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1.
The Thought Method of the "Hongfanjiuchou"--from the Angle of the "Category";
洪范九畴”的思维方式——从“范畴”的角度看
2.
The Nature and Years of Hong Fan Disclosed by “Yi Shu Wei Ji”;
由“以数为纪”看《洪范》的性质与年代
3.
Comparison of the Thought of Classic Learning of Zeng Gong with That of Wang An-shi from the "Hong Fan Zhuan";
从《洪范传》看曾巩和王安石经学思想的异同
4.
The Great Administrative Law of the Successive Dynasties of China;
中国历代王朝的行政大法——简析《尚书·洪范
5.
Influence to the Surrounding Springs Due to Exploitation of Hongfanchi Iron Deposit in Pingyin County
平阴县洪范池铁矿开采对附近泉水的影响
6.
A Comparison of Thinking Methods Between China and West --An Analysis to Hongfan in Shangshu and Categories in Organon;
中西思维方式的比较——对《尚书·洪范》和《工具论·范畴篇》的分析
7.
The Research of Eco-Agricultural System Analysis and Buiiding Models in Pingyin County Hongfanchi Town;
平阴县洪范池镇生态农业系统分析及建设模式研究
8.
Research of Flooding Attack and Prevention in Ad hoc Network;
移动Ad hoc网络洪泛攻击与防范的研究
9.
Defending P2P from flooding-based DDoS
基于P2P泛洪DDoS攻击的防范研究
10.
Flood protection and emergency treatment in Qiantangjiang Basin
钱塘江流域洪灾防范及应急处置研究
11.
Title: Implementing dam safety strategies to reduce spillway risk factors
落实大坝安全策略 防范溢洪道风险
12.
Research on Flood Risk Analysis and the Method of Flood Submerging Range Simulation based GIS for the City;
城市洪水风险分析及基于GIS的洪水淹没范围模拟方法研究
13.
Studies on Floodwater Irrigation and Water-saving Irrigation Matching Modes
塔干南缘示范区引洪与节水灌溉匹配措施研究
14.
Analysis of the Application of BP Neural Network on Forecast of the Range of Atomized Flow by Jet from Flip Bucket
BP神经网络预测挑流泄洪雾化范围的应用分析
15.
Assimilation of flood extent data into hydrodynamic model
洪水淹没范围数据与动力学模型的融合
16.
Flood Prevention and Emergency Management--A Case Study of the Qiantang River
流域性洪灾防范及应急处置——以钱塘江流域为例
17.
Within the scope of protection of flood control works, exploding, drilling wells, quarrying stones, collecting earth or other operations endangering the safety of flood control works are prohibited.
在防洪工程设施保护范围内,禁止进行爆破、井、石、土等危害防洪工程设施安全的活动。
18.
The energy dissipation rate is 40 to 70% higher than that of the skimming spillway.
在试验范围内,台阶式溢洪道与光滑溢洪道比较,消能率可以提高40% ~70%。