemical Engineering or other Related Engineering Fields
Course details
- Video quality: MP4 | Video: h264, 1280 × 720
- Audio quality: Audio: AAC, 44.1 KHz, 2 Ch
- Published 12/2024
- Video duration: 2h 55m
- Number of lessons: 5 sections, 18 lectures
- Language: Language: English
- Compressed file size: 1.2 GB
