共查询到17条相似文献,搜索用时 125 毫秒
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稠油热采注汽管道采用的保温材料种类很多,但保温效果均不理想,热损失大,平均热效率只有93.77%。因此,保温材料的选择是提高保温热效率的关键问题之一,本文介绍了新型防水珍珠岩制品在稠油热采注汽管道上的应用,它并指出其管道保温热效率可达95.42%,对稠油热采注汽系统的节能具有一定的推广价值。 相似文献
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重点介绍高温蒸汽管道直埋敷设方法,并结合具体工程及示例,给出了满足工程需要的直埋敷设管道的复合保温结构及保温材料特性. 相似文献
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重点介绍高温蒸汽管道埋敷设方法,并结合具体工程及示例,给出了满足工程需要的直埋敷设管道的复合保温结构及保温材料特性。 相似文献
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在蒸汽管道施工中,一般采用地面敷设,但在市区地面敷设的蒸汽管道影响周围环境.将地面敷设蒸汽管道改为直埋蒸汽管道,可以节省空间,改善周围环境,提高热效率.文中介绍了直埋蒸汽管道的特点,以及保温结构、保温层厚度、伸缩节参数的确定.文中还介绍了蒸汽管道排潮、凝结水回收等. 相似文献
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为防治季冻区隧道中频繁出现的冻害问题,提出一种新型离壁式波纹钢板保温套衬,该套衬具有施工简便、防水性能可靠、防止混凝土掉块、提高聚氨酯使用寿命等优势,采用数值仿真对季冻区施作离壁式波纹钢板保温套衬隧道的温度场及其保温效果进行研究。结果表明:季冻区隧道施作新型离壁式波纹钢板保温套衬后,阻隔了寒冷空气对衬砌结构的影响,围岩正温区范围增大,隧道冻结线由距衬砌0.48 m围岩处前移至保温套衬,有效防止了季冻区隧道冻害的发生;季冻区隧道贴壁式聚氨酯保温层的保温效果为89.90%~96.43%,新型离壁式波纹钢板保温套衬的保温效果为101.94%~107.14%,离壁式波纹钢板保温套衬的保温效果要优于贴壁式聚氨酯保温层。 相似文献
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钢管三层PE防腐技术兼容泡沫夹克保温管成型生产工艺 总被引:1,自引:0,他引:1
主要讨论使用钢管三层PE防腐生产线兼容泡沫夹克保温管成型技术.该生产线是一条可以完成三层PE防腐和泡沫夹克保温管生产的多功能生产线,可生产三层PE、FBE、三层PP和泡沫夹克等多种结构防腐保温管,并使产品最终满足相关标准的要求. 相似文献
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Hot weather events, ventilation assets, changing passenger demand and service expectations have all caused increased attention on thermal comfort on London’s Tube. This study provides estimates of the future number of days when passengers travelling on sections of the Tube could be subjected to thermal discomfort under future scenarios of climate change, and the potential number of passengers dissatisfied. A risk based methodology is presented, integrating a spatial weather generator modified for urban areas and a thermal comfort model. The study provides an initial assessment of adaptation options by considering the implications of lowering train temperatures by 2 °C and 4 °C to represent saloon cooling. Median results under a 2050 high scenario indicate that all Tube lines assessed could experience near-complete passenger dissatisfaction with the thermal environment in trains in the unlikely event that nothing else were to change. Adaptation aimed at lowering train temperatures has the potential to provide tangible improvements in thermal comfort. However, this was not projected to be sufficient to maintain comfortable thermal conditions for many of the lines in the 2050s under high emission scenarios, requiring a combination of other infrastructure cooling measures to be implemented in parallel. 相似文献