| 1. | The toe energy dissipator research of zuojian hydroproject
左江水利枢纽坝趾消能研究 |
| 2. | A summary aboutthe direction to research the low fr current energy dissipator
水跃消能工的研究 |
| 3. | Experimental study on united energy dissipator with grid and stepped spillway
格栅与阶梯式溢流面联合消能工的试验研究 |
| 4. | Numerical simulation of energy dissipator with new style flaring gate pier and stepped spillway
新型宽尾墩和阶梯式溢流坝面一体化消能工数值模拟 |
| 5. | Design of flood - releasing energy dissipator and sediment - flushing structure for dachaoshan hydropower station
大朝山水电站泄洪消能及排沙建筑物设计 |
| 6. | A new energy dissipator - double curved differential dentated - extraordinary - shaped bucket was provided , and its effect of energy dissipation is good
提出了一种新型消能工?双曲差动异型鼻坎,该鼻坎有良好的消能效果。 |
| 7. | In this essay a kind of auxiliary energy dissipator arplying to underflow energy dissipation of low froude number is developed . it mainly applies to the small - sized projects , especially to the canal system structures
本文研究了一种适用于低佛氏数底流消能的辅助消能工? ?拱形网板(简称拱网) ,它特别适合于小型工程尤其是渠系建筑物。 |
| 8. | At last , based on the research results of energy dissipator and structure with energy dissipation at home and abroad , combined with the chinese code for seismic design of building , the seismic design principle and methods for structure with energy dissipator are studied
最后,根据国内外耗能器和耗能减震结构的研究成果,结合我国的建筑结构抗震设计规范,探讨了耗能减震结构的设计原则和方法。 |
| 9. | The experimental tests are made on the right - angle dissipator with square cross - section , a new internal energy dissipator . in order to obtain its hydraulic characteristic , lda is used to measure the detailed velocity . the pressure along the wall boundary is also measured
2为深入研究直弯式消能工的水力特性,本文进行了方管的直角拐弯的试验研究,采用二维激光流速仪测得了详细的流场,并测量了壁面压力分布情况。 |
| 10. | The researches including discharge capacity , pressare properties , cavitation characteristics at some key positions , hoisting load of the gate , configuration of energy dissipator at the exit dentated - sill , and downstream scouring were performed by hydraulic model tests
借助系列水工模型试验对水布垭放空洞的泄流能力、压力特性及关键部位的空化特性、闸门启闭力、出口鼻坎消能工体型及下游冲刷等进行了较深入的研究、分析。 |
