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WELCOME TO MULTI_R_DESIGNER DOCUMENTATION

MULTI_R_DESIGNER USER LICENSE AGREEMENT
DISCLAIMER OF WARRANTY. Multi_R_Designer package (program, data bank and documentation, hereinafter collectively referred to as the "PROGRAM") is provided on an "AS IS" basis, without warranty of any kind, including without limitation the warranties of merchantability, fitness for a particular purpose and non-infringement. The entire risk as to the quality and performance of the PROGRAM is borne by you. Should the PROGRAM prove defective, you and not LAVAL UNIVERSITY assumes the entire cost of any service and repair. In addition, the security mechanisms implemented in the PROGRAM have inherent limitations, and you must determine that the PROGRAM sufficiently meets your requirements. This disclaimer of warranty constitutes an essential part of the agreement. Some Jurisdictions Do Not Allow Exclusions Of An Implied Warranty, So This Disclaimer May Not Apply To You And You May Have Other Legal Rights That Vary By Jurisdiction.
SCOPE OF GRANT.
You may:
- use the PROGRAM on one or more machines at a time
- make copies of the Program for backup purposes.
You may not:
- use or copy the PROGRAM except as provided in this license;
- post the PROGRAM electronically;
- modify, merge, or distribute the PROGRAM;
- reverse assemble, reverse compile or otherwise attempt to discover the source code and data bank of the PROGRAM or create derivative works based on the PROGRAM
- remove any proprietary notices or labels on the PROGRAM
- sublicense, rent, lease, distribute or assign the PROGRAM. TITLE. Title, ownership rights, and intellectual property rights in the PROGRAM shall remain in LAVAL UNIVERSITY and/or its suppliers. The PROGRAM is protected by copyright laws and treaties. Title and related rights in the content accessed through the PROGRAM is the property of the applicable content owner and may be protected by applicable law. This License gives you no rights to such content.

TUTORIAL

The Multi_R_Designer tutorial is divided in two distinct categories, dealing first with the procedures relevant to the interrogation of the integrated databank, of any of the three reactors : trickle beds (two-phase cocurrent downward flow), packed beds (two-phase counter-current flow), and flooded beds (two-phase concurrent upward flow). This is useful to retrieve important non-proprietary information from the literature (Query section). The integrated databanks contain to this date, 35600 data sets extracted from 179 literature publications concerning any types of experiments in trickle-bed reactors, 20139 data sets extracted from 108 publications concerning experiments in packed-bed reactors, and 10600 data sets extracted from 55 publications concerning experiments in flooded-bed reactors, and this involving hydrodynamics, mass transfer and heat transfer classifications. Various simple case problems, for trickle bed reactors, are included in the tutorial for the user to get acquainted and understand all the functionalities relevant to the integrated databank interrogation. After getting through the tutorial, the user should be able to use the query index efficiently. As a matter of fact, the procedures described for the integrated databank interrogation could be easily applied for the user's proprietary data, which will be referred in this document as the user database.

Several correlations and models predicting hydrodynamics, mass transfer and heat transfer parameters have been implemented in Multi_R_Designer. When possible, predictions from these correlations/models have already been calculated and included in the integrated databank. Based on these calculations, the correlations/models effectiveness can be scrutinized (i.e. parity plots, statistics) in a way to understand which correlation or model would predict accurately studied parameters. Again, simple case problems are presented in this document analyzing in consequence the effectiveness of the correlations and models.

The second part of the tutorial (Simulation section) deals with the procedures relevant to parameter predictions. Simulations can be performed to predict hydrodynamics, mass and heat transfer properties using 114 models . From that list, 16 Artificial Neural Network correlations (MR_ANNs) were developed at Laval University by the Multi_R_Designer team based on the integrated databank. An example, for the trickle bed reactor, is presented to show how the user can carry out simulations from a proprietary database and get an overview on the performance of the appropriate models and correlations available in the open literature for its own purpose. Two options are offered in this section: manual or automatic simulation. In one example, the advantages relative to the two options are underlined. The user is then introduced to the model expert advisor (MEXA). This tool, available in the simulator, should help the user to choose the best model or correlation predicting a given parameter, providing a range of operating conditions and this without any experimental data. Finally, a procedure is presented to explain how the user can add his model in Multi_R_Designer software and to test its performance using the integrated databanks.

QUICK GUIDE MANUAL

The quick guide manual is presented as a summary of all functionalities implemented in Multi_R_Designer. It contains basic definitions and information relative to any subject associated with one of the 5 sections (File, Reactor, Database, Simulation, Tools, Graphical representation). Most of the definitions are used at least once in the Multi_R_Designer tutorial.

Multi_R_Designer Documentation