排序方式: 共有242条查询结果,搜索用时 15 毫秒
61.
62.
63.
Following the basic theory of protecting gas-reservoirs from damage with the temporary bridging technology, inert calcium carbonate (CaCO3) particles, whose diameter is consistent with the size of pores or apertures in the reservoir, were selected as the bridging agent, and modified resolvable starch was selected as filtration loss reducing particles to form the non-clay low damage temporary bridging drilling/completion fluids system (NLTDFS). Under the simulated condition of the well bottom during real drilling, NLTDFS was used to conduct dynamic and static damage experiments of cores for 48 hours, respectively, and then the experimented cores were permeated with pure nitrogen from the undamaged end to the damaged one to measure their recovery of permeability. The results showed that the permeability recovery rate of the core reached 90% or so, and the damaged depth was less than 1 cm, which demonstrates that NL TDFS has higher temporary bridging effectiveness and lower damage to the gas-reservoir than other drilling fluids system. NLTDFS has been used to drill many horizontal wells, and four of them have obtained high yield of natural gas. The yield of natural gas of LPl well reached 85 X 104 m3/day after completion with the rump pipe. The formation of the stable well wall and smooth drilling led to an API loss less than 4 mL and an HTHP loss less than 15 mL. 相似文献
64.
石油化工企业存在高温、高压、易燃易爆等危险因素,而在企业生产过程中,对各类设备设施的检维修工作、工程建设过程等,都涉及到临时用电作业,如切割、焊接、打磨等等。在石油化工工况下的临时用电作业,如果用电设备、安全措施稍有疏漏,都可能引发人身伤亡(触电)、着火爆炸事故。如何做好施工现场的临时用电管理,解决实施过程中存在的薄弱环节,杜绝临时用电作业引发各类事故,保证人身和设备安全是企业临时用电管理的核心和根本出发点。 相似文献
65.
66.
以长联大跨桥梁施工期间临时栈桥钢管桩基础为研究对象,利用空间有限元程序ANSYS,分析了钢管桩在洪水期深水状态下的流固耦合效应,比较了洪水期水流对结构振动特性的影响,并通过谐响应分析模块计算了可能引起结构共振的频率范围,最后提出了相关构造措施,实现了对紊流与桥梁临时结构的振动控制,保证了洪水期桥梁临时结构的安全性。 相似文献
67.
先简支后结构连续梁桥施工顺序分析 总被引:2,自引:0,他引:2
后浇结构层与梁端湿接头浇筑先后顺序以及二次负弯矩预应力筋张拉先后顺序是先简支后结构连续体系桥梁施工的关键工序.通过实例计算分析后浇结构层与梁端湿接头浇筑的先后顺序;同时,利用实例建立有限元模型分析二次负弯矩预应力张拉的先后顺序.通过对比分析,对预应力砼先简支后结构连续梁桥的受力、施工进行初步的探讨,以期更好的为工程服务. 相似文献
68.
69.
结合和平大桥工程实例,开展了施工单位拟定的拱架加载程序变形与应力计算。针对加载程序中拱架出现的"W"型变形和应力不均匀等问题,提出了有支架施工加载程序优化的一般原则和在加载过程中拱顶临时压重的方法,在此基础上对原有拱架加载程序进行了优化。分析结果表明,优化后的加载程序使拱架变形和应力趋于合理,达到了加载程序优化设计的目的。 相似文献
70.
《铁道标准设计通讯》2020,(1)
我国高铁常用跨度梁使用量巨大,但既有的铁路抢修钢梁行车限制速度低,已无法适应高速铁路运行的需要。京张高铁官厅水库特大桥32 m简支钢-混结合梁以打造京张智慧高铁为契机,采用高铁应急抢修梁方案,同时通过设置梁侧牛腿和横向限位装置,达到了协调主、引桥横向变形的目的。针对应急抢修简支钢-混结合梁的结构构造、节段组装、主要计算结果、结合梁安装等内容进行详尽介绍,并对其技术特点进行总结。该桥的建成为高铁应急抢修梁的设计与应用积累了一定的经验,并为今后进一步深化高铁应急抢修梁的研究、开展高铁应急抢修梁相关标准设计工作奠定了基础。 相似文献