Advaced Process Modeling using Aspen HYSYS

Course ID : EHY101-2

Duration In-class (в days) : 5 days

Duration Online : 5 days

Сurriculum : in-class, Virtual Instructor-Led Training - ONLINE

Delivery : 13.05.2024 - 17.05.2024
21.10.2024 - 25.10.2024

Price : $3 000

Overview

Difference from the three-day course EHY101 Aspen HYSYS: Process Modeling (Introduction to Process Modeling Using Aspen HYSYS):

both tasks are performed from the variable part, which allows you to better assimilate the material
added new, more difficult questions to the tasks of the regular course
tasks were added for independent, creative modeling, when there are only initial data, and technological parameters need to be determined by yourself
it is proposed to independently develop a technological scheme with a choice of the quantity and composition of equipment
modeling skills improve
situational tasks are as close as possible to real production cases
instructor provides additional practical information
it is possible to create a model of the technological process chosen by the student, under the guidance of an instructor

graduates of engineering and technology universities who plan to use the Aspen HYSYS software product in their daily work
process engineers responsible for survey and production optimization projects
engineers of industrial enterprises responsible for checking the operation of equipment in various operating conditions
R&D engineers and researchers using Aspen HYSYS for process analysis

Education in the field of chemical engineering and chemical technology.

Upon completion of the course, students will gain skills to:

use the intuitive bi-directional solver and other key features of Aspen HYSYS, which can significantly speed up the process of creating flowsheets
use the Workbook and Process Flow Diagram for fast and efficient simulation
integrate nested flowsheets to organize and optimize simulations
use various reporting tools, including Microsoft Excel VB macros
evaluate the parameters of existing equipment by using the equipment sizing tools contained in the Aspen HYSYS software product
improve the convergence characteristics of columns and flowsheets; search for encountered problems and their localization
determine the optimal operating points of the process
make hydraulic calculations of pipelines to estimate the size of gas collection systems

Day 1

Overview of modeling processes
The first steps
Building a propane refrigeration cycle (+ plant with individual refrigerant, their comparison and analysis)
Simulation of a gas cooling plant (+ cooling with another refrigerant)
Reports in AspenHYSYS

Day 2

Performance of oil characterization and separation at high pressure (+ characterization of oil from the Oil of the USSR reference book)
Simulation of two-stage compression (+ three-stage compression, selection of intermediate pressures)
Evaluation of heat exchangers (+ selection of the configuration of heat exchangers)
Best practices and problem solving

Day 3

Construction of a gas collection system (+ analysis of work, calculation of well flow rates by pressure)
Building a model of an oil heating block (+ heating individual oil)
Simulation of NGL fractionation (+ independent simulation with obtaining other products)

Day 4

Construction and analysis of the atmospheric column (+ self-simulation for individual oil)
Construction and analysis of a vacuum column with thermal integration (+ self-simulation for individual oil)

Day 5