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大管间距下地板辐射采暖的传热特性研究 被引量:1
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作者 郭思宇 刘凯 刘艳华 《建筑热能通风空调》 2013年第1期15-19,共5页
我国现行规范规定:低温地板辐射供暖加热管最大铺设间距不宜超过300mm。但是,随着建筑外保温等技术的进步,按目前规范要求完成的设计,在运行中常出现房间过热现象。房间过热不仅使地板采暖的舒适性降低,而且也浪费了能源。本文研究了大... 我国现行规范规定:低温地板辐射供暖加热管最大铺设间距不宜超过300mm。但是,随着建筑外保温等技术的进步,按目前规范要求完成的设计,在运行中常出现房间过热现象。房间过热不仅使地板采暖的舒适性降低,而且也浪费了能源。本文研究了大管间距下地板辐射采暖的传热特性,以期通过合理增大埋管间距减少过热现象,降低系统投资,减少运行能耗。研究结果表明:多数情况下大管间距能够满足房间负荷要求。室内设计温度低于等于20℃、供回水平均温度大于等于45℃且地面不能覆盖类似毛毯等热阻较大的材料时可安全采用大管间距铺设。 展开更多
关键词 大管间距地板辐射采暖传热特性
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家用地板的选择 被引量:1
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作者 毕克新 闫超 +2 位作者 宋希元 王厚军 高大宏 《林业机械与木工设备》 2010年第7期52-54,共3页
介绍了地板的分类、特点、选择、安装及注意事项,为消费者家装提供参考。
关键词 地板分类 地板特性 选择方法
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辐射供冷地板表面温度简化计算新方法 被引量:3
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作者 李清清 陈超 +2 位作者 张叶 蔺洁 凌浩恕 《太阳能学报》 EI CAS CSCD 北大核心 2015年第2期496-501,共6页
基于目前关于地板结构层热工性能的二维数值计算方法和解析计算方法的结果对比分析,采用当量热阻法提出相应的修正计算式,由此形成一种可适应于供冷工况地板结构层热工设计的半解析简化计算新方法。利用该方法,可快捷地评价所设计的地... 基于目前关于地板结构层热工性能的二维数值计算方法和解析计算方法的结果对比分析,采用当量热阻法提出相应的修正计算式,由此形成一种可适应于供冷工况地板结构层热工设计的半解析简化计算新方法。利用该方法,可快捷地评价所设计的地板结构层地板表面温度的分布以及供水温度与速度、埋管间距、地板饰面层材料、地板构造特性等因素对地板结构层传热性能的影响,为地板辐射供冷系统热工性能的优化设计提供新的思路和方法。 展开更多
关键词 地板辐射系统 供冷工况 地板传热特性 热工设计计算 简化方法
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Experimental investigation on heat transfer characteristics of a new radiant floor system with phase change material 被引量:1
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作者 夏燚 张小松 《Journal of Southeast University(English Edition)》 EI CAS 2015年第4期496-500,共5页
In order to improve the heat transfer characteristics of the traditional phase change material(PCM) floor, a new double-layer radiant floor system with PCM is proposed, which can store thermal or cold energy in the ... In order to improve the heat transfer characteristics of the traditional phase change material(PCM) floor, a new double-layer radiant floor system with PCM is proposed, which can store thermal or cold energy in the off-peak period and use them in the peak period. An experimental setup was developed to study the heat transfer characteristics of the new system under both cooling and heating modes. The experimental results show that the double-layer radiant floor system with PCM can meet both the cold and thermal requirements of users. Moreover, with the same duration of the thermal energy storage process, the increase of water temperature supplied to the system can improve the heat transfer characteristics of the system but lead to the discomfort of users. On the other hand, if the air temperature at the end of the thermal energy storage process is the same under different conditions, the increase of supplied water temperature will decrease the thermal energy storage time and ensure the comfort of users. 展开更多
关键词 ENERGY-SAVING radiant floor phase changematerial DOUBLE-LAYER heat transfer characteristics
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Technology of back stoping from level floors in gateway and pillar mining areas of extra-thick seams 被引量:2
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作者 Tu Hongsheng Tu Shihao +2 位作者 Zhang Xiaogang Li Zhaoxin Jia Shuai 《International Journal of Mining Science and Technology》 SCIE EI 2014年第2期143-149,共7页
According to the special requirements of secondary mining of resources in gateway-and-pillar goal in extra-thick seams of Shanxi, this paper presents a technical proposal of back stoping from level floors. Numerical s... According to the special requirements of secondary mining of resources in gateway-and-pillar goal in extra-thick seams of Shanxi, this paper presents a technical proposal of back stoping from level floors. Numerical simulation and theoretical analysis are ccsed to investigate the compaction characteristics of cavities under stress as well as an appropriate mining height of the primary-mining layer based on dif- ferent mining widths and pillar widths. For Yangjian coal mine, the mining thickness of the first seam during back stoping from level floor is determined to be 3 m, which meets the relevant requirements. Gateway-and-pillar goaf of a single layer has a range of influence of 9 m vertically. If gateway-and-pillar goaf occurs both in 9-1 and 9-5 layers, the range is extended to within 11.2 m. When the mining width of a gateway is less than 2 m or larger than 5 m, the gateway-and-pillar goal in the upper layer of the primary-mining seam can be filled in and compacted after stoping. When the working face is 2 m away from the gateway and pillar before entering into it and after passing through it, the coal body under the gateway and pillar is subjected to relatively high stress. During mining of the upper layer, moreover, the working face should interlock the goaf in primary-mining layer for 20 m. 展开更多
关键词 Gateway-and-pillar goaf Back stoping from level floor Secondary mining Numerical simulation Stress evolution
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Experimental investigation into stress-relief characteristics with upward large height and upward mining under hard thick roof 被引量:21
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作者 Ke Yang Xiang He +3 位作者 Litong Dou Wenjun Liu Li Sun Haisong Ye 《International Journal of Coal Science & Technology》 EI 2015年第1期91-96,共6页
According to geological conditions of No. 3 and No. 4 coal seams (namely A3 and B4) of the Pan'er coal mine and the parameters of panels 11223, 11224, and 11124 with fully-mechanical coal mining, we built 2D simila... According to geological conditions of No. 3 and No. 4 coal seams (namely A3 and B4) of the Pan'er coal mine and the parameters of panels 11223, 11224, and 11124 with fully-mechanical coal mining, we built 2D similar material simulation and FLAC3D numerical simulation models to investigate the development of mining-induced stress and the extraction effect of pressure-relief gas with large height and upward mining. Based on a comprehensive analysis of experimental data and observations, we obtained the deformation and breakage characteristics of strata overlying the coal seam, the development patterns of the mining-induced stress and fracture, and the size of the stress-relief area. The stress-relief effect was investigated and analyzed in consideration with mining height and three thick hard strata. Because of the group of three hard thick strata located in the main roof and the residual stress of mined panel 11124, the deformation, breakage, mining-induced stress and fracture development, and the stress-relief coefficient were discontinuous and asymmetrical. The breakage angle of the overlying strata, and the compressive and expansive zones of coal deformation were mainly controlled by the number, thickness, and strength of the hard stratum. Compared with the value of breakage angle derived by the traditional empirical method, the experimental value was lower than the traditional results by 3°-4°below the hard thick strata group, and by 13°-19° above the hard thick strata group. The amount of gas extracted from floor drainage roadway of B4 over 17 months was variable and the amount of gas per month differed considerably, being much smaller when panel 11223 influenced the area of the three hard thick strata. Generally, the stress-relief zone of No. 4 coal seam was small under the influence of the hard thick strata located in the main roof, which played an important role in delaying the breakage time and increasing the breakage space. In this study we gained understanding of the stress-relief mechanism influenced by the hard thick roof. The research results and engineering practice show that the main roof of the multiple hard thick strata is a critical factor in the design of panel layout and roadways for integrated coal exploitation and gas extraction, provides a theoretical basis for safe and high-efficient mining of coal resources. 展开更多
关键词 Integrated coal exploitation and gas extraction Large mining height Stress-relief effect Hard thick strata Mining-induced stress
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