This paper introduced the pinch analysis principle briefly.
简要地对窄点原理进行了介绍。
Pinch analysis was applied to diagnosis and optimization of energy utilization of process systems based on the principles of thermodynamics and system engineering.
把热力学与系统工程的方法相结合,进一步将“夹点分析”应用于化工过程系统的用能诊断及调优。
The paper proposes the method that combines mathematical programming and pinch analysis to design water utilization network and wastewater treatment network simultaneously.
本文提出了夹点分析与数学规划相结合的方法求解多杂质、多单元水分配网络。
Lately finding out existent differences and putting forward improving measures according to the result of above pinch analysis and the actual situation of set using energy now.
最终根据上述夹点分析的结果和目前装置用能的实际情况,找出存在的差距、提出改进的措施。
Based on pinch analysis method and exergy principle, a new approach is developed to optimize the heat-pump integration between low-temperature distillation column and refrigeration system.
本文复合夹点分析方法和分析原理,建立了低温蒸馏塔与冷冻系统热泵流程集成的优化方法。
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。
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。
A linear analysis of the ideal magnetohydrodynamic (MHD) stability of the Z-pinch is presented in which plasma flows are included in the equilibrium.
本文利用理想磁流体力学(MHD)模型对含有轴向流动的Z箍缩等离子体不稳定性进行了分析。
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。
The pinch point technique is used for energy analysis in heat exchange of mass flow in a Kamyr continuous digester, as a result the design is improved and energy saving in cooking is realized.
介绍了夹点技术的原理、夹点的确定及其在工程使用中应遵循的原则,并针对某造纸厂的卡米尔连续蒸煮器的物流换热,用夹点技术进行了能量分析,取得了更好的设计,达到较好的节能效果。
Pressure transient analysis results may not only be used for the obtaining of reservoir parameters such as formation pressure, but also for the detecting of faults distance or lithological pinch-out.
利用不稳定试井资料不但可求取地层压力等油藏参数,还可应用于探测断层距离或岩性尖灭等。
Pressure transient analysis results may not only be used for the obtaining of reservoir parameters such as formation pressure, but also for the detecting of faults distance or lithological pinch-out.
利用不稳定试井资料不但可求取地层压力等油藏参数,还可应用于探测断层距离或岩性尖灭等。
应用推荐