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Experimental Study on Convective Heat Transfer in Tube-Side of Water Jacket-Tube Heat Exchanger by Electrohydrodynamics Effect 被引量:2
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作者 YANG Xia ZHANG Jie WU Yanyang ZHANG Tao MAO Zhihui 《Wuhan University Journal of Natural Sciences》 CAS 2011年第1期49-54,共6页
The electrohydrodynamics (EHD) enhancement of convection heat transfer of water in a jacket tube heat exchanger was studied through an experimental method in this paper. In the experiment,a DC high voltage electrode... The electrohydrodynamics (EHD) enhancement of convection heat transfer of water in a jacket tube heat exchanger was studied through an experimental method in this paper. In the experiment,a DC high voltage electrode was set in the central tube-side of the heat exchanger,and the high voltage electrode in the tube-side was adjustable in the range of 0-40 kV. Five differ-ent combinations of heat transfer enhancement experiments were conducted under the different voltage and rate of flow. The results indicate that the maximal enhancement coefficient θ is 1.224 when the flow rate of tube-side inlet is 0.1 m3/h. It is proved that,for the work medium of water,the convective heat transfer can be enhanced by applying high electric field. The performance of EHD-enhanced is sensitive to the variation of flow rate,and in the same flow rate,there exist an optimized voltage in the EHD-enhanced process ra-ther than the monotonic positive-correlation relationship. 展开更多
关键词 electrohydrodynamics (EHD) heat transfer enhance-ment water jacket-tube heat exchanger convection heat transfer
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A comparative study of the land-atmosphere energy and water exchanges over the Tibetan Plateau and the Yangtze River Region
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作者 Nan Yao Yaoming Ma +3 位作者 Binbin Wang Jun Zou Jianning Sun Zhipeng Xie 《Atmospheric and Oceanic Science Letters》 CSCD 2024年第2期52-59,共8页
正确认识不同区域能量和水分循环特征是研究局地地气相互作用及准确预测区域天气,气候变化的关键.为了研究属于干旱/半干旱气候的青藏高原(TP)和湿润/半湿润气候的长江流域(YRR)之间地表能量和水分交换的异同,本文对比分析了两个区域8... 正确认识不同区域能量和水分循环特征是研究局地地气相互作用及准确预测区域天气,气候变化的关键.为了研究属于干旱/半干旱气候的青藏高原(TP)和湿润/半湿润气候的长江流域(YRR)之间地表能量和水分交换的异同,本文对比分析了两个区域8个不同地表类型(包括高山荒漠,高山草地,(平原)城市和(平原)草地等)观测站点的地表辐射和能量通量数据.结果显示:(1)TP由于高原大气层稀薄且空气洁净,年平均入射短波辐射为251.3W m^(-2),是YRR的1.7倍.加之高原地表反照率高导致反射辐射(59.6 W m^(-2))是YRR的2.87倍.入射及出射的长波辐射为231.5和338.0 W m^(-2),分别为YRR的0.64和0.83.而两个区域的净辐射差异不大;(2)草地站更多的潜热释放使得地表总加热效率高于城市和高山荒漠,TP和YRR的草地站的年平均潜热分别为35.0和38.8 W m^(-2),而植被稀疏且土壤干燥的高山荒漠地区感热最大,年平均感热为42.1 W m^(-2);其次是城市下垫面,其年平均感热为37.7 W m^(-2).研究结果揭示了不同气候背景下典型下垫面地气相互作用特征,为地气相互作用过程深入分析奠定了基础. 展开更多
关键词 能量和水分交换 辐射分量 地表能量通量 青藏高原 长江流域 不同地表类型
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Optimal design of heat exchanger header for coal gasification in supercritical water through CFD simulations 被引量:1
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作者 Lei Huang Lin Qi +2 位作者 Hongna Wang Jinli Zhang Xiaoqiang Jia 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2017年第8期1101-1108,共8页
Heat exchangers play an important role in supercritical water coal gasification systems for heating feed and cooling products. However, serious deposition and plugging problems always exist in heat exchangers. CFD mod... Heat exchangers play an important role in supercritical water coal gasification systems for heating feed and cooling products. However, serious deposition and plugging problems always exist in heat exchangers. CFD modeling was used to simulate the transport characteristics of solid particles in supercdtical water through the shell and tube of heat exchangers to alleviate the problems. In this paper, we discuss seven types of exchangers CA, B, C D, E, F and G), which vary in inlet nozzle configuration, header height, inlet pipe diameter and tube pass distribution. In the modeling, the possibility of deposition in the header was evaluated by accumulated mass of particles; we used the velocity contour of supercritical water (SCW) to evaluate the uniformity of the velocity dis- tribution among the tube passes. Simulation results indicated that the optimum heat exchanger had structure F, which had a rectangular configuration of tube pass distractions, a bottom inlet, a 200-mm header height and a 10-ram inlet pipe diameter. 展开更多
关键词 Supercritical water Shell and tube heat exchanger Particle conveying Pneumatic transport CFD simulations CFX
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Potential reduction in water consumption of greenhouse evaporative coolers in arid areas via earth-tube heat exchangers
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作者 Abdulrahim M AL-ISMAILI Moustafa A FADEL +3 位作者 Hemantha JAYASURIYA L H Janitha JEEWANTHA Adel AL-MAHDOURI Talal AL-SHUKEILI 《Journal of Arid Land》 SCIE CSCD 2021年第4期388-396,共9页
This study aimed to explore the potential of developing a novel cooling system combining a greenhouse and an earth-tube heat exchanger(ETHE).In this system,greenhouse air is circulated through the underneath soil mass... This study aimed to explore the potential of developing a novel cooling system combining a greenhouse and an earth-tube heat exchanger(ETHE).In this system,greenhouse air is circulated through the underneath soil mass to use the deep-soil cooling effect.This was achieved through the following steps.First,soil temperature profile inside and outside the cultivated greenhouse was monitored for almost one year to study the possibility of using deep-soil coldness for cooling the greenhouse air.Second,a prototype ETHE was built to practically investigate the potential reduction in air temperature as the air flows inside the deep earth pipes.Third,a prototype greenhouse was erected to study the ETHE concept.Results from the first experiment revealed that soil temperature at a soil depth of 2.5 m inside the greenhouse offers good conditions to bury the ETHE.The soil temperature at this soil depth was below the maximum temperature(32℃)that most greenhouse crops can withstand.Results from the prototype ETHE showed a slight reduction in air temperature as it passed through the pipes.From the prototype of the integrated greenhouse and ETHE system,reduction in air temperature was observed as the air passed through the ETHE pipes.At night,the air was heated up across the ETHE pipes,indicating that the ETHE was working as a heater.We concluded from this study that greenhouses in arid climates can be cooled using the ETHE concept which would save a large amount of water that would otherwise be consumed in the evaporative coolers.Further investigations are highly encouraged. 展开更多
关键词 earth-tube heat exchanger GREENHOUSE fan-pad cooling system water saving arid areas
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Modelling plant canopy effects on water-heat exchange in the freezingthawing processes of active layer on the Qinghai-Tibet Plateau 被引量:2
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作者 GUO Lin-mao CHANG Juan +1 位作者 XU Hong-liang SUN Wen-jun 《Journal of Mountain Science》 SCIE CSCD 2021年第6期1564-1579,共16页
The effect of vegetation on the water-heat exchange in the freezing-thawing processes of active layer is one of the key issues in the study of land surface processes and in predicting the response of alpine ecosystems... The effect of vegetation on the water-heat exchange in the freezing-thawing processes of active layer is one of the key issues in the study of land surface processes and in predicting the response of alpine ecosystems to climate change in permafrost regions. In this study, we used the simultaneous heat and water model to investigate the effects of plant canopy on surface and subsurface hydrothermal dynamics in the Fenghuoshan area of the QinghaiTibet Plateau by changing the leaf area index(LAI) and keeping other variables constant. Results showed that the sensible heat, latent heat and net radiation are increased with an increase in the LAI. However, the ground heat flux decreased with an increasing LAI. The annual total evapotranspiration and vegetation transpiration ranged from-16% to 9% and-100% to 15%, respectively, in response to extremes of doubled and zero LAI, respectively. There was a negative feedback between vegetation and the volumetric unfrozen water content at 0.2 m through changing evapotranspiration. The simulation results of soil temperature and moisture suggest that better vegetation conditions are conducive to maintaining the thermal stability of the underlying permafrost, and the advanced initial thawing time and increasing thawing rate of soil ice with the increase in the LAI may have a great influence on the timing and magnitude of supra-permafrost groundwater. This study quantifies the impact of vegetation change on surface and subsurface hydrothermal processes and provides a basic understanding for evaluating the impact of vegetation degradation on the water-heat exchange in permafrost regions under climate change. 展开更多
关键词 PERMAFROST Simultaneous heat and water model Leaf area index water-heat exchange Thermal-moisture dynamics
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Improved Efficiency of Heat Exchange Using KELEA Activated Water 被引量:4
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作者 W. John Martin 《Open Journal of Energy Efficiency》 2015年第2期36-43,共8页
An environmental force termed KELEA (kinetic energy limiting electrostatic attraction) is postulated to reduce the strength of intermolecular (hydrogen) bonding of water molecules, resulting in increased kinetic activ... An environmental force termed KELEA (kinetic energy limiting electrostatic attraction) is postulated to reduce the strength of intermolecular (hydrogen) bonding of water molecules, resulting in increased kinetic activity of the water. While regular water does not directly absorb KELEA from the environment, various dipolar compounds with separated electrical charges can seemingly act as a primary antenna for KELEA, with secondary transfer of energy into nearby water. Moreover, once sufficiently activated, the separated electrical charges in activated water can apparently function as a receiver for KELEA, leading to further activation of the water and also to the activation of added water. Prior publications have addressed the agricultural and potential clinical benefits of using KELEA activated water. This article is intended as the first in a series of papers describing useful industrial applications of KELEA activated water. The focus of the present paper is on the improved efficiency of industrial water heating and cooling systems by using KELEA activated water provided by pelleted, ground and heated volcanic rock as supplied by Kiko Technology. 展开更多
关键词 KELEA Kinetic Energy LIMITING Electrostatic ATTRACTION Kiko Technology heat exchange VOLCANIC Rock REFRIGERATION water Cooling TOWER
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On the heat budget and water mass exchange in the Andaman Sea 被引量:1
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作者 Jiawen Liao Shiqiu Peng Xixi Wen 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2020年第7期32-41,共10页
The characteristics of the T/S structures,water mass exchange and deep circulation in the Andaman Sea are investigated based on the simulation from a high-resolution general circulation model(MITgcm).The results show ... The characteristics of the T/S structures,water mass exchange and deep circulation in the Andaman Sea are investigated based on the simulation from a high-resolution general circulation model(MITgcm).The results show that,below 1000 m,the water mass is saltier,warmer and more homogeneous in the Andaman Sea than that in the Bay of Bengal,attributing to the strong vertical mixing at the depth of^1800 m.The water mass exchange between the Andaman Sea and the Bay of Bengal goes through three major channels,which manifests itself as follows:the northern channel(Preparis Channel)is the main passage of water mass transport from the Bay of Bengal to the Andaman Sea,whereas the Middle Channel(the south of Andaman Islands and the north of Nicobar Islands)has an opposite transport;the southern channel(Great Channel)features with a four-layer water exchange which results in the least net transport among the three channels;all the transports through the three channels have an intra-annual variation with a period of half a year.At 1000-m depth,the entire Andaman Sea is occupied by a cyclonic circulation in January and July while by an anticyclonic one in April and October.The semiannual cycle found in both the deep circulation and water mass exchange is likely associated with the downwelling eastward-propagating Kelvin waves induced by the semiannual westerly component in the equatorial Indian Ocean during intermonsoon seasons. 展开更多
关键词 Andaman Sea heat budget water mass exchange deep water circulation
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Surface treatment to improve corrosion resistance of Al plate heat exchangers 被引量:1
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作者 Jong-Soon KIM Tae-Ho KANG In-Kwan KIM 《中国有色金属学会会刊:英文版》 CSCD 2009年第B09期28-31,共4页
The correlations between thermal and physical properties were studied through thermal conductivity measurements, hardness tests, salt spray tests (AASS) among the surface treatment samples named K20, K40 with thicknes... The correlations between thermal and physical properties were studied through thermal conductivity measurements, hardness tests, salt spray tests (AASS) among the surface treatment samples named K20, K40 with thickness of 20, 40 μm respectively and raw sample named K00. In thermal conductivity measurements, there are little differences among the samples as K00, K20 and K40, they exhibit 153.39, 150.69 and 149.76 W/(m·K), respectively. According to hardness tests, K00, K20 and K40 exhibit 87.9, 259.7 and 344.8 in Vickers values. In the result of salt spray tests to examine the effects on corrosion resistance, K00, K20 and K40 exhibit the grade of 3?5, 2.0?9.8 and 10, respectively. The mutual relation of the above results was analyzed. It is found that the surface treatments do not affect the thermal conductivity of aluminum and result in the improvement of physical properties. As a result of the technology, the surface improvement of aluminum alloy specimen is achieved without thermal degradation. It validates the ability of the aluminum plate heat exchangers with surface treatment to enhance the corrosion resistance. Present work is performed as the first fundamental threshold in the process of aluminum plate heat exchangers development to check out its possibility, therefore the next step-experimental and numerical study of practical aluminum plate heat exchangers will be made. 展开更多
关键词 板式换热器 表面处理 耐铝性 物理性能 导热系数 硬度测试 盐雾试验 耐腐蚀性
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Net water vapour exchange over a mixed needle and broad-leaved forest in Changbai Mountain during autumn 被引量:2
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作者 HANShijie WENXuefa +3 位作者 YUGuirui SUNXiaomin LIQingkang RENChuanyou 《Journal of Geographical Sciences》 SCIE CSCD 2003年第4期463-468,共6页
Water vapour and CO2 fluxes were measured by the eddy-covariance technique above a mixed needle and broad-leaved forest with affiliated meteorological measurements in Changbai Mountain as part of China's FLUX proj... Water vapour and CO2 fluxes were measured by the eddy-covariance technique above a mixed needle and broad-leaved forest with affiliated meteorological measurements in Changbai Mountain as part of China's FLUX projects since late August in 2002. Net water vapour exchange and environmental control over the forest were examined from September 1 to October 31 in 2002. To quantify the seasonal dynamics, the transition period was separated into leafed, leaf falling and leafless stages according to the development of leaf area. The results showed that (a) seasonal variation of water vapour exchange was mainly controlled by net radiation (Rn) which could account for 78.5%, 63.4% and 56.6% for leafed, leaf falling and leafless stages, respectively, while other environmental factors' effects varied evidently; (b) magnitude of water vapour flux decreased remarkably during autumn and daily mean of water vapour exchange was 24.2 mg m-2 s-1 (100%), 14.8 mg m-2 s-1 (61.2%) and 10.3 mg m-2 s-1 (42.6%) for leafed, leaf falling and leafless stage, respectively; and (c) the budget of water vapour exchange during autumn was estimated to be 87.1 kg H2O m-2, with a mean of 1427.2 g H2O d-1' varying markedly from 3104.0 to 227.5 g H2O m-2d-1. 展开更多
关键词 EDDY-COVARIANCE net water vapour exchange latent heat flux
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Development of Heat Transfer Coefficient and Friction Factor Correlations for Serrated Fins in Water Medium using CFD
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作者 K V Ramana Murthy C Ranganayakulu T P Ashok Babu 《Journal of Physical Science and Application》 2015年第3期238-248,共11页
Abstract: The most popularly used fin types in compact heat exchangers are the serrated fins, wavy fins, louvered fins and plain fins. Amongst these fin types the serrated fins assume lot of importance due to its enh... Abstract: The most popularly used fin types in compact heat exchangers are the serrated fins, wavy fins, louvered fins and plain fins. Amongst these fin types the serrated fins assume lot of importance due to its enhanced thermo-hydraulic performance. Thermo-hydraulic design of CHEs (Compact heat exchangers) is strongly dependent upon the predicted/measured dimensionless performance (Colburnj factor and Fanning friction vs. Reynolds number) of heat transfer surfaces. This paper describes the numerical analysis to study the heat transfer coefficient and friction factor of Serrated fins in water medium. CFD (Computational fluid dynamics) methodology has been used to develop the single phase water heat transfer coefficient and friction factor correlations for serrated fins using ANSYS Fluent 14.5. The results are compared with previous air-cooled models and experimental results of water. The water cooled CFD analysis results shows that the Prandtl number has a large effect on the Nusselt number of the serrated fin geometry. Finally, the generalized correlations are developed for serrated fins taking all geometrical parameters into account. This numerical estimation can reduce the number of tests/experiments to a minimum for similar applications. 展开更多
关键词 Compact heat exchanger serrated fins CFD (Computational fluid dynamics) analysis water medium thermo-hydraulicperformance colburnj factor friction factors
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不同进水方式对大型水体储热效率的影响
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作者 黄凯良 杨倩 +2 位作者 冯国会 谢幸丽 李艾浓 《沈阳建筑大学学报(自然科学版)》 CAS 北大核心 2024年第4期706-713,共8页
目的针对大型水体跨季节储热时间不匹配问题,分析不同进水方式对储热效率的影响,减少储热过程中的热量损失。方法利用CFD数值模拟软件建立水体储热的分析模型,研究水体储热过程中的热交换规律,以及单双进水口、水平间距、动态进水、流... 目的针对大型水体跨季节储热时间不匹配问题,分析不同进水方式对储热效率的影响,减少储热过程中的热量损失。方法利用CFD数值模拟软件建立水体储热的分析模型,研究水体储热过程中的热交换规律,以及单双进水口、水平间距、动态进水、流速等因素对水体储热效果的影响。结果进水总流量越小,内部水体温度分层越好;在相同的储热时间内,双进水口方式效率最佳,水体内部平均温度至少比单一进水和动态进水高出16.83%,储热效率分别提高了9.89%和16.14%;相比单一进水口,双进水口方式火用损失降低了21.97%;进水管之间距离越小,水体储热效率越高。结论进水方式对水体储热效率影响至关重要,进水管道越靠近中轴线,采用小流量、双开口的进水形式储热效率越好。 展开更多
关键词 跨季节储热 储热效率 [火用]损失 进水方式 温度分层 热交换
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水-冰相变凝固换热与热泵耦合供热系统实验研究
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作者 张昌建 马占辉 +1 位作者 罗景辉 李沛源 《暖通空调》 2024年第5期166-172,共7页
针对河北山区农村水源不足、地源钻井成本高、太阳能不稳定、造价高、没有合适的热泵低温热源等问题,研发了水-冰相变换热器;利用水的相变潜热作为热泵的低温热源,设计了水-冰相变凝固换热与热泵耦合供热系统,搭建了实验平台,经测试平... 针对河北山区农村水源不足、地源钻井成本高、太阳能不稳定、造价高、没有合适的热泵低温热源等问题,研发了水-冰相变换热器;利用水的相变潜热作为热泵的低温热源,设计了水-冰相变凝固换热与热泵耦合供热系统,搭建了实验平台,经测试平台运行稳定可靠。通过对实验数据进行分析计算,得到系统性能系数在2.87~3.42之间。研究结果可为解决河北山区农村供暖问题提供参考。 展开更多
关键词 供热 水-冰相变凝固换热 水-冰相变换热器 水源热泵 相变潜热 性能系数 农村供暖
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换热站并联水泵分布式优化控制
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作者 赵安军 席江涛 +1 位作者 荆竞 赵啸 《控制理论与应用》 EI CAS CSCD 北大核心 2024年第2期342-354,共13页
针对现有换热站并联水泵优化算法在集中式架构下控制适应性不足的问题,本文提出了一种改进的分布式并联水泵优化算法.首先,建立了并联水泵的分布式控制系统,并对该优化问题的数学模型进行描述,在目标函数中引入自适应非线性因子;然后,... 针对现有换热站并联水泵优化算法在集中式架构下控制适应性不足的问题,本文提出了一种改进的分布式并联水泵优化算法.首先,建立了并联水泵的分布式控制系统,并对该优化问题的数学模型进行描述,在目标函数中引入自适应非线性因子;然后,设计了改进的分布式果蝇优化算法,在该算法中每台水泵的控制器仅通过与邻居控制器交互信息即可完成并联水泵的优化;并且,在嗅觉搜索阶段,使用正弦余弦策略替代赋予个体距离与方向的随机策略;最后,以两个实际换热站中不同并联水泵系统为例对算法进行仿真验证,并基于仿真结果进行性能分析.结果表明,相较于传统算法,改进的分布式果蝇优化算法能得到更优的控制策略,有着收敛速度快、稳定性好和鲁棒性强的特点;并且该算法适用于不同系统的并联水泵优化问题,具有可扩展性.在实际工程验证中相较于集中式算法,该算法在总功率和计算时间上分别平均降低了5.47%和29.90%,因此,能够满足实际换热站中对并联水泵热负荷优化分配的需求. 展开更多
关键词 换热站 并联水泵 分布式控制系统 果蝇优化算法 负荷优化分配
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还原磁化焙烧竖炉冷却系统研究
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作者 刘长东 贾邵明 王泽明 《甘肃冶金》 2024年第2期12-14,共3页
某氧化铁矿石属于难选铁矿石,磁化焙烧工艺是处理此类铁矿石最有效的方法之一。竖炉磁化焙烧工艺加工成本相对较高,其中竖炉冷却系统是竖炉加工成本的重要组成部分,通过对竖炉冷却系统冷却水速、水箱梁水垢、水箱梁冷却水量等方面的研究... 某氧化铁矿石属于难选铁矿石,磁化焙烧工艺是处理此类铁矿石最有效的方法之一。竖炉磁化焙烧工艺加工成本相对较高,其中竖炉冷却系统是竖炉加工成本的重要组成部分,通过对竖炉冷却系统冷却水速、水箱梁水垢、水箱梁冷却水量等方面的研究,探索高效、节能的竖炉冷却系统. 展开更多
关键词 竖炉 热交换 冷却系统 磁化焙烧 水箱梁
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具有泡沫金属流场的燃料电池研究进展 被引量:1
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作者 艾贤魏 魏琳 +2 位作者 郭剑 车帅 蒋方明 《新能源进展》 CSCD 北大核心 2024年第1期24-34,共11页
泡沫金属是一种具有高孔隙率、高电导率、良好传热性和重量较轻等优点的新型多功能材料,在质子交换膜燃料电池(PEMFC)中嵌入泡沫金属作为流场的应用受到越来越多的关注。重点综述PEMFC流场的研究进展,探讨泡沫金属结构参数、流场设计和... 泡沫金属是一种具有高孔隙率、高电导率、良好传热性和重量较轻等优点的新型多功能材料,在质子交换膜燃料电池(PEMFC)中嵌入泡沫金属作为流场的应用受到越来越多的关注。重点综述PEMFC流场的研究进展,探讨泡沫金属结构参数、流场设计和环境因素等对功率密度、气体分布、压降和水热管理等性能的影响。进一步讨论泡沫金属流场在PEMFC应用中所面临的腐蚀和水淹问题,以及具备耐腐蚀涂层泡沫金属的研究进展,为PEMFC泡沫金属流场的发展和优化提供有益的启示,以期推进泡沫金属在PEMFC中的应用。 展开更多
关键词 泡沫金属 质子交换膜燃料电池 流场设计 腐蚀 水热管理
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装配式柔性墙体日光温室联合储热系统蓄放热特性
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作者 马蔷薇 李明 +3 位作者 王利春 胡娟秀 宋卫堂 魏晓明 《农业工程学报》 EI CAS CSCD 北大核心 2024年第15期183-193,共11页
增设多蓄热介质联合主动蓄放热系统是解决装配式柔性墙体日光温室“重保温、轻蓄热”问题的有效方法,但当前对于“土壤-空气-水”多介质联合储热系统蓄放热特性和加温效果尚不明确,针对此问题,该研究以配备“空气源地中热交换-水源后墙... 增设多蓄热介质联合主动蓄放热系统是解决装配式柔性墙体日光温室“重保温、轻蓄热”问题的有效方法,但当前对于“土壤-空气-水”多介质联合储热系统蓄放热特性和加温效果尚不明确,针对此问题,该研究以配备“空气源地中热交换-水源后墙循环换热”联合储热系统的装配式柔性墙体日光温室为研究对象,采用现场跟踪测试和能量转移测算,对联合储热系统各自和组合的蓄放热特性进行研究。结果表明,配有联合储热系统的装配式柔性墙体日光温室室内夜间最低空气温度维持在10℃以上,室内外最大温差达26.5℃。0~50 cm的土壤层是该温室主要蓄热介质,晴天土壤层蓄热量最高占总蓄热量的63.5%。地中热交换系统最高占土壤蓄热量的54.4%。水循环系统蓄热量可达424.04 MJ,最高占总蓄热量的45.1%,通过循环蓄热可将储水池内8 m3水的温度提高到35℃。连阴天时,通过引入蓄放热比指标,对联合储热系统的运行效果进行定量评价,发现水循环系统具有蓄放热速度快的特点,蓄放热比绝对值最高可达1.62,是当天土壤蓄放热的1.8倍。但从总量上看,土壤仍是连阴天主要放热来源,在北京地区联合蓄放热系统能够维持3个连阴天的热量需求。水循环系统平均性能系数(coefficient of performance,COP)为9.16,地中热交换系统平均COP为6.82,联合蓄放热系统综合COP为8.85,对比热泵,其节能率达60.26%。研究结果为联合储热系统蓄放热机理研究提供了理论依据。 展开更多
关键词 日光温室 墙体 传热 联合储热 蓄放热特性 水循环 地中换热
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多沙河流水库排沙期下游水温演变规律
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作者 杨晨 张廷奎 +4 位作者 卢一帆 缴健 江恩慧 张防修 张晓雷 《水科学进展》 EI CAS CSCD 北大核心 2024年第5期843-852,共10页
多沙河流水库排沙期会有大量低温水伴随着泥沙向下游排放,改变了下游河道水温的前期分布状态,对水生生物及其栖息环境产生潜在影响。为探究水库排沙期下游水温的演变规律,本文修正了含沙水流与空气热交换系数的计算公式,构建了一维非恒... 多沙河流水库排沙期会有大量低温水伴随着泥沙向下游排放,改变了下游河道水温的前期分布状态,对水生生物及其栖息环境产生潜在影响。为探究水库排沙期下游水温的演变规律,本文修正了含沙水流与空气热交换系数的计算公式,构建了一维非恒定水-沙-温耦合传导数学模型,以小浪底水库为例开展了排沙期下游水温传导过程的模拟与分析。结果表明:①出库水温是影响水库排沙期下游水温的主要因素,下泄流量的增加和出库含沙量的降低会加剧低温水下泄的影响程度;②下游水温对小浪底出库水温的敏感度沿程递减,出库水温变化时利津断面水温的平均变化幅度仅为花园口断面的27.5%;③下游水温对下泄流量和出库含沙量的敏感度均为沿程先增大后减小,前者在艾山断面达到最大,后者在夹河滩断面达到最大;④下泄流量和出库含沙量对下游水温影响程度相当,在小浪底水库现行排沙调度方案下,二者对下游水温的最大影响幅度都在2℃左右。 展开更多
关键词 水温演变 多沙河流 排沙期 水库调度 热交换
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各向异性膨胀石墨双极板对燃料电池性能的影响
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作者 丁玉杰 甘全全 +3 位作者 邵扬斌 徐梁飞 李建秋 欧阳明高 《汽车安全与节能学报》 CAS CSCD 北大核心 2024年第4期526-535,共10页
该文分析了膨胀石墨双极板(EGBPs)各向异性结构对燃料电池水热管理与输出性能的影响。建立了三维两相非等温数值模型,对比了4种典型复合材料结构下温度、电流密度、水含量等参数的分布特征,揭示了双极板传热特性与输出性能的耦合效应。... 该文分析了膨胀石墨双极板(EGBPs)各向异性结构对燃料电池水热管理与输出性能的影响。建立了三维两相非等温数值模型,对比了4种典型复合材料结构下温度、电流密度、水含量等参数的分布特征,揭示了双极板传热特性与输出性能的耦合效应。结果表明:沿质子传递方向热导率(k_z)对燃料电池性能具有显著影响,在2.2 A cm^(-2)电流密度下,将k_z从常规结构的5 W·m^(-1)·K^(-1)提升至280 W·m^(-1)·K^(-1),可以使输出性能提高22 m V;沿流道气体流动方向的热导率(k_y)是影响散热能力的关键因素,将k_y与k_z提高至280 W·m^(-1)·K^(-1),或者实现各向同性结构(k_x=k_y=k_z=20 W·m^(-1)·K^(-1)),均能够使膜电极组件(MEA)核心区域的温度降低2℃左右。因此,提高k_y与k_z并实现各向同性结构是膨胀石墨双极板技术的未来发展目标之一。 展开更多
关键词 质子交换膜燃料电池(PEMFC) 膨胀石墨双极板(EGBPs) 各向异性导热 水热管理 散热能力
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土壤源热泵地埋管侧水系统优化运行研究
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作者 陈鹏旭 许波 +1 位作者 陈振乾 陈翔燕 《制冷学报》 CAS CSCD 北大核心 2024年第1期110-117,共8页
本文基于江苏无锡某典型厂房土壤源热泵空调项目的实测数据,以地源侧系统总能耗最低为目标,构建设备模型对地源水泵运行工况进行优化,并与两种传统控制策略的运行效果进行对比,据此提出进一步的优化建议。结果表明:基于负荷的优化控制策... 本文基于江苏无锡某典型厂房土壤源热泵空调项目的实测数据,以地源侧系统总能耗最低为目标,构建设备模型对地源水泵运行工况进行优化,并与两种传统控制策略的运行效果进行对比,据此提出进一步的优化建议。结果表明:基于负荷的优化控制策略,其节能效果要明显优于定频控制策略,冬夏季典型测试日平均节能率分别为28.33%和13.27%,相比于5℃温差变频策略节能了3.61%和2.21%。适当增大地埋管的埋管深度或管径,可以进一步提升该优化控制策略的节能效果。传统的定温差控制策略在负荷率大于60%时,可在5℃基础上将温差增加1~5℃以提升节能效果。 展开更多
关键词 土壤源热泵 地埋管换热器 变流量 供回水温差 节能率
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碳封存超临界CO_(2)螺旋管换热器传热规律
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作者 马亮 邓广哲 +3 位作者 王守印 蔚斐 高亮 袁超 《西安科技大学学报》 CAS 北大核心 2024年第3期467-477,共11页
在“双碳”目标背景下,探索CO_(2)高效地质封存和高能利用途径,是CO_(2)减排研究的热点问题。基于CO_(2)多相态变化特性以及能源利用方面表现出的安全环保及成本优势,提出一种新型碳封存超临界CO_(2)螺旋管换热器,并建立了数值仿真模型,... 在“双碳”目标背景下,探索CO_(2)高效地质封存和高能利用途径,是CO_(2)减排研究的热点问题。基于CO_(2)多相态变化特性以及能源利用方面表现出的安全环保及成本优势,提出一种新型碳封存超临界CO_(2)螺旋管换热器,并建立了数值仿真模型,以5℃条件下CO_(2)为对象,设计水作为载热流体的换热方案,研究了螺旋换热器在不同水温作用下对CO_(2)的温度、压力及其热应力耦合变化规律。结果表明:随着水热流体温度的增加,CO_(2)的升温速率与水温成正比,CO_(2)输出温度与水热流体温度呈正相关变化;与CO_(2)传热效率相比,受CO_(2)相变吸热影响导致水热流体传热效率较慢,水热流体传热与温度变化成正比;初始水温升高,CO_(2)相变速度明显增加,流量对CO_(2)相变吸热影响较大,水热流体的体积流量与CO_(2)温度变化呈负相关;受CO_(2)升温吸热影响,水热流体的耗散温度与CO_(2)吸热温度成正比;当管径和入口压力恒定情况下,100℃的水热流体与CO_(2)进行换热可以较好地满足CO_(2)相变吸热的要求。试验验证了水热流体螺旋管换热器的有效性和便捷性,研究为超临界CO_(2)螺旋式换热器的设计提供了依据。 展开更多
关键词 超临界CO_(2) 螺旋管换热器 水热交换 传热 数值模拟
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