Safety Analysis and Optimization by Aspen HYSYS
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 Section Original 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.
Who this course is for:
Safety and Process engineer interested in simulation
Published 9/2024
Created by Sarah Zayan
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 11 Lectures ( 2h 1m ) | Size: 624 MB
Download
http://s9.alxa.net/one/2024/09/Safet...spen.HYSYS.rar
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 Section Original 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.
Who this course is for:
Safety and Process engineer interested in simulation
Published 9/2024
Created by Sarah Zayan
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 11 Lectures ( 2h 1m ) | Size: 624 MB
Download
http://s9.alxa.net/one/2024/09/Safet...spen.HYSYS.rar