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
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;
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
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
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
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
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;
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。