System Dynamics: Modeling, Analysis, Simulation, DesignCRC Press, 10 лют. 1998 р. - 774 стор. Addressing topics from system elements and simple first- and second-order systems to complex lumped- and distributed-parameter models of practical machines and processes, this work details the utility of systems dynamics for the analysis and design of mechanical, fluid, thermal and mixed engineering systems. It emphasizes digital simulation and int |
Зміст
| 1 | |
2 SYSTEM ELEMENTS MECHANICAL | 28 |
3 SYSTEM ELEMENTS ELECTRICAL | 123 |
4 SYSTEM ELEMENTS FLUID AND THERMAL | 206 |
5 BASIC ENERGY CONVERTERS | 272 |
6 SOLUTION METHODS FOR DIFFERENTIAL EQUATIONS | 337 |
7 FIRSTORDER SYSTEMS | 403 |
8 SECONDORDER SYSTEMS AND MECHANICAL VIBRATION FUNDAMENTALS | 521 |
9 GENERAL LINEAR SYSTEM DYNAMICS | 621 |
10 DISTRIBUTEDPARAMETER MODELS | 707 |
APPENDIXES | 729 |
| 737 | |
Інші видання - Показати все
System Dynamics: Modeling, Analysis, Simulation, Design Ernest Doebelin Обмежений попередній перегляд - 1998 |
System Dynamics: Modeling, Analysis, Simulation, Design Ernest O. Doebelin Попередній перегляд недоступний - 1998 |
Загальні терміни та фрази
acceleration actual amplifier amplitude ratio analysis analytical applied armature behavior capacitance capacitor circuit coefficient control systems curve damper damping define device differential equations displacement Doebelin effect electrical element energy engineering example Figure filter first-order systems flow rate fluid force Fourier series frequency response friction give graph heat icon impedance inch inductance inductor inertia initial integrator Laplace transform linear load lumped magnetic mass MATLAB measured mechanical method motion motor natural frequency nonlinear numerical values op-amp output parameters phase angle physical piezoelectric plot positive pressure problem pump R₁ rad/sec requires resistance resistor rotating second-order systems sensor shows signal simulation diagram SIMULINK sine wave sinusoidal solution speed spring constant steady-state step input step response system dynamics system of Fig temperature thermal tion torque transducer transfer function usually valve velocity vibration voltage volts Workspace2 zero