Pinch technology is seldom used in the design and revamping of domestic FCC units.
窄点技术在国内催化裂化装置设计和改造中的应用还非常少。
Water pinch technology can be used for optimizing circulating cooling water systems.
运用水夹点技术,对循环冷却水系统进行优化。
This paper describes the basic principle and commercial application of pinch technology.
本文论述夹点技术的原理,概述它的工业应用情况。
The water pinch technology for wastewater minimization has been successfully applied in many plants.
水窄点技术用于废水量最小化的研究已成功地用于多座工厂。
Water network optimization of petrochemical industry has been researched by using water pinch technology.
运用水夹点技术,对某石化企业进行用水网络优化研究。
The industrial practice prove that the pinch technology is highly efficient for the heat exchanger network design.
实践证明,应用夹点理论指导换热网络的综合会取得很好的经济效益。
The basic principle of pinch technology and its application in the heat exchanger network synthesis are illustrated.
本文阐述了夹点理论的基本原理,及其在换热网络优化综合中的应用。
Water network optimization in a petrochemical corporation with nine operations was studied using water pinch technology.
运用水夹点技术,对某石化企业9个用水操作进行用水网络优化研究。
Water pinch technology can save fresh water and reduce wastewater in industry and has practicality and better application prospect.
水夹点技术在工业用水节约和废水减量方面具有实用价值和较好的应用前景。
The basic principles, development, present situation as well as development trend of water pinch technology were emphatically introduced.
着重介绍了水窄点技术的基本原理、开发、现状及发展趋势。
An industrial example is presented to show how to use pinch technology to analysis the existing heat exchanger network and to retrofit it.
并利用一工业实例说明如何应用夹点技术进行现有换热网络的分析和改造设计。
One of the great achievements in fast Z-pinch technology was the successful design of the magnetically insulated transmission lines (MITL).
真空磁绝缘传输技术的应用是快速Z箍缩驱动器取得突破性进步的关键技术之一。
Thirdly, the paper analyzes the coked water in details by applying the water pinch technology, meanwhile, it concludes the process of water recycling.
第三,应用水夹点技术对焦化用水和循环水场的用水进行了详尽分析,同时确定了水回用流程,并进行了实施改造。
Water pinch technology is a process integration technology, which can be used in the optimization of enterprise water-using system to increase wastewater reuse rate.
水夹点技术是一种优化企业用水系统、以提高水的重复利用率为目标的过程集成技术。
Water-using network design for single contaminant was addressed by water pinch technology. The construction step of grid diagram and the network evolution method were introduced.
本文介绍了应用水夹点技术进行单杂质用水网络设计的过程,尤其是格子图的构造和网络调优。
The heat exchanger network of a medium ammonia plant has been analyzed by means of pinch technology, and some waste of energy use in the present heat exchanger network has been found.
运用夹点技术分析了某化工厂中型合成氨装置的换热网络,发现现有换热网络中有较多能量利用不合理的地方。
On these bases, the processes of the optimal design unit were simulated and calculated with PRO-II. Pinch Technology in this test method optimize the accuracy of heat exchanger network.
在此基础上,对新优化设计的航煤加氢装置流程进行了模拟,以此检验夹点技术方法对优化航煤加氢装置换热网络的准确性。
Pinch technology is established on the concept of hydrogen sinks and hydrogen sources. Using the data of sinks and sources, hydrogen composite curves and hydrogen surplus curve are plotted.
首先区分了氢源和氢阱的概念,然后通过氢源氢阱复合曲线和氢气剩余曲线在合成网络之前以图形的方式指出了最小氢气使用量。
Using water-pinch technology for wastewater minimization, a distributed effluent-treatment system segregates the different streams for separate treatments and only combines them if it is appropriate.
应用废水最小化的水夹点分析技术,分布式废水处理系统将不同废水流股分别进行处理,仅在合适时才将废水组合在一起处理。
This is where Rolls-Royce has melded its technology with service to make it more difficult for competitors to pinch its business.
这就是劳斯莱斯为什么将技术和服务整合在一起的原因,这样使得竞争对手更难抢它的生意。
Secondly, pinch valve technology allows the City to regulate the amount of flow diverted.
其次,夹管阀技术使得这个城市能够调节分流的流量。
Process integration technology based on water pinch theory has been proposed.
提出以水夹点理论为基础的过程集成技术。
Water cascade analysis(WCA) technology was used to synthesize water use for continuous process, determine water pinch and minimize fresh water and wastewater.
利用水级联分析法对连续过程的用水进行分析,确定过程的用水夹点和最小新鲜水用量,并使过程产生的废水最小。
Chapter 4 specifies the key technology analysis of task-level software debugging agent, including the pinch point of the task-level debugging technology and the solution.
第四章是任务级软件调试代理关键技术分析。内容包括实现任务级调试主要技术难点和解决方案。
Chapter 4 specifies the key technology analysis of task-level software debugging agent, including the pinch point of the task-level debugging technology and the solution.
第四章是任务级软件调试代理关键技术分析。内容包括实现任务级调试主要技术难点和解决方案。
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