Modeling free-flow speed according to different water depths—From the viewpoint of dynamic hydraulic pressure

In this paper, we propose a method of modeling free flow speed from the viewpoint of hydroplaning. First, the lift forces for different water depths were estimated using Bernoulli’s equation. Compared with the result of the experimental test performed by the Japan Automobile Research Institute, the hydrodynamic pressure coefficient was determined to be 0.03 (tf s²/m⁴). The validation of the predicted lift force is found in another published paper. A very good match is found between the computed values by the proposed numerical model and the data in other published papers. Then, the loss of contact force is considered to evaluate the hydroplaning performance of a tire. To simulate the hydroplaning speed, a tire-sliding model was utilized to obtain the traction and friction forces between the road surface and the tire. The observation data obtained in Japan in 2009 is compared with the physically computed hydroplaning speed, yielding the conclusion that the traction force at the measured desired speed is, on average, 23.4% of the traction force at hydroplaning speed. The analytical model offers a useful tool to quantitatively show that the free flow speed changes as the water depth increase.     

城市地下道路分(合)流匝道通风阻力特性

为分析多点进出结构的城市地下道路空气流动特性,以长沙市营盘路湘江隧道为原型,通过现场实测、缩尺模型试验以及CFD软件数值模拟方法,对分(合)匝道通风阻力特性进行了研究,考察了雷诺数、风量比、分岔角度对分(合)流匝道阻力特性的影响规律。研究结果表明:1)主隧道与匝道风量比、主隧道与匝道夹角是影响分(合)流匝道局部阻力系数的关键因素;2)城市地下道路分(合)流匝道局部阻力变化特性,不宜简单套用通风管道的三通构件的参数;3)结合最小二乘法和Matlab软件对计算结果进行多因素回归分析,给出了基于长沙营盘路湘江隧道的分(合)流匝道主隧道和匝道的局部阻力系数关联式。研究结果可为复杂结构城市地下道路通风系统阻力特性分析及通风工程优化设计提供方法参考。     

大断面异形盾构隧道弯矩传递系数原型加载试验研究

由于异形盾构隧道特殊的结构断面型式,管片设计暂无相关规范可循,故基于原型三环管片力学加载试验对异形盾构管片环向接头弯矩传递系数进行研究,研究结果表明:1)随埋深增加,异形盾构管片结构整体刚度提升,但由于各接头刚度与相邻管片结构刚度比随埋深增加变化规律不一致,异形盾构管片接头弯矩传递能力呈部分减弱部分增强的现象;2)同埋深条件下,随着侧压力系数的增加,除右拱腰处接头外,其余接头弯矩传递能力随着接头刚度与相邻管片结构刚度比的增大而逐渐增强;3)随着埋深增加,各接头弯矩传递能力对侧压力系数的敏感程度逐渐减弱;4)极限破坏后,异形盾构管片内外弧面裂缝的分布规律证明了明显的弯矩传递现象。     

侧压力系数与非同步开挖对分离式隧道影响研究

使用有限元方法进行了一系列的计算分析,探讨不同侧压力系数对分离式隧道左、右洞不同步开挖时两洞间的影响程度,并通过现场动态监控量测来验证数值模拟的正确性。结果表明：侧压力系数越大相邻隧道的影响程度越大。     

隧道管棚超前支护施工技术

根据西直沟1#隧道实际工程特点,选取管棚超前支护技术。依据管棚支护的主要机理以及地形地质和荷载情况,采用扇形管棚布置。根据埋深较大时的简化泰沙基公式计算围岩最大压力,并选取管棚参数,对本隧道的施工提供了理论依据,为以后黄土隧道的施工积累了工程实际经验。     

无坎宽顶堰流量系数的计算及讨论

通过采用二元非线性回归分析方法对多个数学模型进行分析,结合实测资料,得到了水利工程中无坎宽顶堰流量系数的经验公式,克服了查表法中需要通过多步直线内插带来的不便,更适合在水力计算中应用。     

Flow Stress Model of Stainless Steel OCr13Ni5Mo at Elevated Temperature

For a more accurate forming calculation and numerical simulation of hydraulic turbine blade,experimental studies on the flow stress of stainless steel OCr13Ni5Mo were carried out upon Gleeble-1500 thermal simulator under different deformation conditions.The results then were analyzed and the effects of all influencing factors were summarized consequently.New mathematic models were conceived.Utilizing the software Matlab,regression coefficients were calculated by the least square method.The model has an eminent capability of curve-fitting performance with impact structure whose correlation coefficient is up to 0.908 0 and the cosine coefficient is 0.995 8.All mathematic models and process parameters can be used in engineering calculations or computer simulations.     

16V265H油机喷孔结构对内部流场的影响

针对16V265H柴油机喷油器,以三维CFD软件FIRE为平台,对喷孔内部空化流动进行了数值模拟.结果发现空化现象十分明显,特别是超空化流动在整个喷油过程中高达90%.另外,从空化分布、速度分布以及流量系数这三个角度分析了入口圆角半径、喷孔夹角以及喷孔长度等几何结构对喷孔内部流动情况的影响.     

大极差情况下载荷试验承载力取值计算

对于载荷试验的大极差,各种规范没有给出统一的规定,试验数据的处理比较随便,造成不经济或不安全。当极差大于30%平均值或最大值与最小值之比大于1.3时,承载力取值可采用离群值剔除法、变异系数折减法确定。案例计算分析表明,给出的计算公式合理、计算简单方便,可用于各种载荷试验确定承载力。     

柔性靠船桩簇结构受力计算

基于位移协调、力的平衡和能量守恒原理,通过在水平桩NL法计算中引入桩侧土抗力群桩折减系数,采用Lagrange插值多项式拟合护舷厂家的反力、吸能与变形的关系曲线,对柔性靠船桩簇中钢桩和护舷间水平力、能量分配进行计算分析;并将之应用在某码头的靠船桩簇设计中,取得了良好的成效。