Safety Analysis And Optimization By Aspen Hysys
Safety Analysis And Optimization By Aspen Hysys
Published 9/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 901.28 MB | Duration: 2h 1m
Published 9/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 901.28 MB | Duration: 2h 1m
PSV, Process Relief Devices, Original Optimizer, SQP Optimizer
What you'll learn
Safety Engineer
Process Engineer
Engineer
Mechanical Engineer
Requirements
Aspen HYSYS basic knowledge
Description
This comprehensive course is designed for engineers and safety professionals seeking to enhance their expertise in safety analysis and optimization within process industries using Aspen HYSYS. Participants will gain a thorough understanding of safety systems and optimization techniques, equipping them with the skills necessary to analyze and improve process safety and efficiency.Safety Analysis SectionPressure Relief Devices: Learn the principles and importance of pressure relief devices in maintaining system integrity under abnormal conditions.Safety Analysis Environment in Aspen HYSYS: Navigate the safety analysis tools within Aspen HYSYS, focusing on setup, execution, and interpretation of safety scenarios.Control Valve Failure: Assess the implications of control valve failures on process safety and how to model these failures in Aspen HYSYS.Fire Scenarios: Understand the methodologies for simulating fire scenarios and their impact on process safety.Line Sizing: Explore techniques for proper line sizing to prevent overpressure and ensure process efficiency.Multiple Pressure Safety Valves: Analyze the use of multiple pressure safety valves and their configuration for optimal safety performance.Optimization SectionOriginal Optimizer and Hyprotech SQP Optimizer: Delve into the principles of optimization using both the original optimizer and the advanced Hyprotech Sequential Quadratic Programming (SQP) optimizer within Aspen HYSYS.Process Variables: Define and identify key process variables that influence system performance and safety.Process Constraints: Understand the importance of process constraints and how to integrate them into optimization models.Objective Functions: Learn to formulate objective functions that drive optimization efforts, balancing safety and operational efficiency.
Overview
Section 1: Introduction
Lecture 1 Introduction
Lecture 2 Pressure Relief Device (PRD) introduction
Lecture 3 Safety Analysis Environment Interface
Section 2: Safety Analysis at Aspen HYSYS
Lecture 4 Safety Analysis Environment
Lecture 5 Blocked Outlet Scenario
Lecture 6 Fire Scenario
Lecture 7 Multiple Pressure Safety Valves (PSV)
Lecture 8 Line Sizing
Section 3: Optimization at Aspen HYSYS
Lecture 9 Original Optimizer
Lecture 10 Optimization SQP introduction
Lecture 11 Hyprotech SQP Optimization
Safety and Process engineer interested in simulation