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سورنا فایل

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آموزش نحوه فازی سازی یک عارضه بر روی نقشه DEM و اجرا کردن اپراتورهای فازی بر روی DEM (نقشه رقومی ارتفاع)

اختصاصی از سورنا فایل آموزش نحوه فازی سازی یک عارضه بر روی نقشه DEM و اجرا کردن اپراتورهای فازی بر روی DEM (نقشه رقومی ارتفاع) دانلود با لینک مستقیم و پر سرعت .

آموزش نحوه فازی سازی یک عارضه بر روی نقشه DEM و اجرا کردن اپراتورهای فازی بر روی DEM (نقشه رقومی ارتفاع)

در این فایل که به صورت pdf می باشد شما می توانید یک نقشه dem را به صورت فازی در بیاورید و تمام عارضه های روی dem مانند رودخانه، شهر، پارک، دریا، جاده، یک پولیگون یا هر چیز دیگر را فازی کنید و عملیات مورد نظر را روی ان انجام دهید. در این فایل نحوه وارد کردن روابط فازی در GIS و همینطور وارد کردن اپراتورهای فازی بیان شده است. همچنین تمام عملیات با یک مثال برای شما بر روی DEM یک منطقه نشان داده شده است. این فایل آموزشی مشتمل بر 72 صفحه می باشد که در آن وارد کردن روابط فازی به صورت کدهای مخصوص فازی هم آمده است. این فایل آموزشی در سالهای گذشته و سال جاری توسط یکی از اساتید برجسته دانشگاه ارومیه تدریس شده است.


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آموزش نحوه فازی سازی یک عارضه بر روی نقشه DEM و اجرا کردن اپراتورهای فازی بر روی DEM (نقشه رقومی ارتفاع)

DEM simulation of Centrifugal fertilizer (پایان نامه 200 ص به زبان انگلیسی )

اختصاصی از سورنا فایل DEM simulation of Centrifugal fertilizer (پایان نامه 200 ص به زبان انگلیسی ) دانلود با لینک مستقیم و پر سرعت .

DEM simulation of Centrifugal fertilizer (پایان نامه 200 ص به زبان انگلیسی )


DEM simulation of Centrifugal fertilizer (پایان نامه 200 ص به زبان انگلیسی )

List of contents
1 General introduction..............................................................................................................1
1.1 World fertilizer production and needs..............................................................................1
1.2 Centrifugal spreading in agriculture.................................................................................1
1.3 Need for spreader modelling ............................................................................................3
1.4 Existing spreader models .................................................................................................3
1.5 Introduction DEM in agriculture......................................................................................4
1.6 Objectives of the research ................................................................................................5
1.7 Outline of the research .....................................................................................................6
2 The Discrete Element Method...............................................................................................7
2.1 Introduction ......................................................................................................................7
2.2 DEM Algorithm flow .......................................................................................................8
2.3 Model parameter settings .................................................................................................9
2.4 Initializing the simulation.................................................................................................9
2.5 Contact resolution ..........................................................................................................11
2.5.1 Introduction ............................................................................................................11
2.5.2 Sphere-sphere contact ............................................................................................11
2.5.3 Sphere-rectangle contact ........................................................................................12
2.5.4 Sphere-cylinder contact..........................................................................................13
2.5.5 Sphere-disc contact ................................................................................................14
2.5.6 Contact with edges .................................................................................................16
2.6 Search algorithms...........................................................................................................18
2.7 Force calculation in DEM simulations...........................................................................19
2.7.1 Introduction ............................................................................................................19
2.8 Normal contact force models .........................................................................................22
2.8.1 Introduction ............................................................................................................22
2.8.2 The Kelvin–Voight model......................................................................................23
2.8.3 The Kono-Kuwabara model ...................................................................................23
2.8.4 Other normal contact models .................................................................................26
2.9 Tangential contact forces ...............................................................................................26
2.9.1 Introduction ............................................................................................................26
2.9.2 Linear model implementation ................................................................................27
2.10 Moments of forces..........................................................................................................29
2.11 Body Forces....................................................................................................................30
2.11.1 Aero dynamical drag force.....................................................................................30
2.11.2 Magnus effect.........................................................................................................31
2.12 Time integration algorithms ...........................................................................................31
2.12.1 Introduction ............................................................................................................31
2.12.2 Integration of Newton’s second law.......................................................................32
2.12.3 Euler method ..........................................................................................................32
2.12.4 Leapfrog method ....................................................................................................33
List of contents viii
2.12.5 Other integrators.....................................................................................................33
2.12.6 Choice of the time step...........................................................................................34
2.12.7 Integration of Euler’s law.......................................................................................35
2.12.8 Leapfrog integration...............................................................................................38
2.12.9 Integration errors ....................................................................................................38
2.13 Program overview ..........................................................................................................40
2.14 Conclusions ....................................................................................................................40
3 Particle measuring methods as input for numerical models............................................42
3.1 Introduction ....................................................................................................................42
3.2 Particle mass ( p m ) ........................................................................................................43
3.3 Particle radius ( p R ) and shape .......................................................................................43
3.3.1 Manual procedure...................................................................................................43
3.3.2 Automatic procedure ..............................................................................................44
3.3.3 Particle shape approximation .................................................................................45
3.3.4 Surface roughness ..................................................................................................50
3.4 Particle density (ρ ) p .....................................................................................................52
3.5 Particle stiffness (k ) ....................................................................................................52
3.5.1 Stiffness for sphere-sphere indenting.....................................................................53
3.5.2 Stiffness for sphere-cylinder indenting ..................................................................53
3.6 Particle damping coefficient (c) and restitution coefficient (e) ..................................54
3.6.1 Sphere-sphere damping ..........................................................................................58
3.7 Particle fracture resistance ( ) max N ................................................................................58
3.7.1 Impact with vanes and vane edges .........................................................................61
3.7.2 Static pressure in the bin ........................................................................................62
3.8 Particle friction coefficient (μ ) .....................................................................................62
3.8.1 Wall-particle friction ( wp μ ) ...................................................................................63
3.8.2 Particle-particle friction ( pp μ )................................................................................64
3.8.3 Static friction ..........................................................................................................65
3.9 Particle Aerodynamical drag coefficient ( d C ) ...............................................................65
3.10 Errors of the measurement methods...............................................................................66
3.11 Conclusions ....................................................................................................................67
4 Single particle simulations...................................................................................................68
4.1 Introduction ....................................................................................................................68
4.2 Comparison with analytical models ...............................................................................68
4.2.1 The rolling and friction force .................................................................................68
4.2.2 The centrifugal force ..............................................................................................71
4.2.3 The Coriolis force...................................................................................................73
4.3 Experimental methods....................................................................................................74
4.4 Experimental verification of single particle trajectories ................................................75
4.5 Analysis of the rotational motion in single particle trajectories.....................................79
4.6 Analysis of bouncing in single particle trajectories .......................................................83
4.7 Non - spherical particle simulations...............................................................................86
List of contents ix
4.8 Conclusions ....................................................................................................................88
5 Multi particle simulations....................................................................................................89
5.1 Introduction ....................................................................................................................89
5.2 Materials and methods ...................................................................................................90
5.2.1 Introduction ............................................................................................................90
5.2.2 Cylindrical measurements ......................................................................................90
5.2.3 Rectangular measurements (TSP) ..........................................................................91
5.2.4 Fertilizer choice and property measurements.........................................................93
5.2.5 Choice of disc type and bin ....................................................................................96
5.3 Computational setup.......................................................................................................99
5.3.1 Introduction ............................................................................................................99
5.3.2 Initial conditions in the bin...................................................................................100
5.3.3 Spinning disc simulations.....................................................................................103
5.3.4 Ballistic model......................................................................................................104
5.3.5 Model output variables.........................................................................................104
5.3.6 Characterisation time of the simulated pattern.....................................................104
5.3.7 Sensitivity to bin filling........................................................................................105
5.4 Results and discussion..................................................................................................105
5.4.1 Cylindrical spread pattern measurements ............................................................105
5.4.2 TSP measurements ...............................................................................................111
5.5 Conclusions of the experiments ...................................................................................118
6 Model parameter sensitivity..............................................................................................120
6.1 Introduction ..................................................................................................................120
6.2 Definition of sensitivity................................................................................................120
6.3 Influence of friction coefficient....................................................................................123
6.3.1 Particle-wall friction.............................................................................................123
6.3.2 Particle-particle friction........................................................................................128
6.3.3 Conclusion on friction coefficients ......................................................................129
6.4 Influence of elasticity and damping .............................................................................130
6.4.1 Influence of particle stiffness ...............................................................................130
6.5 Influence of bulk flow ..................................................................................................132
6.5.1 Flow rate...............................................................................................................133
6.5.2 Influence of orifice shape.....................................................................................134
6.6 Influence of particle diameter and segregation ............................................................136
6.6.1 Particle diameter...................................................................................................136
6.6.2 Segregation...........................................................................................................140
6.7 Influence of particle shape ...........................................................................................141
6.7.1 Introduction ..........................................................................................................141
6.7.2 Results ..................................................................................................................143
6.8 External forces..............................................................................................................146
6.9 Interaction of parameters..............................................................................................147
6.9.1 Friction - particle shape........................................................................................148
6.9.2 Friction - bulk flow rate .......................................................................................149
6.9.3 Bulk flow segregation ..........................................................................................149
6.9.4 Friction – working width......................................................................................151
6.10 Particle interception......................................................................................................151
6.11 Discussion on sensitivity...........................................................................................152
List of contents x
6.12 Conclusions ..................................................................................................................159
7 Case study: DEM simulations of a new concept for lawn spreaders.............................161
7.1 Introduction ..................................................................................................................161
7.2 Situation and current technology..................................................................................161
7.3 Design of the new concept ...........................................................................................162
7.4 Flow rate regulation of the pocket system ...................................................................163
7.5 DEM simulations..........................................................................................................166
7.5.1 Introduction ..........................................................................................................166
7.5.2 Simulation of ideal conditions, current technology .............................................167
7.5.3 Simulation of modified conditions.......................................................................168
7.6 Conclusions ..................................................................................................................170
8 General conclusions and future outline............................................................................171
8.1 General conclusions .....................................................................................................171
8.2 Suggestions for future work .........................................................................................174
9 Bibliography .......................................................................................................................177


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DEM simulation of Centrifugal fertilizer (پایان نامه 200 ص به زبان انگلیسی )