Overview HEXTRAN - sw.aveva.com · • Double pipe • Multitube • Finned tube • Air cooler •...
Transcript of Overview HEXTRAN - sw.aveva.com · • Double pipe • Multitube • Finned tube • Air cooler •...
Software Datasheet
Overview
HEXTRAN offers features
that enable users to
easily evaluate complex
design, operations,
and retrofit situations,
by designing new
systems for maximum
efficiency and identifying
problems.
The HEXTRAN heat transfer simulator is the core heat transfer technology for all SimSci-Esscor products. HEXTRAN has the ability to produce standard TEMA exchanger datasheets in both HTML and Excel® formats. HEXTRAN also offers superior post-processing displays and plots of results from network targeting, grand composite curves, and zone analysis exercises.
HEXTRAN provides efficiencies in all types of design and operational analysis work:
• Individual Exchanger and Network Designs
• Pinch Analysis
• Exchanger Zone Analysis
• Split Flow
• Area Payout
• Cleaning Cycle Optimizations
HEXTRANIndustry Proven Process Heat Transfer Simulation
is nowInvensys
GREATER PROFITABLILTYUsing HEXTRAN to simulate actual performance can make a critical difference between profit or loss. Users will achieve cost effective improvements such as:
• Increased Energy Efficiency and Significantly Reduced Operating Costs
• Improved Process Heat Transfer, Product Yields, and Quality
• Increased Plant Flexibility and Throughput
• Optimized Cleaning Schedule for Exchangers
• Optimal Antifoulant Selection and Usage
• Improved Process Designs and Revamps
HEXTRAN offers features that enable users to easily evaluate complex design, operations, and retrofit situations, by designing new systems for maximum efficiency and identifying problems.
A Design Tool
Design both simple and complex heat transfer systems, resulting in cost-effective, flexible processes.
A Retrofit Tool
Retrofit existing equipment and revamp heat exchanger networks to yield optimum performance.
An Operations Tool
UNIT OPERATIONS CALCULATION MODELS
PINCH TECHNOLOGY SIMULATION
OPTIMIZATION
CLEANING CASE STUDIES
REGRESSION
INTEGRATED PROGRAMS*
Heat Exchangers
• Shell and tube• Rod baffle• Double pipe• Multitube• Finned tube• Air cooler• Plate-and-frame• Shortcut• Flue gas heater
Equipment
• Mixer• Splitter• Pipe and fittings• Valve• Flash drum• Pump• Compressor• Desalter• Decanter• Fired heater• Utility heater/cooler• Multivariable controller
Targeting
• Theoretical bounds• Composite QT curves• Process and utility Qs• Minimum approach• Temperatures
Targeting Synthesis
• Optimal networks• Stream splitting
• Rating• Design
• Area payout• Utility minimization
• Cleaning cycle optimization• Fouling versus time• Spreadsheet interface
HTRI
• ST5 • RTF2• CST3 • RKH3• ACE2*Members Only
HTRI
• TASC3
• Specs > variables• Data reconciliation
APPLICATIONS INDUSTRIES SERVED • Exchanger Design
• Exchanger Operational Analysis
• Pinch Analysis
• Network Synthesis
• Optimization
• Exchanger Performance Monitoring
• Exchanger Cleaning Case Studies
• Petroleum Production Facilities
• Gas Processing
• Petroleum Refining
• Petrochemical Manufacturing
• Fine and Specialty Chemical Manufacturing
• Engineering and Construction
PHYSICAL PROPERTIES
THERMODYNAMIC MODELS
BINARY DATABANKS
Refining/Oil & Gas/Petrochemicals
• Soave-Redlich-Kwong (SRK)• Peng-Robinson (PR)• Huron-Vidal mixing rule (for SRK and PR)• Kabadi-Danner mixing rule (for SRK)• Panagiotopoulos and Reid mixing rule (for SRK and PR)• SIMSCI mixing rule (for SRK)• Temperature-dependent Kij’s• Lee-Kesler• Lee-Kesler-Ploecker• Grayson-Streed• Braun K10• Ideal library methods• BWRS• Chao-Seader• Costald• API density method• Single and multifluid Rackett densities• Steam tables• Free-water decant
• Soave-Redlich-Kwong (SRK)• Peng-Robinson (PR)• Huron-Vidal mixing rule (for SRK and PR)• Panagiotopoulos and Reid mixing rule (for SRK and PR)• SIMSCI mixing rule (for SRK)• BWRS• UNIQUAC• NRTL-8 coefficient form• Henry’s Law for non-condensibles• Heats of mixing• Hayden-O’Connell• Hexamer
Petrochemicals/Chemicals
• UNIFAC (VLE, LLE, and VLLE)• UNIFAC-FV (free volume)• UNIWAALS• UNIQUAC• NRTL-8 coefficient form• Wilson• Van Laar• Margules• Regular solution model• Acid dimerization• Henry’s Law for non-condensibles• Henry’s Law for dilute aqueous• Three-phase equilibrium (VLLE)• Heat of mixing• Hayden-O’Connell
COMPONENT DATABANKS• 1,700+ pure component library• DIPPR-based library• Nonlibrary components• Pseudocomponents and assay characterization• User Libraries• Properties from structure• Multiple assay blends• Synfuels
Invensys, the Invensys logo, ArchestrA, Avantis, Eurotherm, Foxboro, IMServ, InFusion, SimSci-Esscor, Skelta, Triconex, and Wonderware are trademarks of Invensys plc, its subsidiaries or affiliates. All other brands and product names may be the trademarks or service marks of their representative owners.
© 2012 Invensys Systems, Inc. All rights reserved. No part of the material protected by this copyright may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, broadcasting, or by any information storage and retrieval system, without permission in writing from Invensys Systems, Inc.
Invensys Operations Management • 10900 Equity Drive, Houston, TX 77041 • Tel: (713) 329-1600 • Fax: (713) 329-1700 • iom.invensys.com
PROCESS ENGINEERING SUITEHEXTRAN is part of the Process Engineering Suite (PES) from Invensys. PES is a consistent set of tools for engineering design and operational analysis. This integrated suite of software readily interfaces with other applications commonly used by process engineers, thus enhancing productivity in the plant life cycle. PES can be used for oil and gas production, refining, petrochemicals, chemicals, pharmaceuticals, and polymer plant modeling.
Rev. 01/15 PN SE-0167