海底串列不等直径双管线水动力特性的数值研究

应用有限体积法，结合标准湍流模型，对海底串列不等直径双管线的二维不可压缩流动进行了数值模拟。设置了小管在大管的上游和小管在大管的下游这两种工况，研究Re=20000时，串列双管在不同间距比（G／D=0．4～3）时的绕流流场、升力系数、阻力系数及＆数的变化趋势。计算结果表明：当小管位于大管上游时，大管阻力小于单根大管时的阻力，两管问距越小，差值越大，且存在一临界间距，使两管的涡脱落模式从单体模式转变为相互作用模式；当小管位于大管下游时，小间距时小管的阻力呈负值，且两管间距越小负阻力越大，两管涡脱落模式始终呈现单体模式。

周口南水北调配套工程双管线定向钻穿越沙河设计

本文以河南省南水北调周口供水配套工程输水管线穿越沙河为例,介绍了在地质条件复杂、管道设计流量大、不能开挖施工的情况下,采用双管线定向钻穿越沙河设计有效的解决了问题,提出定向钻作为一种非开挖技术具有广泛推广应用的价值,为今后的定向钻穿越工程提供借鉴。

某双管同沟敷设管线阴极保护系统干扰防护数值模拟研究

为明确同沟敷设管道阴极保护系统相互干扰规律及干扰防护措施,以新疆油田某双管同沟敷设管道(D219和D457)为模型,设置D219管道的涂层破损率为0.1%,D457管道的涂层破损率为0.1%、0.5%、1.0%,采用数值模拟方法对不同阴极保护设计及阴极保护干扰防护措施的有效性及适用性进行评估。结果表明:采用浅埋阳极单独阴极保护的同沟敷设管道存在阴极保护系统相互干扰,随着干扰管道D457防腐层破损率的增加,其对并行管道D219的干扰程度增强,施加均压线措施可有效降低干扰;采用浅埋阳极联合阴极保护+均压线措施可消除同沟敷设管道阴极保护系统的相互干扰,当双管同沟管道防腐层破损率相差较大(D2190.1%,D4571.0%)时,改善效果较为显著;对于采用深井阳极联合阴极保护的同沟敷设管道,当D457防腐层破损率较大(1.0%)、土壤电阻率较高(50Ω·m)时,其阴极保护效果较差,采用均压线+牺牲阳极措施对阴极保护效果的改善作用不明显,而增大深井阳极输出电流联合均压线措施可显著改善同沟敷设管道的阴极保护效果。

双椭流线型海底管线抵御滑坡冲击的减灾效果与降阻机制

近年来,随着海洋能源开发步伐的加快,海底管线铺设的数量不断增加,在服役期内这些管线是否稳定直接影响着海洋油气开采、作业人员生命财产及海洋生态环境的安全。针对海底管线易遭受滑坡破坏的现状,提出一种具有双椭流线型截面的海底管线,基于计算流体动力学(CFD)方法,分析了新型管线在滑坡冲击作用下的减灾效果与降阻机制。研究表明,对于平铺和悬浮式铺设形式,双椭流线型管线可以延缓边界层的分离,降低卡门涡街对管线的振动影响,有效地降低滑移体冲击管线产生的拖曳力和升力,最大可使拖曳力系数降低71.01%,升力系数降低32.14%;并提出双椭流线型管线拖曳力系数和升力系数的计算公式,为海底管线的减灾工程提供了新的思路。

双隔离管线球阀腔体泄放压力的规定与分析

介绍了双隔离管线球阀腔体泄放压力在相关标准中的规定。提出了阀门泄放压力超过失火状态规定的额定压力许用值及存在的潜在危险。分析了双隔离管线球阀在非正常工况下压力边界可能失效的原因。

双管线柔性壁渗透仪用于水泥土渗透特性的测试

针对实验室常规土工渗透设备在水泥土渗透特性测试中存在的缺陷,提出了双管线柔性壁渗透仪测试水泥土渗透特性的新方法。该设备利用橡胶膜包裹试样,在周围水压力作用下实现试样的密封,水力系统构造了四根管线通往试样,达到促使试样饱和及快速、彻底消除气泡的目的。利用该设备对长江口某河口水库的水泥土芯样进行了4种水力梯度下渗透系数的测试,得到了渗流速度随水力梯度变化的规律,验证了水泥土的渗流流态为线性层流,服从Darcy定律。另外,通过该设备模拟现场情况可进行特定条件下的水泥土渗透特性的测试。

基于RELAP5程序的AP1000典型事故瞬态特性研究

基于最佳估算程序RELAP5/MOD3.3,对AP1000系统进行了详细的建模分析,选取冷却剂泵卡轴事故、蒸汽发生器(SG)传热管破裂事故和直接注射管线双端断裂事故作为典型事故,获得了典型事故工况下关键参数的瞬态特性和非能动系统响应特性。结果表明:对于冷却剂泵卡轴事故,一回路最大压力为16.82 MPa,燃料包壳表面温度最大值为1 299K,满足验收准则的要求;对于SG传热管破裂事故,破损SG的水体积为231.54m3,小于AP1000蒸汽发生器255.563m3的总容积;对于直接注射管线双端断裂事故,AP1000的非能动堆芯冷却系统能对一回路进行冷却和降压,并防止堆芯裸露和燃料包壳过热。

一体化多用途的非能动小型压水反应堆发生假定事故的初步分析

采用RELAP5/MOD3.2系统程序建立一体化小型反应堆的事故分析模型,包括反应堆冷却剂系统(RCS)、简化的二回路系统和专设安全设施。一体化多用途的非能动小型压水反应堆(SIMPLE)热功率为660 MWt(电功率大于200 MWe)。针对SIMPLE的直接安注管线(DVI)双端断裂事故和DVI2英寸(50.8mm)小破口失水事故(SBLOCA)进行分析。计算结果表明:对于直接安注管线双端断裂事故,破口和自动降压系统(ADS)能有效地使反应堆冷却系统降压,安注箱(ACC)和安全壳内置换料水箱(IRWST)能实现堆芯补水,确保堆芯冷却;对于DVI的SBLOCA,非能动专设安全设施能有效对RCS进行冷却和降压,防止堆芯过热。

Demolition technique of high thin-wall hyperbolic reinforced concrete cool tower by directional controlled blasting

Based on blasting demolition of high thin-wall hyperbolic reinforced concrete cool tower, by virtue of engineering practice of blasting the tube concrete structures, the analysis and research were made on the mechanism of cool tower collapse through selecting blasting parameters and selecting gap form, gap size and gap angle. The cool tower was twisted, collapsed directionally and broken well according to the design requirements. The expected results and purposes of blasting were obtained with no back blow, total blasted pile approximates to 4 - 5 m, no occurrence of flying stones and no damage to fixed buildings and equipment, the large-sized hyperbolic thin-wall reinforced concrete cool towers are twisted during blasting and it collapses well with good breaking. The test and measurement of blasting vibrating velocity was carried out during blasting and the measuring results are much less than critical values specified by Safety Regulations for Blasting. The study shows that gap form, gap size and gap angle are the key factors to cool tower collapse and will give beneficial references to related theoretical study and field application.

Impact of TID on response to pulsed X-ray irradiation in the bipolar operational amplifier

Groups of a typical operational amplifier-μA741 were irradiated in a cobalt unit, each group accumulating a different total ionizing dose （TID）. The results showed that the TID caused power consumption current and slew rate （SR） to degenerate in ultra-linearity, owing to a severe reduction in the current gain of the internal LPNP transistors. Pulsed X-ray irradiation experiments were carried out on the μA741 groups with different values, and the results revealed that the impact on the response to the pulsed X-ray irradiation was greater when the devices absorbed more TID. The mechanism for this is explained on the basis of the circuit construction of the μA741; the sensitive parameters of the circuit were obtained via simulation on SP1CE. The simulation results additionally showed that if the sensitive parameters were optimized, the duration of interruption caused by the pulsed X-ray irradiation would be reduced significantly. In addition, several proposals are provided for hardening the devices.