排序方式: 共有15条查询结果,搜索用时 78 毫秒
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设计了适用于高速铁路联调联试中视频调用时延的测试系统,应用于视频监控系统、安防系统和VOD系统等含有视频播放功能的调用时延.测试系统采用Windows Hook技术、统计直方图算法和数字图像处理技术,实现对视频调用窗口锁定,快速图像抓取、比较时延的准确计算.在联调联试过程中,可以将每一个测点的综合测试时间,由原来的超过120min缩短到15min以内.目前此系统已在20多条高速铁路的综合视频联调联试中应用,验证了系统的可行性和准确性. 相似文献
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常嫦 《科技情报开发与经济》2011,(24):227-228
详细介绍了25MN冲孔水压机电气控制系统的结构组成与工作流程,阐述了其电气调试的难点以及应用经验。 相似文献
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张娜 《科技情报开发与经济》2012,22(4):133-135
列举了发电厂厂用系统电气调试过程中出现的典型案例,分析了造成零序过流问题、PC段控制电源问题等的原因,指出阀门调试的一些注意事项。 相似文献
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The Shanghai Synchrotron Radiation Facility (SSRF) is an intermediate energy, third generation light source located in Zhangjiang High-Tech Park, Shanghai. In December 2007, an electron beam was first stored and accumulated in the SSRF storage ring. Since then the accelerator commissioning and beam line installation had steadily progressed toward routine user operation in May 2009. This article presents an overview of the SSRF design, construction, commissioning and current status of its user operation. 相似文献
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葡萄花油层按照现有的液固耦合模型未能形成油田压降漏斗合理范围及控制技术。以室内实验测定了岩石弹塑性形变与油、水单相渗透率及相渗曲线的关系,确定油井投产初期低于地层压力的井底压力在合理范围内,地层与井筒之间形成一个比较平缓的压降漏斗,可以减少压实沉降和颗粒运移对渗透率造成的损失。待注水收效后恢复到合理流压下生产,从而提高采收率。 相似文献
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火灾报警与自动灭火系统的调试 总被引:2,自引:0,他引:2
门中奇 《科技情报开发与经济》2009,19(8)
着重介绍了火灾报警与自动灭火系统调试的主要内容,包括线路测试、火灾报警与自动灭火设备的单体功能试验、系统的接地测试和整个系统的开通调试, 相似文献
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CO_2管道是碳捕集、利用及封存(carbon capture, utilization and storage, CCUS)技术中连接CO_2排放地和封存地或注入地的关键环节,CO_2管道投产置换主要是利用N_2惰性且高吸水性的特点完成管道清洗干燥并为随后管道调试做好准备。目前关于CO_2管道投产置换的研究较为缺乏,通过SPS软件研究了延长石油某CO_2管道在不同输送介质组成、封存压力条件下的投产置换过程,并与天然气管道的投产置换过程进行对比,比较分析了CO_2与天然气投产置换过程所需N_2量、时间和升压所需气量的不同。结果表明:在压力升至CO_2临界点附近时,CO_2密度会发生突变大幅上升,且升高单位压力所需气量减少,并在升压结束时CO_2消耗量小于天然气消耗量。管内介质组成变化对N_2置换的影响不大,CO_2在管道内更易发生相变,不宜在置换完成之后直接升压投产。 相似文献
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TianXiang Zhang Jian Wang Tao Wu GuangJun Chen YongQing Di Wu FaQuan Ru 《科学通报(英文版)》2011,56(23):2411-2415
The process of a power reactor spent fuel reprocessing pilot plant (hereinafter referred to as the "pilot plant") had been completed through active commissioning. Operational and technological parameters, such as shearing, dissolution, feed clarification, co-decontamination cycle, uranium and plutonium purification cycle, and the uranium and plutonium finishing facility, were identified. In addition, technical devices including extraction and mechanical equipment, electrical installation as well as instrumentation, and auxiliary systems for safety and adaptability were also verified. The commissioning results indicated that the recovery rate and decontamination coefficients of each system satisfied the designed index requirements and the qualified productions, i.e. uranium trioxide and plutonium dioxide, were produced. Monitored values at various monitoring points in the radiological protection system were within the control range and the discharge of waste water and waste gas complied with the relevant standards. This shows that independent and innovative technology for power reactor spent fuel reprocessing had been developed by our country. 相似文献