1.
Research on Advanced Control Strategies of High-purity Internal Thermally Coupled Distillation Columns;
高纯内部热耦合精馏塔的先进控制策略研究
2.
Nonlinear Wave Traveling in High-purity Internal Thermally Coupled Distillation Column
![点击朗读](/dictall/images/read.gif)
高纯内部热耦合精馏塔的非线性Wave传播特性
3.
Intensifying Internal Heat Integration-Synthesis, Design and Control of a High-Purity Ethylene Glycol Reactive Distillation Column
强化内部热耦合—高纯度乙二醇反应蒸馏塔的综合、设计与控制
4.
Deepening Internal Mass Integration--Synthesis and Design of Reactive Distillation Columns with Negligible or No Thermal Effect
强化内部物质耦合——无热效应反应精馏塔的综合与设计
5.
Synthesizing and Analyzing the Dual-Point Temperature Control System of an Ideal Heat-Integrated Distillation Column
理想内部热耦合精馏塔双温度控制系统的综合与分析
6.
Conceptual Design, Dynamics and Control Study of High-Purity Internal Thermally Coupled Air Separation Columns;
高纯内部热耦合空气分离塔的概念设计、动态特性分析及控制研究
7.
The design and simulation of fully thermally coupled distillation column for ternary mixture separation (I)--A shortcut design method
三组元全热耦合精馏塔设计与模拟 (Ⅰ)--简捷设计法
8.
The design and simulation of fully thermally coupled distillation column for ternary mixture separation (II)--Rigorous simulation and optimization
三组元全热耦合精馏塔设计与模拟 (Ⅱ)--严格模拟与优化
9.
Adaptability and Thermodynamic Efficiency of Thermally Coupled Distillation;
![点击朗读](/dictall/images/read.gif)
热耦合精馏的适应性及其热力学效率
10.
Simulation of Fully Thermally Coupled Distillation Columns for Multi-component Mixture Separation;
多组元全热耦合精馏分离的模拟研究
11.
Fuzzy Decoupling Control of the Distillation Column Based on PLC
![点击朗读](/dictall/images/read.gif)
基于PLC的精馏塔模糊解耦控制器
12.
Simulation of reactive distillation dividing wall column for synthesis of methyl acetate
![点击朗读](/dictall/images/read.gif)
反应精馏隔壁塔内合成乙酸甲酯的模拟
13.
Simulation of Diabatic Distillation with Heat Integration between Column Sections
![点击朗读](/dictall/images/read.gif)
塔段透热能量集成精馏塔模拟及研究
14.
Design of Fuzzy-neuron PID Decoupling Controller for Distillation Column Temperature
![点击朗读](/dictall/images/read.gif)
基于模糊神经元PID解耦的精馏塔温度控制
15.
Simulation study of internally heat-integrated distillation column and its characteristics for energy saving
内部能量集成精馏塔的模拟研究及其节能特性分析
16.
Application of VB6.0 in Temperature Distribution of Rectifying Tower;
![点击朗读](/dictall/images/read.gif)
VB6.0在确定精馏塔内温度分布中的应用
17.
Model Simulation Investigation on Coupled Heat Transfer of the Components in Engine Combustion Chamber;
内燃机燃烧室部件耦合传热仿真研究
18.
After reforming, the top cyclohexene in separating column decreased from6.5% to4.0%, the top cyclohexene of recovery column decreased from3.5%~4.8% to2.5%, the purity of cyclohexene increased from95% to97%.
本次改造提供了一种萃取精馏塔扩能改造的新思路———更改部分工艺,提高提馏段效率。