تصميم وتقييم المبادلات الحرارية باستخدام Aspen EDR

Course Category : Oil & Gas Management

A specialised technical course designed to develop professional competence in high-accuracy design and rating of heat exchangers using Aspen EDR, aligned with international standards and integrated with Aspen Plus and Aspen HYSYS
Duration: 5 Days
Level: Advanced

Introduction

Heat exchangers are among the most critical static equipment in industrial plants, and their performance depends directly on the accuracy of thermal and hydraulic design. Any design deficiency may lead to reduced efficiency, increased energy consumption, or long-term operational problems. This highlights the importance of advanced design tools such as Aspen EDR
This specialised course focuses on the use of Aspen EDR as a powerful standalone application for the design and rating of heat exchangers, particularly Shell & Tube exchangers, in accordance with international standards such as TEMA. It also demonstrates how operating data from Aspen Plus and Aspen HYSYS can be integrated with Aspen EDR to achieve realistic designs that accurately reflect actual operating conditions.

Targeted Audience

Process Engineers
Thermal Design Engineers
Static Equipment Engineers
Energy and Performance Engineers
Maintenance and reliability engineers
Oil, gas, and petrochemical engineers

Targeted Skills

Using Aspen EDR for heat exchanger design
Shell & Tube exchanger design and rating
Advanced thermal and hydraulic analysis
Pressure drop and operating limit evaluation
Performance assessment under operating conditions
Integration with Aspen Plus and Aspen HYSYS

Expected Outcomes

Designing heat exchangers with high engineering accuracy using Aspen EDR.
Performing rating studies for existing heat exchangers.
Analysing heat transfer and pressure drop professionally.
Applying industrial design standards such as TEMA.
Integrating exchanger models with Aspen Plus and HYSYS operating data.

Training Topics Index

Role of heat exchangers in industry
Heat exchanger types
Aspen EDR within Aspen environment
Design versus rating

Geometry selection
Tube bundle arrangements
Shell and baffle configurations
Mechanical design limits

Heat transfer coefficients
Pressure drop calculations
Fouling considerations
Performance constraints

Operating data input
Performance verification
Identifying underperformance causes
Improvement recommendations

Stream data transfer
Operating condition matching
Design and retrofit support
Industrial case studies

Course Features

Updated and Interactive Content
Hypothetical Examples and Case Studies
Pre- and Post-assessments to Measure Impact
Verified Certificate with a QR Verification Code