1        Philosophy behind QW-BHM

1.1         Frequently asked questions

2        Interactive operation

3        Batch operation

3.1         Batch operation with user tasker files

3.2         Batch operation with exported tasker files

4        Heat Flow modelling regime

4.1         QW-HFM external module

4.1.1     The linear model of QW-HFM

4.1.2     The nonlinear model of QW-HFM

4.1.3     The Fluent mode of operation

4.2         QW-HFM internal module

4.3         Usage of the QW-HFM module

4.3.1     Defining of the media properties

4.3.2     Defining of the boundary conditions

4.3.3     Running the QW-HFM module

4.3.4     The initialisation file

4.4         An example simulation

4.5         Radiative condition for heat flow

4.5.1     Introduction

4.5.2     Implementation in QuickWave

4.5.3     Examples

5        Frequency tuning

5.1         Automatic frequency tuning

5.2         Manual frequency tuning

5.3         Sensitivity to the tuning

5.4         Syntax of tasker file

5.5         Running heat_tune example

6        Single object rotation

6.1         Creating rotation examples

6.2         Converting elements to objects

6.3         Rotation example

6.4         Rotation examples with source tuning

7        Object movements

7.1         Single object rotation as movement

7.2         Two rotating objects

7.3         Translation mechanism

8        Port parameters modification

8.1         BHM scenarios with two ports

9        Fluid Flow modelling regime

9.1         The Theory of the Fluid Flow Module

9.2         The Philosophy of the QW-Fluid Flow Module

9.3         The necessary conditions to use QW-FFM

9.4         Model Input

9.5         Model Results

9.6         Units

9.7         Limitations of the Fluid Flow Regime

10     Use of the QW-BHM module in the V2D/BOR examples

10.1      Coaxial waveguide with heat flow module

10.2      Coaxial waveguide with heat flow module and boundary conditions

10.3      Coaxial waveguide without heat flow module