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guoluranshaoPID
- 锅炉燃烧过程MATLAB仿真程序,很简单很容易-MATLAB simulation program the boiler combustion process is very simple and very easy
TheSimulationStudyonPIDNeuralNetworkDecouplingCont
- 介绍了汽包锅炉燃烧控制系统的控制任务、量间关系、原则性控制方案、传统控制方法,以及解耦控制方法的发展 ,引入了 PID型神经网络控制系统的结构、学习算法、初始权值参数选取. MATLAB仿真结果表明 ,该控制系统对多变量强耦合时变的锅炉燃烧控制对象具有良好的解耦性能和自学习控制特性.-The control tasks, the relations between physical variables, the fundamental controlschemes, the convention
fuzzy-predictive-control
- 锅炉燃烧系统的模糊预测控制,完整的程序设计流程图-Boiler combustion system of fuzzy predictive control, complete the program flow chart
BP
- BP算法,关于神经网络反馈的算法,Matlab编写,内含数据文件,可直接运行-BP algorithm, on the neural network feedback algorithm, Matlab preparation, combustion data file that can be run directly
1
- Solves oxy combustion of methane in matlab
2
- solves air combustion of methane in matlab
wytxdeal_ht
- 利用Matlab编写发动机万有特性图M文件-the code for internal combustion engine characteristic map in M file of matlab tool
Adiabatic_Flame_tempreture
- Adiabatic Flame tempreture Using Matlab in Combustion Of CH4/O2
Afpro
- 使用matlab编写了可以计算Air或者Air和(CH2)n的燃烧产物在160~2200K之间的热物性参数,包括h,Cp,R,k,Pr-It can be calculated using the matlab prepared Air Air and combustion products, or (CH2) n ~ 160 in thermal properties between 2200K, comprising h, Cp, R, k, Pr
flame
- 一个刚性常微分方程。 火焰(R0)指定初始半径R0。默认的R0 = 02。 一个火球会膨胀,直到它的半径足够大,所有的氧气都可以通过地表燃烧。半径的方程^ RDOT = R 2 R ^ 3。(A stiff ordinary differential equation. FLAME(r0) specifies the initial radius is r0. Default r0 = .02. A ball of fire grows until its radius is ju
suramadu
- On one hand, when higher-level ethanol blends are used, the higher latent heat of vaporization can result in cold-start issues. On the other hand, a higher octane number, which indicates resistance to knock and enables optimal combustion phasing, imp
matlab
- 锅炉仿真基于matlab仿真燃烧炉控制系统建模与仿真(Modeling and Simulation of boiler simulation based on MATLAB simulation combustion furnace control system)
FLC4EV_MM(1)
- In automobiles, a start-stop system or stop-start system automatically shuts down and restarts the internal combustion engine to reduce the amount of time the engine spends idling, thereb
混合动力电动汽车(HEV)使用电池动力模型火车
- 论证表明混合动力电动汽车在一个完整的循环中有不同的运行模式:加速、巡航、对电池进行加速和再生制动。 电气子系统由电动机、发电机、蓄电池和DC/DC转换器四部分组成。 行星齿轮子系统对动力分流装置进行建模。它使用一个行星装置,通过分配和组合发动机、马达和发电机来传递机械动力。 内燃机子系统采用调速器对57 kW @ 6000转/分汽油发动机进行建模发动机调速器。 车辆动力学系统模型车辆的所有机械部件。(The de