共查询到20条相似文献,搜索用时 203 毫秒
1.
2.
3.
4.
5.
6.
7.
基于线热源理论的垂直U型埋管换热器传热模型的研究 总被引:15,自引:0,他引:15
基于经典常热流线热源理论,通过引入叠加原理、阶跃负荷及孔洞热阻思想将其发展为能够适用于变热流埋管换热与地源热泵系统模拟的变热流线热源模型,并与改进的经实验与理论验证的圆柱源理论模型进行了比较与分析。结果表明:所发展的变热流线热源模型能够有效地模拟地下埋管的换热过程,可作为地下垂直U埋管换热过程的计算模型,为地源热泵地下埋管换热器的设计计算及地源热泵系统的模拟提供了一种新的简单而又实用的计算方法。 相似文献
8.
9.
10.
竖直埋管周围土壤温度场数值模拟研究 总被引:1,自引:0,他引:1
建立了应用于地源热泵系统的竖直埋管的传热数学模型,并采用ANSYS软件模拟了埋深为23 m的竖直埋管在夏季运行工况下周围土壤的温度场变化,为竖直埋管换热器的埋设提供了参考。 相似文献
11.
M. Haghshenas Fard M. Nasr Esfahany M.R. Talaie 《International Communications in Heat and Mass Transfer》2010
Laminar convective heat transfer of nanofluids in a circular tube under constant wall temperature condition is studied numerically using a CFD1 approach. Single-phase and two-phase models have been used for prediction of temperature, flow field, and calculation of heat transfer coefficient. Effects of some important parameters such as nanoparticle sources, nanoparticle volume fraction and nanofluid Peclet number on heat transfer rate have been investigated. The results of CFD simulation based on two-phase model were used for comparison with single-phase model, theoretical models and experimental data. Results have shown that heat transfer coefficient clearly increases with an increase in particle concentration. Also the heat transfer enhancement increases with Peclet number. Two-phase model shows better agreement with experimental measurements. For Cu/Water nanofluid with 0.2% concentration, the average relative error between experimental data and CFD results based on single-phase model was 16% while for two-phase model was 8%. Based on the results of the simulation it was concluded that the two-phase approach gives better predictions for heat transfer rate compared to the single-phase model. 相似文献
12.
13.
14.
珠状凝结与膜状凝结相比是一种高效的、有相变的换热方式,得到了广泛关注。介绍了关于珠状凝结换热在实验和理论模型方面的研究状况,并进行了对比。并且考虑了接触角、促进层以及裸露表面强制对流换热的影响,建立了新的计算珠状凝结换热特性的模型,新模型可以计算不同工况下的不同换热结果。将新模型的计算结果与实验数据进行对比,发现二者较为吻合。为进一步研究珠状凝结换热提供了一定的理论依据。 相似文献
15.
A two-region simulation model of vertical U-tube ground heat exchanger and its experimental verification 总被引:2,自引:0,他引:2
Heat transfer around vertical ground heat exchanger (GHE) is a common problem for the design and simulation of ground coupled heat pump (GCHP). In this paper, an updated two-region vertical U-tube GHE analytical model, which is fit for system dynamic simulation of GCHP, is proposed and developed. It divides the heat transfer region of GHE into two parts at the boundary of borehole wall, and the two regions are coupled by the temperature of borehole wall. Both steady and transient heat transfer method are used to analyze the heat transfer process inside and outside borehole, respectively. The transient borehole wall temperature is calculated for the soil region outside borehole by use of a variable heat flux cylindrical source model. As for the region inside borehole, considering the variation of fluid temperature along the borehole length and the heat interference between two adjacent legs of U-tube, a quasi-three dimensional steady-state heat transfer analytical model for the borehole is developed based on the element energy conservation. The implement process of the model used in the dynamic simulation of GCHPs is illuminated in detail and the application calculation example for it is also presented. The experimental validation on the model is performed in a solar-geothermal multifunctional heat pump experiment system with two vertical boreholes and each with a 30 m vertical 1 1/4 in nominal diameter HDPE single U-tube GHE, the results indicate that the calculated fluid outlet temperatures of GHE by the model are agreed well with the corresponding test data and the guess relative error is less than 6%. 相似文献
16.
17.
A distributed model of an air-source heat pump (ASHP) system and its experimental setup using an immersed water condenser were presented. Dynamic performance of the ASHP was then evaluated by both simulation and experiment. The results indicated that the system coefficient of performance (COP) decreased as the condenser temperature increased, ranging from 4.41 to 2.32 with the average COP equaling 3.29 during the experiment. Comparisons between simulation results and experimental measurements demonstrated that the model was able to yield satisfactory predictions. Furthermore, temperature profiles of the refrigerant in the evaporator and condenser were also given. This paper provides the theoretical and experimental background for ASHP system optimization and a valuable reference for a solar air-source heat pump water heater when the solar irradiation energy is insufficient on cloudy or rainy days. 相似文献
18.
为了深入研究逆流形式下废液与非饱和空气热湿传递过程中传热驱动力与传质驱动力之间的关系,建立了逆流形式下废水和非饱和空气的热质交换耦合模型,利用数学方法对该模型的热湿传递驱动力进行解耦分析。将利用根据文献中逆流除湿/再生搭建的实验装置和本文搭建的废液再生实验装置得到的实验数据进行比较、验证。结果发现:相互耦合的温度差驱动力Δt和含湿量差驱动力Δω可以由相互独立的焓差驱动力Δh和相对湿度差驱动力Δφ表示,这两个相互独立的驱动力可以用来独立表征废液和非饱和空气的传热传质过程;相关文献中的和该装置中的实验结果与解耦分析的数值模拟结果一致:非饱和空气出口的所有参数在相互独立的驱动力所界定的范围内变化。 相似文献
19.
选取矩形截面平直翅片板翅式换热器的矩形单通道运用fluent软件进行数值模拟。首先对不同波高和波距的三组九种几何尺寸的翅片在同一工况下进行数值模拟,选出每组中传热和阻力综合性能最优者。然后对选出的三种翅片在不同工况下进行数值模拟,最终选出一种传热和阻力综合性能最优的。并对实物换热器进行试验研究,同时将试验结果和数值模拟结果进行对比分析,验证了数值模拟的正确性。 相似文献
20.
通过求解三维定常雷诺平均的N-S方程,对NexGen燃烧器的出口流场进行数值模拟。首先,利用冷态流场的实验数据验证燃烧器几何模型和数值计算方法的有效性。然后,在计算中分别选取火焰面模型、混合分数PDF模型和涡耗散模型3种燃烧模型,比较燃烧模型对燃烧器出口流场模拟结果的影响。研究结果表明:燃烧模型对Nex Gen燃烧器出口的速度场、火焰形状和热流密度分布基本没有影响,但是对火焰长度、火焰最高温度、最高热流密度及校准面上温度分布和温度值有较大影响。相比火焰面模型和涡耗散模型,混合分数PDF模型的计算结果与实验结果吻合较好,可以为防火试验方案设计提供参考。 相似文献