AspenTech offers training options that fits every schedule and learning preference. Delivered virtual or in-person, our trainings are guided by experts. Or learn at your own pace with our extensive digital library of eLearning courses.
Guided by our experts. Interactive, live-instructor led; delivered in-person or virtually
RegisterTailored experience that fits your organization competency needs guided by our experts; delivered at your site or virtually
RequestLearn at your own pace with our bite-sized eLearning courses organized into learning paths
SubscribeAspen DMCplus® Controller
Introductory
2 day(s)
Aspen DMCplus® Controller
Introductory
5 day(s)
Aspen DMC3 Builder
Introductory
5 day(s)
Aspen DMC3 Builder
Introductory
5 day(s)
Aspen DMC3
Introductory
2 day(s)
Aspen DMCplus® Controller
Introductory
3 day(s)
Aspen Process Controller Builder
Introductory
3 day(s)
Aspen Process Recipe
Introductory
2 day(s)
Aspen Inferential Qualities
Intermediate
3 day(s)
Aspen Nonlinear Controller
Introductory
3 day(s)
Aspen Watch Performance Monitor
Intermediate
3 day(s)
Aspen DMC3
Intermediate
0.5 day(s)
Aspen DMC3
Advanced
3 day(s)
Aspen DMC3
Intermediate
0.5 day(s)
-
What you Need to Know Before Implementing a DMC3 Controller. AspenTech’s DMC3 controllers optimize the operation of a plant to a point where profit is maximized, and costs are minimized. It determines a plan of operation and sends it down to the underlying regulatory control system, a DCS or PLC. The DCS in turn carries out the plan by sending commands to the process equipment. Therefore, to be successful, DMC3 relies on the performance of the DCS. This seminar presents an introduction to the components of regulatory control systems relevant to the DMC3 controller operation.
Explore APC500Aspen DMC3 Builder
Introductory
5 day(s)
Aspen GDOT
Introductory
0.5 day(s)
Aspen GDOT
Introductory
3 day(s)
Aspen GDOT
Introductory
3 day(s)
Aspen Fidelis
Introductory
3 day(s)
Aspen Mtell
Advanced
1 day(s)
Aspen Fidelis
Introductory
1 day(s)
-
This course helps you get acquainted with Systems Modeling, general Reliability and Maintenance principles and practices and understand how those are incorporated in Aspen Fidelis
Upon completion the engineer should understand how:
► You will go through various workshops to understand the workflow and basic components of an AFR model.
► This course will enable you understand your plant model in terms of plant performance and unplanned equipment failures, and provide quick pointers to improve the same.
► You will learn how to use plant data to generate results and enable informed, defensible, decisions on capital asset management.
Explore ENG105
Aspen Fidelis
Intermediate
0.5 day(s)
Aspen Mtell
Introductory
5 day(s)
Use AI and Machine Learning algorithms to stop machines from breaking down, make them last longer, reduce maintenance costs, and increase the net product output of any process. Learn how to configure Aspen Mtell and develop the appropriate plant floor equipment hierarchy and taxonomy to facilitate Condition Monitoring. Set up alert notification strategies and custom monitoring displays. Perform conditioning and analysis of time-series sensor data. Build and deploy advanced condition monitoring strategies. Implement Operator Maintenance Advisory capabilities enabling operators to track open work orders and create work requests directly from their own user interface.
Explore MPM101Aspen Mtell
Introductory
1 day(s)
Learn to install, create, and configure a Mtell solution. Obtain a basic familiarity with the steps to implement a successful project.
Explore MPM111Aspen Mtell
Introductory
3 day(s)
Use AI and Machine Learning algorithms to stop machines from breaking down, make them last longer, reduce maintenance costs, and increase the net product output of any process. Learn how to configure Aspen Mtell and develop the appropriate plant floor equipment hierarchy and taxonomy to facilitate Condition Monitoring. Set up alert notification strategies and custom monitoring displays. Perform conditioning and analysis of time-series sensor data. Build and deploy advanced condition monitoring strategies. Implement Operator Maintenance Advisory capabilities enabling operators to track open work orders and create work requests directly from their own user interface.
Explore MPM121Aspen Mtell
Introductory
2 day(s)
In this course, you will learn how to navigate and use Aspen Mtell Builder, understand the purpose of an Asset Template and fill one out, modify existing Asset Templates by adding new sensor roles and calculated sensors, create condition-based monitoring and rule agents, define Key Performance Indicators (KPIs) for equipment health monitoring, and view live agents and triage alerts using Aspen Mtell Alert Manager.
Explore MPM122Aspen Mtell
Introductory
1 day(s)
The Aspen Mtell application is a condition monitoring solution that uses automated Machine Learning to stop machines from breaking down, makes them last longer, reduces maintenance costs, and increases the net product output of any process.
This course prepares you to manage the lifecycle of alerts in a Mtell real-time monitoring solution. You will learn to navigate Aspen Mtell Alert Manager, a web application that helps users to manage alerts and monitor their online assets.
Explore MPM131Aspen Mtell
Advanced
1 day(s)
In this training, you will learn how to implement custom agents in Aspen Mtell. You will understand why integrating custom agents into Mtell are desired, explore some use cases of when custom agents might be used, and learn how to configure and create a few simple custom agents. You will also learn how to manage the deployed custom agents in Aspen Mtell Alert Manager.
This is an advanced course. You should be familiar with Aspen Mtell and be an Aspen Mtell Certified User prior to attending this class.
Explore MPM221Aspen Unscrambler
Introductory
2 day(s)
During this training session you will learn about:
Aspen Unscrambler
Introductory
2 day(s)
During this training session you will learn about:
Aspen Unscrambler
Introductory
2 day(s)
During this training session you will learn about:
Aspen Unscrambler
Introductory
2 day(s)
During this training session you will learn about:
Unscrambler Process Pulse
Introductory
2 day(s)
During this training session you will learn about:
Aspen Unscrambler
Introductory
2 day(s)
During this training session you will learn about:
Aspen ProMV
Introductory
2 day(s)
Aspen ProMV
Introductory
1 day(s)
Aspen Enterprise Insights
Introductory
3 day(s)
Aspen AI Model Builder
Introductory
1 day(s)
AspenTech Inmation
Introductory
3 day(s)
Aspen Real-Time Statistical Process Control Analyzer
Intermediate
2 day(s)
Aspen Real-Time Statistical Process Control Analyzer
Intermediate
2 day(s)
SLM
Advanced
1 day(s)
SLM
Introductory
2 day(s)
Aspen InfoPlus.21
Advanced
1 day(s)
Aspen InfoPlus.21
Introductory
5 day(s)
This is the flexClass version of our popular MES101 Foundation level class. This version is delivered through a combination of rigorous workshop modules and recorded lectures that you can complete over 5 weeks with live, expert-led sessions, and hands-on workshops. Students usually spend 8 to 12 hours per week to complete this online course.
Explore MES101Aspen InfoPlus.21
Introductory
5 day(s)
Aspen InfoPlus.21
Introductory
6 day(s)
This is the FlexClass and Coaching version of our popular MES101 Foundation level class. This version is delivered through a combination of rigorous workshop modules and recorded lectures that you can complete over 2 months, plus 8 hours of one-on-one coaching sessions. Students usually spend 8 hours per week to complete this online course, and each student has up to 8 hours of one-on-one coaching sessions with our technical expert to get coaching for any technical issues related to AspenTech MES software including IP.21 server upgrade/migration.
Explore MES101aspenONE Process Explorer
Introductory
1 day(s)
Aspen InfoPlus.21
Introductory
3 day(s)
aspenONE Process Explorer
Introductory
3 day(s)
Aspen Process Explorer
Introductory
1 day(s)
Aspen Calc
Introductory
1.5 day(s)
Aspen Operations Reconciliation and Accounting
Introductory
3 day(s)
Aspen Production Record Manager
Introductory
1 day(s)
Aspen SQLplus
Intermediate
5 day(s)
Aspen InfoPlus.21
Intermediate
2 day(s)
Aspen Production Record Manager
Intermediate
2 day(s)
Aspen Production Execution Manager
Advanced
4 day(s)
· Describe the concepts and architecture of Aspen Production Execution Manager (APEM)
· Describe the Manufacturing Operations and Control (MOC) module
· Particular focus is made on developing APEM applications based on the General Manufacturing Library as an alternative to expending effort on coding actions in newly created operator screens
· Use appropriate Aspen Production Execution Manager modules to create and track orders
· Show how it is possible to customize the General Manufacturing Library with new screen designs and source code
· Use the debugger to monitor the execution of scripted APEM actions
· Manage data transfer from the ERP system
· Describe the features of Weigh and Dispense Execution and Weigh and Dispense Management
· Review some of the batch reporting options
· Describe how the Templates Module can be used to migrate design elements from one server to another
· Understand how Aspen Framework (AFW) Security controls APEM permissions and roles
· Explore other Administrative products and features
· Describe the features of the APEM Execution and Tracking web application
Explore MES362ADMS
Introductory
1 day(s)
Students receive a high-level overview of Spectra as well as an in-depth review of Spectra eMap functionality and operation.
In-depth course topics include:
· eMap tabular displays
· eMap geographical displays
· Network model: Three-phase connectivity model, model build process, model validation process, installed vs. proposed model, distribution topology processing (DTP), DTP execution, Study Mode DTP and Spectra advanced applications
· Controls and tagging: Operations dialog, SCADA control, manual entry, tagging and study mode operations
· Tracing: Upstream/downstream tracing, interconnect tracing, trace statistics and clearing a trace
· Temporary conditions: Line cuts, jumpers, switches, sources and loads, ground and study mode temporary conditions
· ATO simulation: Main-main ATO, main-tie ATO, real-time simulation and study mode simulation
· Spectra Insight™: Violations and events
· Model update process: Full GIS import, incremental import, and model update process automation
Explore D201ADMS
Introductory
1 day(s)
Students will receive an in-depth review of Spectra DPF. This application performs a full ABC-domain calculation of the voltage, current and power flow in a distribution network based on the current topology, voltage at the substation source nodes and telemetered or estimated load injections. It is useful for estimating the state of the network where little or no telemetry exists and serves as an important network analysis support component for other Spectra applications.
In-depth course topics include:
· Goals of DPF
· DPF inputs: Direct, telemetry inputs, DTP and load allocation
· Controlling DPF in real time and study mode
· DPF detailed results: DPF devices – all, DPF devices – specific and DPF detail – feeder
· Load allocation: Running LA, using load forecasting data, and using nominal values
· Local regulation simulation: Tap changing regulation and capacitor regulation.
· Debug logging
Explore D210ADMS
Introductory
1 day(s)
Students receive an in-depth review of Spectra FR. This application can help you relieve loading problems, improve voltage levels, reduce system losses, and balance or reduce loading on equipment.
In-depth course topics include:
· Goals of FR
· FR results: Solution types, switching steps and solution detail logs.
· Influencing FR results: Constraints, component objectives, composite objective score, working model and available switches.
· Loading Violation Remediation (LVR): LVR operational flow, discovering the issue, finding an LVR solution and resolving the loading violation issue.
· Voltage Violation Remediation (VVR): VVR operational flow, discovering the issue, finding a VVR solution and resolving the voltage violation issue.
· Load Balancing (LB): LB operational flow, discovering the issue, finding a LB solution and resolving the load balance situation.
· Optimization (OPT): OPT operational flow, discovering the issue, finding an OPT solution and improving the system performance situation.
· Equipment Loading Reduction (EQL): EQL operational flow, discovering the issue, finding an EQL Solution and resolving the equipment loading issue.
· Fine-tuning Spectra FR solutions
· Automatic execution
Explore D220ADMS
Introductory
1 day(s)
Students receive an in-depth review of Spectra VVC. This application monitors distribution system voltage levels and reactive power flows to determine and execute capacitor bank, voltage regulator and LTC control actions for improved system performance.
In-depth course topics include:
· Goals of VVC
· Influencing VVC Results: Constrains and available controls
· Spectra Control and System VVC Summary displays
· Conservation of Voltage Reduction (CVR)
· CVR Control and Execution Summary displays
· Voltage control: VC operational flow, discovering the issue, monitoring a voltage issue if no event exists, reviewing the VVC solutions for a voltage issue, changing the VVC parameters for a voltage issue, requesting VVC to re-solve a voltage issue, implementing a VVC solution for a voltage issue, and verifying whether implementing a VVC solution has resolved the issue.
· VAR control: QC operational flow, discovering the issue, monitoring a VAR/PF issue if no event exists, reviewing the VVC solutions for a VAR/PF issue, changing the VVC parameters for a VAR/PF Issue, requesting VVC to re-solve a VAR/PF issue, implementing a VVC solution for a VAR/PF issue and verifying whether implementing a VVC solution has resolved the issue
· Conservation of Voltage Reduction (CVR): CVR On demand and CVR scheduler
ADMS
Introductory
1 day(s)
Students receive an in-depth review of Spectra FLISR - OSI’s solution for fault mitigation, which allows you to monitor and manage fault and source outage issues in a distributed network.
In-depth course topics include:
· FLISR user interface
· Fault detection: Types and fault detection data
· Fault location: Fault location data and fault location settings
· FLISR validate: Hierarchy, FLISR devices, running FLISR validate and understanding FLISR validate output
· Process settings
· Isolation tags
· Restoration: Tags and solution tuning
· Configuration: Setting control modes and objectives, special conditions flags and trace mask
· Configuring hotline conditions
· Spectra Insight
Explore D240DERMS
Introductory
1 day(s)
Students receive a high-level overview of Integra DERMS as well as an in-depth review of its functionality and operation.
In-depth course topics include:
· Integra DERMS tabular displays
· DERMS model: Solar, wind, battery and other DERs
· DER grouping and aggregation
· Real-time estimation of DER output: Meteorological, bellwether and forecast
· Monitoring and controls: Operations dialog, SCADA measurements, SCADA control, manual entry and group controls
Explore D250Outage Management System
Introductory
2 day(s)
Students receive an in-depth review of Electra OMS - OSI’s outage management solution, which allows you to manage all areas of your outage restoration processes, minimize outage response times and improve your overall system reliability.
In-depth course topics include:
· Contact/trouble call management
· Outage analysis/ETR calculation
· Crew dispatch/work management
· Planned outage management
· Storm management
· Outage reporting and notification
· OMS system configuration
Explore D280ADMS
Introductory
1 day(s)
Students receive an in-depth review of Spectra OTS.
In-depth course topics include:
• Running events and scenarios
• Using events: Set switch state, set reclose/ground trip state, add/remove fault, set/scale system load, set load, set capacitor/capacitor controller state, set LTC/VR tap positions, set LTC/VR controller state/set LTC/VR controller voltage and set source voltage
• Typical scenarios: Simulating storms and system blackout
• Evaluation Report: Event reporting, control reporting, alarm reporting, database change reporting and sorting and filtering
• Advanced Spectra OTS: Dynamic cycle time and remedial action schemes
• Configuration and maintenance topics
Explore D301GMS
Introductory
2 day(s)
This course is an in-depth review of OpenAGC. It covers operational capability, theory of operation and algorithms, user interface, database requirements, maintenance, tuning, backup, recovery, performance, system interfaces, SCADA and other system modules.
In-depth course topics include:
· OpenAGC overview
· OpenAGC inputs and outputs
· OpenAGC user interface
· OpenAGC functions/features
· OpenAGC architecture and interfaces
· OpenAGC setup
· OpenAGC functional operation
· Load frequency control
· ACE control error processing
· Inadvertent Interchange and Time Error Correction
· Unit Generation Dispatch and Allocation
· Unit Control Processing
· Reserve Monitoring
· Economic Dispatch
· Production Costing
· NERC Performance Monitoring (CPS1/CPS2)
· AGC Extensive Modeling
· Study Economic Dispatch (Transaction Evaluation)
· Unit tuning
· Multi-area operation
· Jointly Owned Units (JOUs)
· AGC API training
Explore G201GMS
Introductory
1 day(s)
An in-depth review of the OpenTMS functionality and operation is covered in this course.
Students learn about operational capability, user interface, database requirements, maintenance and tuning, special backup and recovery, performance characteristics, interfaces with other applications, AGC and other system modules.
In-depth course topics include:
· OpenTMS overview
· OpenTMS inputs and outputs
· OpenTMS user interface
· OpenTMS functions/features
· OpenTMS architecture and interfaces
· OpenTMS setup
· OpenTMS functional operation
· Multi-party transactions
· Hourly, sub-hourly schedules
· Reading external schedules from ASCII
· AGC Schedule Composite
· Schedule templates
· Historical schedules
· RDBMS archival
· Inadvertent interchange accounting and reporting
Explore G220GMS
Introductory
0.5 day(s)
Students receive an in-depth review of OpenMOS, OpenECA and OpenAGC functionality pertaining to MISO. The course covers operational capability, user interface, database requirements, maintenance and tuning, special backup and recovery, performance characteristics, interfaces with other applications and system modules.
In-depth course topics include:
· OpenMOS overview including functions/features and configuration
· OpenMOS user interface and architecture
· OpenMOS interface with MISO market
· Interaction between OpenECA, OpenMOS and OpenAGC
· OpenECA configuration
· MISO displays in OpenECA and OpenAGC
· Unit Start/Stop dispatches
· OpenAGC MISO configuration
· Unit dispatch in MISO
· Unit status including effective unit status
· EDEF calculations
GMS
Introductory
0.5 day(s)
Students receive an in-depth review of OpenMOS, OpenECA and OpenAGC functionality pertaining to ERCOT. This course covers operational capability, user interface, database requirements, maintenance and tuning, special backup and recovery, performance characteristics, interfaces with other applications and system modules.
In-depth course topics include:
· ERCOT Terminology
· OpenMOS overview, functional description and interfaces
· OpenMOS client and operations
· OpenECA overview and interface with ERCOT market
· OpenECA configuration
· Resource status
· Unit configuration
· Combined cycle
· Renewable/battery resources
· OpenECA and OpenMOS interaction
· Current Operation Plan (COP)
· Unit Resource Status
· Ancillary Service dispatch
· Quick Start Generation Resources (QSGR)
· Unit participation factors (for fast, normal regulation and RRS)
· Handling of Market Ancillary Service notifications
· Generation Resource/Controllable Load Energy Deployment Performance (GREDP/CLREDP)
Explore G232GMS
Introductory
0.5 day(s)
Students receive an in-depth review of OpenMOS, OpenECA and OpenAGC functionality pertaining to SPP. This course covers operational capability, user interface, database requirements, maintenance and tuning, special backup and recovery, performance characteristics, interfaces with other applications and system modules.
In-depth course topics include:
· OpenAGC, OpenMOS and OpenECA overview
· Interaction between OpenAGC, OpenMOS and OpenECA
· OpenMOS SPP Notifications
· OpenMOS SPP commitment dashboard
· OpenECA configuration
· SPP displays in OpenECA and OpenAGC
· OpenAGC SPP unit configuration
· XML versus ICCP basepoint and control
· Resource Control Status, Effective Resource Status and Override
· Unit Dispatch in SPP
· Unit Ancillary Service dispatch in SPP
Explore G233GMS
Introductory
0.5 day(s)
Students receive an in-depth review of MOSPJM, OpenECA and OpenAGC functionality pertaining to PJM. This course covers operational capability, user interface, database requirements, maintenance and tuning, special backup and recovery, performance characteristics and interfaces with other applications and systems.
In-depth course topics include:
· PJM interfaces and terminology
· MOSPJM overview, functional description, client and operations
· OpenECA overview and interface with PJM market
· MOSPJM, OpenECA and OpenAGC interaction and data flow
· OpenECA configuration for the PJM market
· Fleet definition, configuration and details
· Regulation A and D incoming data, calculations and outgoing data
· Total, current regulation calculations including regulation allocation
· Spinning Reserve (SR) event request, handling and monitoring
· Instantaneous Reserve Check (IRC) calculations
· Regulation Performance Score
· Unit Dispatch basepoint
· Simultaneous regulation A and D handling
· Multiple fleet definitions
· Fleet summary and unit details
GMS
Introductory
0.5 day(s)
An in-depth review of OpenMOS, OpenECA, and OpenAGC functionality pertaining to CAISO. The course covers operational capability, user interface, database requirements, maintenance and tuning, special backup and recovery, performance characteristics, interfaces with other applications and system modules.
In-depth course topics include:
· CAISO terminology
· OpenMOS overview including functions/features and configuration
· OpenMOS user interface, architecture and interface with CAISO market
· Interaction between OpenECA, OpenMOS and OpenAGC
· OpenECA CAISO configuration for EIM and non-EIM resources
· CAISO displays in OpenECA
· Unit Start/Stop dispatches
· Handling of Unit ADS dispatches from CAISO
· Handling of inter-tie resource for CAISO EIM
· Modeling Dynamic Schedules for CAISO EIM
· Options to control Dispatch Operating Target, Dispatch Operating Point or Base Schedule
· Unit Performance Tracking
· OpenAGC configuration for CAISO EIM
GMS
Introductory
1 day(s)
An in-depth review of the Forecast functionality and operation.
The course covers operational capability and benefit, theory of operation and algorithms, user interface, database requirements, maintenance and tuning, special backup and recovery, performance characteristics, interfaces with other applications, SCADA and other system modules.
In-depth course topics include:
· Overview
· Inputs and outputs
· User interface
· Functions/features
· Architecture and interfaces
· Setup / configuration
· Functional operation
· Historical weather / loads / Renewable resource generation
· Regression Algorithm
· Neural-Network Algorithm including configuration / training
· Forecast analysis
· Plan load and generation schedules
· Auto forecast
Explore G310GMS
Introductory
1 day(s)
Students receive an in-depth review of OpenUC functionality. The course covers operational capability and benefit, theory of operation and algorithms, user interface, database requirements, maintenance and tuning, special backup and recovery, performance characteristics, interfaces with other applications, AGC and other system modules.
In-depth course topics include:
· OpenUC overview
· OpenUC inputs and outputs
· OpenUC user interface
· OpenUC functions/features
· OpenUC architecture and interfaces
· OpenUC setup
· OpenUC functional operation
· Transaction Evaluation
· Priority-based algorithm
· Dynamic programming algorithm
· Mixed Integer Linear Programming (MILP) algorithm
· Hybrid algorithm
· Save cases
Explore G320GMS
Introductory
1 day(s)
This course is an in-depth review of Economic Dispatch function in OpenAGC. Its covers theory of operation and algorithms, unit costs and fuel data modeling, operational features, user interfaces, database requirements, maintenance and tuning, production costing, interfaces with other application and system modules.
In-depth course topics include:
· Economic Dispatch overview, functions/features
· Definitions and terminology
· Unit input/output curve
· Deriving Incremental Heat Rate (IHR) curve
· Modeling Incremental Heat Rate curve
· Configuring fuel types and prices
· Fuel data modeling including fuel mixing and fuel switching
· Emission cost curves modeling
· Operation and Maintenance (O&M) cost modeling
· Understanding Incremental Cost curve
· Equal Lambda Dispatch algorithm
· Economic Dispatch modes/configuration parameters
· System lambda and production cost calculations
· Economic Dispatch displays
· Transmission Constrained Dispatch (TCD)
· Interaction with AGC function
· Study Economic Dispatch
· Demand Dispatch
· Production Cost feature
· Incremental Heat Rate Curve API
MONARCH
Introductory
1 day(s)
An introduction to the monarch system. Topics covered include an overview of the hardware and software that make up the system, including how the client/server architecture works; the products that constitute the monarch system and how they interact; and a discussion of the SCADA functionality in the monarch system. The monarch database system is introduced, including database definition files, what the internal structure of a database looks like and what D.O.F.R.I.s and data links are and how they are used in the system to link to data.
The OpenView™ client is also discussed including an overview of the various applications that make up the client
environment. Options for customizing the look of OpenView will be shown.
Explore M101MONARCH
Introductory
1 day(s)
This course is a discussion of the components and configuration that make up a server in the monarch system. Server configuration is discussed including topics such as environment variables that are added, the OSI directory structure on a server, how the monarch system processes are started and stopped and how failover works. Several of the processes that make up the monarch system are discussed.
The different ways of performing database maintenance on the system are shown including the command line utilities for working with databases, the Database Editor tool in OpenView and the DataExplorer application. Some advanced options for interacting with databases are also discussed such as ODBC and Microsoft Excel.
Explore M102MONARCH
Introductory
1 day(s)
An introduction to the Voyager application in Web PlatformTM. Topics covered include overview of Voyager’s function, navigation and Voyager Builder. Students will learn how to use Voyager Builder to create and maintain Web Tabluar displays for Voyager.
The course covers access to Web Platform and the Voyager application, as well as how to access different displays within Voyager. Navigation within displays and features available in each type of display are discussed. The different components and features of Voyager Builder are discussed, including examples of how to build summary, archive and dynamic displays for Voyager.
Explore M115MONARCH
Introductory
2 day(s)
An overview of the configuration and administration options of Web Platform. Administration topics covered include creating customized menu options for web applications, configuring settings applicable to all applications, creating and managing sessions and database audit retention. Additional topics include creating and management of API Keys, creating and monitoring processes through System Monitor, and creating and managing dashboards. Students will also learn to configure and manage users, groups, and consoles, and import users from monarch or LDAP.
Explore M116MONARCH
Intermediate
5 day(s)
This course covers basic operations of the SCADA system and functionalities. Week One includes a system overview, basic navigation of the system, display and database editing tools, SCADA operations, alarming and RTU communications. Week Two includes calculations, display editing, system maintenance and administrative tools. All topics include hands-on exercises to gain experience with the software. Advanced features will not be covered, to allow for the maximum amount of time to be spent on hands-on activities. Some portions of the class may be assigned as independent study for students to review after course completion.
Course topics include:
System and User Interface Basics
· Navigating and operating the main graphical user interfaces (OpenView, SystemExplorer™ and Advanced Tabulars)
· External and internal communications hardware overview
· Interactions and functionality of core monarch system communication processes
· Fundamentals of monarch product databases including redundancy, failover, and structure
· System communications architecture related to internal system interactions between workstations, servers and databases
· Overview of monarch file system configuration
SCADA
· SCADA operations
· SCADA points and data tables
· Alarm groups (including alarm help)
· Configuring Tags, Limits and Qualities attributes of points (TLQ)
· Alarm priorities and alarm filtering
· Areas of Responsibility assignment and management
· Responding to alarms and organizing alarms (ViewPoint)
SCADA and OpenFEP™
· Data collection and organization through communications and supervisory control and data acquisition software (OpenFEP and OpenSCADA)
· Methodologies of linking and validating telemetered points between RTUs, FEP and SCADA.
· Communications Products
· Features and tools of monarch communication products (OpenFEP and OpenICCP)
· Configuring communications channels and RTUs
· Capturing point data from RTUs and transferring data to user-readable values and viewable format
· Setting up a real-time data exchange with head-end systems (grid or markets) using an ICCP connection
· Sending controls through an ICCP connection (if applicable)
· Using available communication interface troubleshooting tools
Custom Calculations (OpenCalc)
· Introduction to the calculation subsystem
· Creating basic calculations
· Using built-in library functions
· Developing custom calculations
· Calc Formulas
Historian Subjects (OpenHIS & CHRONUS)
· Configuring real-time data for archiving in OpenHIS
· Configuring real-time data for archiving in CHRONUS
System Maintenance and Administration
· Editing and viewing data tables
· Performing database maintenance using DataExplorer
· Product specific maintenance strategies
· Configuring file replication and backup (SoftRAID)
· Redundant database and server failover topics
· Monitoring of monarch product processes
· System maintenance strategies and best practices
· System monitoring and health check processes
· Configuring users and workstations
· Configuring application and product settings
Maintaining displays in Design Studio and Tabular Builder
· Building and maintaining displays including one-line diagrams and custom tabular displays
· Creating dynamic data linkages between display fields and database values
· Using graphical and visual enhancement tools to further customize displays
· Best practices and processes for display building and maintenance
Explore M201MONARCH
Intermediate
5 day(s)
This course covers basic operations of the SCADA system and functionalities. Week One includes a system overview, basic navigation of the system, display and database editing tools, SCADA operations, alarming and RTU communications. Week Two includes calculations, display editing, system maintenance and administrative tools. All topics include hands-on exercises to gain experience with the software. Advanced features will not be covered, to allow for the maximum amount of time to be spent on hands-on activities. Some portions of the class may be assigned as independent study for students to review after course completion.
Course topics include:
System and User Interface Basics
· Navigating and operating the main graphical user interfaces (OpenView, SystemExplorer™ and Advanced Tabulars)
· External and internal communications hardware overview
· Interactions and functionality of core monarch system communication processes
· Fundamentals of monarch product databases including redundancy, failover, and structure
· System communications architecture related to internal system interactions between workstations, servers and databases
· Overview of monarch file system configuration
SCADA
· SCADA operations
· SCADA points and data tables
· Alarm groups (including alarm help)
· Configuring Tags, Limits and Qualities attributes of points (TLQ)
· Alarm priorities and alarm filtering
· Areas of Responsibility assignment and management
· Responding to alarms and organizing alarms (ViewPoint)
SCADA and OpenFEP™
· Data collection and organization through communications and supervisory control and data acquisition software (OpenFEP and OpenSCADA)
· Methodologies of linking and validating telemetered points between RTUs, FEP and SCADA.
· Communications Products
· Features and tools of monarch communication products (OpenFEP and OpenICCP)
· Configuring communications channels and RTUs
· Capturing point data from RTUs and transferring data to user-readable values and viewable format
· Setting up a real-time data exchange with head-end systems (grid or markets) using an ICCP connection
· Sending controls through an ICCP connection (if applicable)
· Using available communication interface troubleshooting tools
Custom Calculations (OpenCalc)
· Introduction to the calculation subsystem
· Creating basic calculations
· Using built-in library functions
· Developing custom calculations
· Calc Formulas
Historian Subjects (OpenHIS & CHRONUS)
· Configuring real-time data for archiving in OpenHIS
· Configuring real-time data for archiving in CHRONUS
System Maintenance and Administration
· Editing and viewing data tables
· Performing database maintenance using DataExplorer
· Product specific maintenance strategies
· Configuring file replication and backup (SoftRAID)
· Redundant database and server failover topics
· Monitoring of monarch product processes
· System maintenance strategies and best practices
· System monitoring and health check processes
· Configuring users and workstations
· Configuring application and product settings
Maintaining displays in Design Studio and Tabular Builder
· Building and maintaining displays including one-line diagrams and custom tabular displays
· Creating dynamic data linkages between display fields and database values
· Using graphical and visual enhancement tools to further customize displays
· Best practices and processes for display building and maintenance
Explore M202MONARCH
Introductory
2 day(s)
This course will cover topics essential to supporting your system after cutover. In-depth topics include:
• System maintenance best practices
• Failovers and system configuration
• Disk space and error messages
• Synchronizing data
• Maintaining multiple domains
• Log files
• Understanding reports
• Maintaining displays and calculations
Explore M255MONARCH
Introductory
0.5 day(s)
An overview of Enterprise ITK system settings. Task dataflow and steps are discussed. An overview of creating tasks with the Enterprise ITK application and examples of different tasks and steps. How to configure and use the Name Service and ID maps. Enterprise ITK permissions are also discussed.
Explore M265MONARCH
Introductory
3 day(s)
This course covers creating custom applications that interface with the monarch environment. The monarch Database Management System (DBMS) is reviewed, including creation of custom tables and custom databases. Using the monarch “C” Programming API to interact with the databases and perform other functions within the monarch environment is discussed in detail. Students develop an example OpenView application, which includes a custom database and a custom display. The application includes logic for handling failover, heartbeating and writing messages to a custom log file. It is also added as a new process to the monarch system.
Explore M301MONARCH
Introductory
1 day(s)
Topics covered in this course include:
· Active Directory Integration
· monarch authentication vs. Active Directory authentication
· Recommended password configuration
· Generating reports
· File permissions per OU
· System configuration baselining
· Web Platform authentication and permission setup
· SCM monarch permission groups
· Pulling reports of change
· monarch logging
· Product logs
· Operating system level logging
· Alarming in monarch
· NERC supporting documentation
· Patch management training
Explore M701MONARCH
Introductory
2 day(s)
Students learn how to use Design Studio™ to create and maintain one-line displays. Topics discussed include adding and manipulating objects on displays, the design of one-line displays and some of the options for setting up a one-line display. Students also learn about general editing features such as cut and paste, group operations, snap grid, clipboard and undo.
The course covers linking dynamic data on a display to database points, using display linking aides, as well as information on group link, unlinked fields and station point lists. Device attributes such as fonts, line widths and dynamic line widths, TLQ linking, color linking and object attributes such as process execution and display call-up are also discussed. Students learn how to create custom symbols and symbol libraries as well as how to modify existing symbols on displays.
Explore S111MONARCH
Introductory
2 day(s)
This course covers the basics of creating Advanced Tabulars™ displays. How to use the various layout components and other display customization options to organize data on displays effectively is discussed. Other topics covered include how to use sorting, filtering, command and color rules to modify how information is presented on a display.
Advanced features such as expression fields, calculated columns, configuring commands and embedded displays will also be covered. Students will learn how to configure and pass parameters into displays to filter or preselect the data displayed.
Explore S112CHRONUS
Introductory
1 day(s)
This course covers the process of creating displays and analytics using several different products. Students will use OpenView Advanced Tabulars to create displays that present data in a familiar tabular format which can be integrated into their monarch system. Learn how to create formulas in Excel that pull data from CHRONUS to build reports and charts that can be saved and distributed throughout their organization. Power BI will illustrate how to use HSH Analytics to build dashboards and analytics that can be published to anyone’s desktop.
Explore S120MONARCH
Introductory
4 day(s)
This course shows students how to set up and maintain their SCADA system. SCADA points will be discussed in detail including configuring points, how point information is organized in the SCADA database, how the information is presented on displays, automatic and user calculations and configuring points for historical archiving.
The process for setting standards for various SCADA parameters is also covered. Students create an example station and add new points to the system, which include a variety of different SCADA features and capabilities. They also perform a system build and data validation.
How to configure Areas of Responsibility (AORs), critical AORs, states and units are discussed. Tags, Limits and Qualities (TLQs) are covered, including tag types, general tagging functionality and the options for customizing TLQs. Advanced SCADA features such as alternate data sources, seasonal and dynamic limits and programmable SCADA controls are also covered.
Configuration of the alarming system is discussed, including setting up alarm groups, alarm classes and alarm help files. The ViewPoint application is also covered including acknowledging and processing alarms, alarm filtering, saving custom alarm views and querying historical alarm information.
Explore S130MONARCH
Introductory
2 day(s)
This course shows students how to configure FEP servers, communication channels, channel groups, serial line switches and RTUs. How to plan an optimum scanning strategy is also covered. Students set up and configure an OSIRIS™ RTU using the DNP protocol.
Adding points in FEP, the relationship between points in the SCADA and FEP databases and the available options for linking points between the two databases are discussed.
Information on tuning various FEP parameters, including channel delays, RTU delays and failure limits are also discussed. Options for diagnosing FEP problems including using the FEP statistics and the FEP protocol analyzer displays.
Explore S211MONARCH
Introductory
2 day(s)
This course teaches students how to configure ICCP servers, transfer sets, Virtual Control Centers (VCC) and how to configure and add points to transfer sets for exchange. The relationship between the SCADA database and the ICCP database and how points are linked between the two is discussed.
Information on tuning the various ICCP parameters, configuring block transfers, quality codes and controls are discussed. Secure ICCP, ICCP Listen mode and alternative VCC are covered as licensable features.
Options for diagnosing ICCP problems and to use the ICCP error statistics are discussed. The ICCP protocol is covered in detail, including a basic ICCP overview, Block 1, Block 2, Block 4, Block 5 and so on.
Explore S212MONARCH
Introductory
1 day(s)
The OpenHIS architecture and its relationship to RDBMS is covered including how OpenHIS writes data to the RDBMS, the structure of the RDBMS tables and how those tables are dynamically generated. The default OpenHIS archive groups for SCADA data, Alarms and SOE archival are discussed. Database replication and synchronization is also covered.
How to create SQL (Structured Query Language) commands and how to use them in retrieving information is covered. Students will create several reports containing historical data using Excel, Voyager tabulars and Advanced Tabulars.
CHRONUS
Introductory
1 day(s)
Students learn how to configure CHRONUS to define collection sets, assign points to collection sets and define rules for collections. How to administer a CHRONUS system is also covered.
Topics covered in this course include:
· Overview of CHRONUS
· System capabilities
· Archival process
· CHRONUS processes
· HSH Manager
· System Configuration
· Collectors/Importers
· CDS Types
· Query Servers
· Historical Plugins
· Configuring Point Archival
· HSH Monitor
· Data Import
· HRS Importer
· Flat File Importer
· Cassandra Overview
Explore S235CHRONUS
Introductory
1 day(s)
Students learn how to configure CHRONUS to define collection sets, assign points to collection sets and define rules for collections. How to administer a CHRONUS system is also covered.
Topics covered in this course include:
· Overview of CHRONUS
· System capabilities
· Archival process
· CHRONUS processes
· HSH Manager
· System Configuration
· Collectors/Importers
· CDS Types
· Query Servers
· Historical Plugins
· HSH Administration Console
· Data Collection with DBMS Collector
· UID Management
· Rename stream and stream group UID
· Delete stream and stream group UID
· HSH Monitor
· Data Import
· HRS Importer
· Flat File Importer
· Cassandra Overview
Explore S236MONARCH
Introductory
1 day(s)
An overview of the configuration and administration of a monarch system. Administration topics covered include using OSI System Monitor to monitor the status of servers and other network devices, installing the OpenView client on workstations and the process for performing server and site failovers.
Additional configuration topics covered:
· OSI file directory structure and environment
· System setup, configuration and processes
· Using Site Manager to monitor processes and perform failovers
Administering the system with SCM is also covered. The process of setting up new users and consoles in OpenView is discussed. Other topics covered include configuring permissions for users and workstations as well as modifying product settings and configuration files.
Additional SCM topics covered include:
· Configuration and management of users, consoles and groups
· Permission and setting inheritance
· Working with configuration files
· Reporting options in SCM
Explore S250MONARCH
Introductory
1 day(s)
An overview of performing database maintenance in the DataExplorer application. Maintaining databases in a multi-user environment is covered including committing changes, synchronizing databases across multiple monarch domains/systems as well as how to perform a roll back to undo changes in the event of a potential problem. Using Maintenance Center is also covered.
Additional DataExplorer topics covered include:
· Checking and locking records for editing
· Editing and finalizing modifications and implementing changes
· Organizing data in a customized format outside the standard database structure for streamlined editing
· Committing changes to production and development systems using the Rollout Wizard
· Task configuration and how to use tasks to perform various aspects of database maintenance across the system
· Permissions management for designating user authority for editing, change management, commitment and rollouts
Explore S252MONARCH
Introductory
1 day(s)
An overview of performing database maintenance in the Maintenance Center application. Maintaining databases in a multi- user environment is covered including committing changes, synchronizing databases across multiple monarch domains/systems as well as how to perform a roll back to undo changes if necessary. Using the DataExplorer plugin to make database edits is also covered.
Explore S253MONARCH
Introductory
2 day(s)
This course is an introduction to the OpenCalc™ subsystem. Students learn how to create their own calculations using the OpenCalc language. The structure of a calculation is discussed including how to set the period, priority and type of a calculation. Interacting with your calculations both within and outside of OpenView is covered such as compiling and running calculations. The options for troubleshooting calculations are talked about including the log files created by OpenCalc and user-created log files. Calc formulas are also discussed.
The OpenCalc programming language is covered in detail. Many of the built-in functions are discussed and example calculations are shown to demonstrate how to use the built-in functions in calculations. The examples cover topics such as reading and writing data from monarch databases, issuing alarms and controls and using the various built-in electrical functions in a calculation. Options for propagating quality codes on SCADA points used in calculations is also discussed.
Students write several calculations to become familiar with creating, compiling and troubleshooting their own calculations. Sample calculations include calculations that run with a defined period as well as calculations that run on-demand through user input such as clicking a button on a display.
Explore S261MONARCH
Introductory
1 day(s)
This course covers the creation of custom monarch databases and custom OpenCalc applications. The definition or schema file for a database is discussed in detail. The structure of the schema file, the data types available and the rules for proper data alignment in a database are covered in detail. The process of creating and configuring monarch databases is also discussed.
Students create a custom database and configure the database to be used in the monarch system. They then create a new display to present the information in the database and create calculations that access and modify the information in the database.
This course is intended for anyone interested in creating their own databases is the monarch system as well as anyone interested in creating custom applications using OpenCalc.
Explore S262MONARCH
Introductory
1 day(s)
Students receive an in-depth review of OpenLSR functionality and architecture as it relates to SCADA and other functions.
This course includes information on configuring OpenLSR and creating new load shed groups and load shed blocks. Database parameters and configurations are discussed. Students learn how the block load shedding and rotational load shedding operate. Students also learn about frequency-based load shedding. Interactions of OpenLSR and SCADA are to be covered in-depth. Students also learn how to implement an effective load shed strategy and how to build and verify the OpenLSR database tables. Underfrequency load shedding is also be covered in detail.
Explore S270Switch Order Management
Introductory
1 day(s)
In this course, students receive an in-depth review of SOM Planner functionality and architecture as it relates to SCADA, eMap, and other functions. The first half of this class focuses on an end-to-end use case starting from a request though the execution of a switch order. The second half focuses on how to configure each part of requests, switch orders and switch order steps.
· Reviewing active requests for work, active switch orders, changes to switch orders and workflow history for a switch order
· Submitting a request for work, approving a request for work and auto-generating a switch order
· Creating, opening and archiving switch orders
· Adding a section header or manual step to an existing/open switch order and modifying the header data of a switch order
· Adding a step that is linked to a device from monarch (select device in OpenView and export to SOM) to an existing or new switch order
· Adding a reverse set of steps or reordering steps in a switch order
· Executing a switch order in real time, simulating a switch order in study mode and reviewing results
· Associating, issuing and releasing a permit (safety document) to a switching order
· Adding a tag operation to a device that is already in the switch order
· Recording steps in study mode and adding to a new or existing switch order
· Exporting switching steps from FLISR
· Jump from a switch order document step to a display in OpenView, or from an OpenView tag to a switch order
· Configuring Custom Fields, Tables and Page Layouts
· Configuring calendar templates
· Configuring request and switch order workflows
· Configuring step common verbiage rules and multi-step templates
· Configuring permits and crews
Explore S280MONARCH
Introductory
2 day(s)
This course shows you how to build complex displays using Advanced Tabulars. Students will learn more about using virtual and calculated fields within a display as well as using parameters to control the behavior of displays.
Building historical reports within Advanced Tabulars is also discussed. Reports using both CHRONUS and OpenHIS data will be created.
Explore S302EMS
Introductory
5 day(s)
Students receive an in-depth review of OpenNet functionality and operation. The course covers operational capability and benefit, theory of operation and algorithms, user interface, database requirements, maintenance and tuning, upgrade and installation, performance characteristics, interfaces with other applications including SCADA and other system modules.
In-depth course topics include:
· OpenNet overview and user interface
· OpenNet inputs and outputs
· OpenNet reports, troubleshooting and tuning
· OpenNet functions/features
· OpenNet architecture and interfaces
· OpenNet setup and functional operation
· OpenNet data import and export
· Power system modeling
· Topology Processor
· Power Flow
· State Estimator including observability analysis, bad data detection and measurement error analysis
· Profiles
· Contingency Analysis and Contingency Screening
· Penalty factors
· Real-Time Sequence Control
· Short Circuit Analysis
· Available Transfer Capacity
· Conditional Action Schemes
· Sensitivity Analysis
· Optimal Power Flow
· SCADA Interface
· Study Mode Operations
· Save cases
EMS
Introductory
2 day(s)
Students receive an in-depth review of CIM Studio features, functionality and operation. Students learn how to use a standalone CIM “sandbox” to edit/maintain and manipulate power system network model data in a CIM format. Students will also learn how to install and configure CIM Studio.
In-depth course topics include:
· Introduction to CIM model
· CIM Studio overview
· User interface and configuration
· Editor for Common Information Model (CIM) data
· Graphical editor for creating one-lines related to CIM data
· Auditing and error logging
· Model maintenance for monarch databases including bi-directional model transfer between CIM and monarch
· Revision control
Explore T202EMS
Introductory
1 day(s)
Students receive an in-depth review of OpenVSA functionality and operation. Students learn how to determine system voltage stability margins and identify potential voltage instability problems in both real time and study mode. Students will also learn how to install and configure OpenVSA.
In-depth course topics include:
· Introduction to stability analysis
· OpenVSA overview
· OpenVSA features
· User interface and configuration
· Identification of loading regions and generation compensation
· Continuation Power Flow set up and tuning
· Plotting and data analysis
· Introduction to study mode and control devices
· Study mode functions
· Power Flow control flags
Explore T221EMS
Introductory
1 day(s)
Students receive an in-depth review of OpenTSA functionality and operation. Students learn to study and monitor the overall dynamic security of an electrical generation and transmission system. Students evaluate a designated set of power system events against both base case and contingent state and will be able to provide an indication of those that could cause generators to lose synchronism and separate from the system or cause undamped low-frequency oscillations.
In-depth course topics include:
· Introduction to transient stability analysis
· OpenTSA overview
· User interface and configuration
· Modeling
· Configuring scenarios
· Configuring a fault event
· Running analysis
· Running a simple scenario
· Scenario screening
· Pausing and resuming a scenario
· Viewing results
· Plotting result data
Explore T222EMS
Introductory
3 day(s)
An in-depth review of OpenOTS functionality and operation. The course covers operational capability and benefit, theory of operation and algorithms, instructor user interface, database requirements, maintenance and tuning, upgrade and installation, performance characteristics, interfaces with other applications, SCADA and other system modules.
In-depth course topics include:
· OpenOTS overview (simulation and training modes), purpose, usage and user interface
· OpenOTS key features/components
· OpenOTS inputs and outputs
· OpenOTS software functions/features
· OpenOTS architecture and interfaces
· OpenOTS setup and functional operation
· OTS steady state initialization
· Power system modeling
· Generator and frequency modeling
· Black start and islanding simulation
· Relay modeling
· EAGC modeling
· Load modeling
· Scenario building
· Simulation control
· Event generation and processing
· Control center modeling
· Automatic generation control interface
· SCADA interface
· Save cases
Explore T301Aspen HYSYS
Introductory
1 day(s)
This is a refresher course for Aspen HYSYS fundamentals and designed for participants who are preparing to take the Aspen HYSYS User Certification Exam. This version is delivered virtually through a 4-hrs online instructor-led session with access to virtual training lab for self-practices followed by the Certification Exam in the afternoon.
Explore ACU-HYSYS01Aspen Plus
Intermediate
0.5 day(s)
Aspen HYSYS
Intermediate
0.5 day(s)
Aspen HYSYS
Intermediate
0.5 day(s)
Aspen Plus
Introductory
3 day(s)
Upon successful completion of this course, you will be able to:
Aspen HYSYS
Introductory
3 day(s)
Aspen Plus
Intermediate
0.5 day(s)
Aspen Plus
Introductory
3 day(s)
Aspen Plus
Introductory
3 day(s)
Learn the basics on flowsheet-driven process simulation by building a complete simulation step by step. Identify the main unit operations, analysis tools and reporting options that Aspen Plus has to offer. This format has a self-drive approach by using a combination of digital content (recorded modules, KB articles, Course Material) and a few instructor-led sessions.
Explore EAP101Aspen Plus
Introductory
3 day(s)
Upon successful completion of this course, you will be able to:
Aspen Simulation Workbook
Introductory
1 day(s)
Aspen Simulation Workbook
Introductory
1 day(s)
Aspen Plus
Introductory
1 day(s)
Aspen Plus
Introductory
1 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Intermediate
1 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Custom Modeler
Intermediate
3 day(s)
Aspen Plus Dynamics
Intermediate
3 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Intermediate
3 day(s)
Aspen Plus
Intermediate
1 day(s)
Aspen Plus
Intermediate
5 day(s)
Aspen Plus
Introductory
1 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Polymers
Introductory
3 day(s)
Aspen Polymers
Intermediate
2 day(s)
Aspen Adsorption
Intermediate
2 day(s)
Aspen Chromatography
Intermediate
2 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Advanced
4 day(s)
Aspen OnLine
Introductory
1 day(s)
Aspen OnLine
Introductory
1 day(s)
Aspen Basic Engineering
Introductory
0.5 day(s)
Aspen Basic Engineering
Introductory
2 day(s)
Aspen Basic Engineering
Introductory
2 day(s)
Aspen Basic Engineering
Intermediate
3 day(s)
Aspen Capital Cost Estimator Insights
Introductory
0.5 day(s)
Aspen Capital Cost Estimator
Introductory
4 day(s)
Aspen Capital Cost Estimator
Introductory
4 day(s)
Aspen Capital Cost Estimator
Introductory
4 day(s)
Aspen Process Economic Analyzer
Introductory
3 day(s)
Aspen In-Plant Cost Estimator
Introductory
3 day(s)
Aspen Capital Cost Estimator
Introductory
4 day(s)
Aspen Capital Cost Estimator
Advanced
5 day(s)
Aspen Hybrid Models for Aspen Plus
Intermediate
0.5 day(s)
Aspen Hybrid Models for Aspen Plus
Intermediate
0.5 day(s)
This training will help you gain a deeper appreciation of AspenTech innovations in the Artificial Intelligence realm and how it can help your organization through its Digital Transformation journey
Explore EHM021Aspen Hybrid Models for HYSYS
Introductory
1 day(s)
Build and deploy predictive hybrid models within process simulators to improve accuracy for several types of unit operations
Explore EHM102Aspen Shell and Tube Exchanger
Introductory
2 day(s)
Aspen Shell and Tube Exchanger
Introductory
2 day(s)
Aspen Shell and Tube Exchanger
Introductory
2 day(s)
Aspen Air Cooled Exchanger
Introductory
1 day(s)
Aspen Fired Heater
Introductory
1 day(s)
Aspen Plate Fin Exchanger
Introductory
1 day(s)
Aspen Coil Wound Heat Exchanger
Introductory
1 day(s)
Aspen Shell and Tube Exchanger
Introductory
3 day(s)
Aspen Shell and Tube Mechanical
Introductory
1 day(s)
Aspen HYSYS
Introductory
0.5 day(s)
Aspen HYSYS
Intermediate
0.5 day(s)
Aspen HYSYS
Introductory
3 day(s)
Aspen HYSYS
Introductory
3 day(s)
Aspen HYSYS
Introductory
3 day(s)
Aspen HYSYS
Introductory
1 day(s)
Aspen Simulation Workbook
Introductory
1 day(s)
Aspen HYSYS
Intermediate
2 day(s)
Aspen HYSYS Petroleum Refining
Introductory
5 day(s)
Aspen HYSYS
Intermediate
2 day(s)
Aspen HYSYS
Intermediate
1 day(s)
Aspen HYSYS Petroleum Refining
Intermediate
3 day(s)
Aspen HYSYS
Intermediate
3 day(s)
Aspen HYSYS
Intermediate
3 day(s)
Aspen HYSYS
Intermediate
2 day(s)
Aspen HYSYS
Intermediate
2 day(s)
Aspen HYSYS
Introductory
1 day(s)
Aspen HYSYS Upstream
Intermediate
2 day(s)
Aspen HYSYS
Intermediate
1 day(s)
Aspen Flare System Analyzer
Intermediate
2 day(s)
Aspen HYSYS
Intermediate
1 day(s)
Aspen HYSYS
Intermediate
1 day(s)
Aspen HYSYS
Intermediate
1 day(s)
Aspen HYSYS
Intermediate
2 day(s)
Aspen HYSYS
Advanced
0.5 day(s)
Aspen HYSYS
Advanced
0.5 day(s)
Aspen HYSYS
Advanced
2 day(s)
Aspen Multi-Case
Introductory
0.5 day(s)
Aspen Plus
Advanced
1 day(s)
Aspen Shell and Tube Exchanger
Introductory
0.5 day(s)
► Upon completion the engineer should understand how:
• To perform basis design or rate a heat exchanger for a given application
• To select an appropriate heat exchanger type for a given application
► Learn the fundamentals of producing an optimized shell & tube heat exchanger design
► Discover how to accurately rate and simulate existing heat exchangers, thus increasing your understanding of existing equipment and its influence on an overall process
►Mechanical design of exchangers is not covered in detail in this training module
Explore ENG101
Aspen HYSYS
Introductory
0.5 day(s)
Upon completion the engineer should understand how:
►Understand the key elements for successful PSV design and rating
►Develop the skills and techniques required to model pressure relief devices in the Safety Analysis Environment
►Define different scenario types for pressure relief devices
►Learn how to generate PSV Datasheets for reporting purposes
Explore ENG102
Aspen Capital Cost Estimator
Intermediate
0.5 day(s)
Aspen Plus
Introductory
0.5 day(s)
-
Upon completion the engineer should understand how:
► Reduce process design time by using advanced features of RadFrac
► Perform Tray Sizing/Rating and Packed Sizing/Rating calculations
► Use column analysis tools to optimize the feed location and number of stages and improve energy utilization
► Improve distillation model stability and accuracy
Explore ENG104
Aspen Capital Cost Estimator
Advanced
0.5 day(s)
Aspen Plus
Introductory
0.5 day(s)
Aspen OptiPlant 3D Layout
Introductory
0.5 day(s)
OptiPlant 3D
Introductory
3 day(s)
OptiPlant 3D
Intermediate
3 day(s)
Aspen Batch Process Developer
Intermediate
2 day(s)
Aspen Properties
Intermediate
0.5 day(s)
Aspen Plus
Introductory
1 day(s)
Aspen HYSYS
Introductory
3 day(s)
Upon completion of this course, participants will be able to use fundamental knowledge on refining processing and the use of process simulations. They will:
Explore REF101
Aspen Shell and Tube Exchanger
Introductory
2 day(s)
Aspen Shell and Tube Exchanger
Introductory
3 day(s)
Aspen Energy Analyzer
Intermediate
3 day(s)
Learn how to design better and more efficient heat exchanger networks using Aspen Energy Analyzer with Aspen Plus or Aspen HYSYS. Learn how to optimize distribution of energy and mass flow considering energy savings and capital cost trade off.
Explore SUS-E201Aspen HYSYS
Introductory
3 day(s)
Aspen HYSYS
Intermediate
2 day(s)
Aspen Flare System Analyzer
Intermediate
2 day(s)
Aspen HYSYS
Intermediate
1 day(s)
Aspen HYSYS
Introductory
1 day(s)
Review building carbon capture models using Aspen HYSYS. Learn how to create projects in Aspen OnLine, which allows running the Aspen HYSYS model in real time as an advisory or for real-time optimization allowing users to meet their sustainability goals, such as minimizing emissions and energy usage. Users first focus on reviewing key features of first principles model building in Aspen HYSYS and then learn how to deploy this model online.
Explore SUS-H300Aspen Plus
Introductory
3 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Intermediate
3 day(s)
Aspen Plus
Intermediate
3 day(s)
Aspen Plus
Intermediate
1 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Introductory
1 day(s)
Chemical and energy companies are formulating strategies to mitigate the carbon emissions significantly as part of their sustainability plans. Among the different approaches to mitigate carbon emissions, hydrogen economy is seeing strong momentum reflected in announced capital projects that aim to deliver hydrogen generation and storage at scale. Alkaline electrolysis is one of the few mature technologies for hydrogen production at industrial scale In this workshop, you will develop the practical skills to build a steady state custom model of Alkaline Electrolyzer for hydrogen production and export the model to Aspen Plus, through hands-on approach with relatively less emphasis on theory..
Explore SUS-P205Aspen Plus
Introductory
0.5 day(s)
Aspen Polymers
Introductory
3 day(s)
Aspen Plus
Intermediate
2 day(s)
Aspen Plus
Introductory
1 day(s)
Review building carbon capture models using Aspen Plus. Learn how to create projects in Aspen OnLine, which allows running the Aspen Plus model in real time as an advisory or for real-time optimization allowing users to meet their sustainability goals, such as minimizing emissions and energy usage. Users first focus on reviewing key features of first principles model building in Aspen Plus and then learn how to deploy this model online.
Explore SUS-P300Aspen Utilities Planner
Introductory
2 day(s)
Aspen Plus
Introductory
0.5 day(s)
En este taller se explicará cómo definir correctamente el entorno de propiedades de Aspen Plus y cómo construir un proceso en el entorno de simulación. Este taller le guiará a través de los pasos para añadir al menos una de todas las operaciones unitarias descritas y cómo añadir corrientes a la misma.
Aspen HYSYS
Introductory
0.5 day(s)
Este taller introductorio proporciona una breve introducción al uso de Aspen HYSYS. Cubre una orientación básica desde la definición del entorno de propiedades hasta el entorno de simulación. Se ofrece una breve introducción a los modelos de transferencia de calor, así como a las opciones de columna disponibles en HYSYS.
Explore WEHY101Aspen Unified PIMS
Introductory
0.5 day(s)
Aspen Unified PIMS
Introductory
3 day(s)
Aspen Unified Scheduling
Introductory
3 day(s)
Aspen PIMS
Introductory
0.5 day(s)
Aspen Tech is excited to offer a brand-new training that combines domain practice on linear programming, production planning, and refinery economy. Delivered by domain expert from Aspen Tech, the participants will learn some real-life key points that has great impact on maximizing refinery gross margin. We will also discuss the best practices on LP model tuning, assay management, cut-point optimization, and methods to increase the overall model accuracy.
Explore CRPA101
Aspen Unified PIMS
Introductory
0.5 day(s)
Aspen PIMS
Introductory
2 day(s)
Aspen Petroleum Scheduler
Introductory
5 day(s)
Aspen Petroleum Scheduler
Introductory
5 day(s)
Aspen Refinery Multi-Blend Optimizer
Introductory
2 day(s)
Aspen PIMS Advanced Optimization
Introductory
5 day(s)
Upon completion of this course, participants will be able to use fundamental economic thinking and concepts to support business profitability and success. They will:
Aspen PIMS
Introductory
2 day(s)
Aspen PIMS
Introductory
5 day(s)
Aspen PIMS
Introductory
3.5 day(s)
Aspen Hybrid Models for PIMS-AO
Introductory
0.5 day(s)
Aspen Petroleum Supply Chain Planner
Introductory
4 day(s)
Aspen Report Writer
Introductory
1 day(s)
Aspen PIMS
Intermediate
5 day(s)
Aspen PIMS
Intermediate
2 day(s)
Aspen PIMS
Intermediate
2 day(s)
Aspen PIMS
Intermediate
1 day(s)
Aspen PIMS Advanced Optimization
Intermediate
2 day(s)
Aspen PIMS
Intermediate
5 day(s)
Aspen PIMS
Advanced
5 day(s)
Aspen PIMS
Workshop
0.5 day(s)
Aspen PIMS
Advanced
1 day(s)
Aspen PIMS
Introductory
5 day(s)
Aspen Echos
Introductory
5 day(s)
Aspen Echos
Introductory
3 day(s)
Aspen Echos
Introductory
3 day(s)
Aspen Epos
Introductory
3 day(s)
Aspen Epos
Introductory
3 day(s)
Aspen Epos
Introductory
3 day(s)
Aspen Epos
Introductory
5 day(s)
Aspen Epos
Introductory
5 day(s)
Aspen GeoDepth/EarthStudy 360
Introductory
3 day(s)
Aspen GeoDepth/EarthStudy 360
Introductory
5 day(s)
Aspen Geolog
Introductory
2 day(s)
Aspen Geolog
Introductory
3 day(s)
Aspen Geolog
Introductory
2 day(s)
Aspen Geolog
Introductory
2 day(s)
Aspen Geolog
Intermediate
2 day(s)
Aspen Geolog
Introductory
1 day(s)
Aspen Geolog
Intermediate
2 day(s)
Aspen Geolog
Intermediate
2 day(s)
Aspen Geolog
Intermediate
1 day(s)
Aspen Geolog
Intermediate
2 day(s)
Aspen Geolog
Intermediate
2 day(s)
Aspen METTE
Introductory
4 day(s)
Aspen SeisEarth QSI
Introductory
4 day(s)
Aspen RMS
Introductory
3 day(s)
This course provides the user with a comprehensive introduction to Aspen RMS.
Students progress through a series of exercises designed to use tools to import and analyze data, build a model, flow simulation grid and geological modeling grid, model facies and petrophysical data, compute volumetric and assess the impact of uncertainty on the volumes.
Explore RMS101Aspen RMS
Intermediate
1.5 day(s)
Gain insight into the grid construction requirements, the process, and the tools available in Aspen RMS. Learn about the upscaling techniques, and options for exporting the grid and importing a simulation model.
Grid design and post-processing options are covered in more detail in the course RMS202: Advanced Gridding in Aspen RMS. using
Explore RMS201Aspen RMS
Intermediate
0.5 day(s)
This course covers advanced grid construction in Aspen RMS. It covers grid analysis and quality control, advanced options for grid construction, and grid post processing tools.
Explore RMS202Aspen RMS
Intermediate
3 day(s)
This two-part course covers facies and petrophysical modeling in Aspen RMS. In the first part, students learn how to model facies properties in clastic environments (fluvial, shoreface, delta and turbidites). The second part teaches how to use the Petrophysical Modeling Job to model petrophysical properties in shoreface, fluvial and turbidite environments.
The parts can be taken separately or together.
Explore RMS211Aspen RMS
Intermediate
2 day(s)
This course teaches how to utilize the structural uncertainty tools provided by Aspen RMS to address horizon and fault uncertainty when constructing a structural model and grid, modeling properties, and computing volumetrics. Students will learn how to set uncertainties using the Horizon Uncertainty Modeling (HUM) and Fault Uncertainty Modeling (FUM) tools, and integrate them into a workflow to ensure full reproducibility. The solution is designed to assist decision-makers in recognizing and quantifying the uncertainties associated with structural modeling.
Explore RMS221Aspen RMS
Intermediate
0.5 day(s)
Advanced Horizon Uncertainty Modeling in RMS is the follow-up of the Structural Uncertainty Modeling training course. The objective of this course is to give more details about the advanced well data usage in Horizon Uncertainty Modeling (HUM) job. This includes considering the well trajectory uncertainty when running HUM job and using well pick dip and azimuth as input for conditioning horizon model surfaces
Explore RMS222Aspen RMS
Intermediate
2 day(s)
Learn how Aspen RMS can be used to define dynamic well data as input to flow simulation. This course covers the RMS Event model, import of completion and production data, preparation of flow model data, and export of keywords to the flow simulator.
Explore RMS231Aspen SeisEarth
Introductory
4 day(s)
Aspen SKUA
Introductory
1.5 day(s)
Aspen SKUA
Introductory
2 day(s)
In this flexible one to two-day course the student learns how to make the most of the unique SKUA technology to build geologically constrained velocity models and perform efficient time-to-depth conversion. Unlike other solutions where structural complexity is a limiting factor, SKUA structural and stratigraphic modeling enables accurate time-to depth conversion in salt and structurally complex environments, and provides all the tools needed to create geologically realistic velocity models.
Aspen SKUA
Introductory
3 day(s)
This course introduces Aspen SKUA (or StratEarth for versions older than Aspen V14) as part of an integrated solution for well correlation.
In this course, users progress through a typical geological workflow: After learning how to prepare and activate well data using Aspen Epos utilities, students discover how to use the tools in Aspen SKUA to pick new markers, correlate existing markers, consolidate existing marker sets and save the results into the database. Lastly, users take advantage of BaseMap and 3D Canvas capabilities for visualization, mapping and volumetric computation to QC and review their results.
Explore SKG121Aspen SKUA
Intermediate
3 day(s)
This course teaches users how to use SKUA’s unique technology to create geologically accurate structural models, geologic grids and flow simulation grids, regardless of the structural complexity of the reservoir.
This course covers the following topics:
• Introduction to SKUA technology
• Defining the geologic information for reservoir modeling
• Building a 3D structural model
• Building a geologic grid architecture
• Building a flow simulation grid architecture
Explore SKG201Aspen SKUA
Intermediate
2 day(s)
A rigorous and systematic analysis of reservoir data is key to the construction of a reliable reservoir model. In this two-day course the users progress through a series of comprehensive exercises to gain a practical approach to reservoir data analysis and stochastic property modeling.
The course teaches how to use the Data Trend Analysis workflow and the Reservoir Properties workflow to create robust and realistic 3D models of the lithology, porosity and permeability. This is followed by reservoir volumes computation and post-processing.
Explore SKG202Aspen SKUA
Advanced
1.5 day(s)
Aspen SKUA
Introductory
2 day(s)
Accurate modeling of geological formations is essential for optimizing carbon capture and storage (CCS) processes, as it assists in understanding the subsurface properties and evaluate the potential for safely and efficiently storing carbon dioxide over long periods - which is crucial for mitigating climate change.
The goal of this training is to equip you with the knowledge and skills needed to apply the advanced geological modeling capabilities of Aspen SKUA to the specific context of Carbon Capture and Storage.
Using a real dataset of a field used for carbon sequestration, you will learn various techniques for creating detailed 3D Geological model to predict the behavior of CO2 storage sites, including the assessment of the reservoir’s storage capacity.
Explore SUS-S111Aspen Tempest
Introductory
1 day(s)
In this training course, participants will build, run and analyze the simulation of injecting carbon dioxide into porous rock. This will be achieved by using Aspen Tempest MORE and Aspen Tempest VIEW employing a gas/water black oil model.
Explore SUS-S114Aspen Tempest
Introductory
1 day(s)
In this training course, participants will build, run, and analyze a geothermal simulation in porous and non-porous rock. This will be achieved using Aspen Tempest MORE and Aspen Tempest VIEW, employing a black oil model with single phase water injection below the boiling point of water.
Explore SUS-S122Aspen SeisEarth
Intermediate
3 day(s)
Generating an accurate interpretation and model of the subsurface is a crucial step in optimizing hydrogen storage in salt formations and improving our understanding of the salt structure and properties for cavern leaching.
The objective of this training is to provide you with the skills to effectively use the tools available in Aspen SeisEarth and Aspen SKUA for interpreting and modeling salt surfaces. You will be introduced to various methods for creating 3D structural models with salt and modeling properties. By following one of these methods, you will create a facies model within the salt intrusion.
Explore SUS-S231Aspen Sysdrill
Introductory
2 day(s)
Aspen Tempest
Introductory
2 day(s)
Aspen Tempest
Introductory
2 day(s)
Aspen SeisEarth
Introductory
3 day(s)
Aspen SCM
Advanced
1 day(s)
Aspen SCM
Introductory
0.5 day(s)
Aspen Plant Scheduler
Introductory
2 day(s)
Aspen Supply Chain Planner
Introductory
2 day(s)
Aspen Demand Manager
Introductory
2 day(s)
This course provides systematic training in basic Aspen Demand Manager (DM) for demand planners. Detailed emphasis is placed on introducing and reviewing features and functions in Aspen Demand Manager including Data Management, Forecast Preparation and Generation, Plan Generation & Analysis, and Publishing.
Explore SCM103Aspen SCM
Intermediate
2 day(s)
Aspen SCM
Advanced
3 day(s)