From the basic principle of flow , we can build two compartmental models between intermission and sequent ; and as well as develop the simulation software 从水流的基本特性出发,分别建立了间歇操作和连续操作水箱(池)的分区数学模型,并在此基础上进行了计算机仿真应用软件的开发。
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Standard requirements for pad - mounted , compartmental - type , self - cooled , three - phase distribution transformers , 2500 kva and smaller : high - voltage , 34 500 grdy 19 920 volts and below ; low voltage , 480 volts and below 底座安装的隔室型自冷式三相配电变压器2500 kva及更小:高压34500 grdy 19920伏及以下低压480伏及以下的要求标准
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In the second place , based on the asu of buggenum igcc plant in netherlands , both static and dynamical model for distillation tower of the asu are created and some valuable conclusions are gained as well . finally , a compartmental simplified model is created for distillation tower of the asu , in order to reduce the simulation time and increase the simulation efficiency . the new model will be helpful to the further simulation and on - line optimal control for the asu of the igcc plant 其次,本文以荷兰buggenum电站的空分系统为原型,基于matlab建立了空分系统精馏塔的半图形化动、静态数学模型,并通过模拟,得出了一些有价值的结论:当空分系统的压力变化时,氧气产品浓度的响应时间常数为两小时左右,说明空分系统是igcc电站最大延迟环节;而且虽然氧气浓度最后会稳定在igcc电站所要求的范围之内,但在过渡过程中会超出限制,这些都为igcc电站的安全运行及控制系统设计提供了有价值的信息。