Operating Parameters of the District Heating Substation Cooperating With the Installation of Technological Air Conditioning With High Efficiency of Heat Recovery

The article analyses the problem of determining the operating parameters of the district heating substation cooperating with the air heating system in technological air conditioning systems equipped with heat exchangers with high efficiency of heat recovery.Attention was paid to the correct selection of heat exchangers for the heat output balance depending on the heat recovery protection algorithms against a drop in the temperature of the heat transfer surface below 0℃.Critical parameters were determined in Polish climatic conditions,at which the operation of the heat recovery exchanger in the air conditioning system is switched off or limited.It has been proven that the proper functioning of the district heating substation cooperating with the installation of air conditioning with high heat recovery efficiency requires the use of two heat exchangers with different characteristics,equipped with properly selected temperature control systems.The optimal model of cooperation between the technological air conditioning system and the heating substation was also indicated.

Modeling of the Earth’s Planetary Heat Balance with Electrical Circuit Analogy

The integral heat model for the system of the Earth’s surface—the atmosphere—the open space based on the electrical circuit analogy is presented. Mathematical models of the heat balance for this system are proposed. Heat circuit which is analog of the electrical circuit for investigating the temperature dependencies on the key parameters in the clear form is presented.

基于MSPA-CIRCUIT的长江中游城市群热环境网络识别与评价研究

快速城市化是热环境风险加剧的主因,从网络视角分析热环境的空间结构特征,对于改善热环境、增强城市可持续性以适应气候变化具有重要意义。以长江中游城市群为例,基于2000、2010及2020年地表温度数据与建成区面积数据分析城市群地表温度与热岛区域时空特征,采取形态学空间格局分析(MSPA)模型提取并划分热岛斑块类型,包括核心、孤岛、孔隙、边缘、环道、桥接以及支线,在此基础上构建热环境源地与热环境廊道,并利用电路(CIRCUIT)理论对城市群热环境网络进行识别。此外,依据多元指标分别评估城市群热环境网络的总体连通性(α指数、β指数与γ指数)与空间连通性(特征向量中心性与电流密度)。结果表明:(1)2000-2020年期间,长江中游城市群夏季地表温度高温区与次高温区比例整体呈上升趋势,常温区、低温区以及次低温区比例整体呈下降趋势,各类型热岛斑块的地表温度中位数呈现核心型热岛斑块最高而支线型热岛斑块最低的规律;(2)2000-2020年期间,长江中游城市群夏季热岛区域总面积由2.80×10^(3)km^(2)增至12.8×10^(3)km^(2),其中核心型热岛斑块面积占比由31.1%增加至45.9%,在空间上呈现逐渐向武汉、长沙以及南昌等地集聚的趋势;(3)2000-2020年期间,长江中游城市群热环境源地数量由56个增至215个,热环境廊道数量由89条增至378条,包含热环境廊道的城市比例由77.4%增至100%,已初步形成城市群全局热环境网络;(4)2000-2020年期间,长江中游城市群热环境网络的总体连通性呈逐渐增强态势,空间连通性的分布趋势由“南高北低”的空间异质性格局向“全局高连通性”的空间稳定性格局演变。该研究旨在为区域尺度的气候适应发展策略提供启示。

Influence of Nanoparticle Shapes of Boehmite Alumina on the Thermal Performance of a Straight Microchannel Printed Circuit Heat Exchanger

The efficiency and irreversibility defined based on the second law of thermodynamics provide a new path for heat exchangers design and make performance analysis more straightforward and elegant.The second law of thermodynamics is applied in a Straight Microchannel Printed Circuit heat exchanger to determine the thermal performance of different shapes of Boehmite Alumina compared to Al2O3 aluminum oxide.The various forms of non-spherical Boehmite Alumina are characterized dynamically and thermodynamically through dynamic viscosity and thermal conductivity,using empirical coefficients.The non-spherical shape includes platelet,cylindrical,blades,and bricks forms.Graphical results are presented for thermal efficiency,thermal irreversibility,heat transfer rate,and nanofluid exit temperature.The non-spherical shapes of Boehmite Alumina show different thermal characteristics concerning the spherical shape when there are variations in fluid flow rates and the nanoparticles fraction.Furthermore,it was theoretically demonstrated that non-spherical particles have higher heat transfer rates than spherical particles,emphasizing platelets and cylindrical shapes for the low volume fraction of nanoparticles and bricks and blades for high volume fraction.

Study on High-power LED Heat Dissipation Based on Printed Circuit Board

In order to study the role of printed circuit board(PCB)in high-power LED heat dissipation,a simple model of high-power LED lamp was designed.According to this lamp model,some thermal performances such as thermal resistances of four types of PCB and the changes of LED junction temperature were tested under three different working currents.The obtained results indicate that LED junction temperature can not be lowered significantly with the decreasing thermal resistance of PCB.However,PCB with low thermal resistance can be matched with smaller volume heat sink,so it is hopeful to reduce the size,weight and cost of LED lamp.

Numerical Study of Conjugate Heat Transfer for Cooling the Circuit Board

In this paper, a 3D model of a flat circuit board with a heat generating electronic chip mounted on it has been studied numerically. The conjugate heat transfer including the conduction in the chip and convection with the surrounding fluid has been investigated numerically. Computational fluid dynamics using the finite volume method has been used for modeling the conjugate heat transfer through the chip and the circuit board. Conjugate heat transfer has broad applications in engineering and industrial applications in design of cooling off electronic components. Effects of various inlet velocities have been studied on the heat transfer variation and temperature of the circuit board. Numerical results show that the temperature of the chip reduces as the velocity of the inlet fluid flow increases.

高温气冷堆热态功能试验中一回路加热动态特性研究

高温气冷堆反应堆压力容器堆内构件由石墨和碳化硼烧结陶瓷材料组成,热态功能试验过程中需对一回路堆内构件进行加热除湿。针对高温气冷堆一回路热试系统特点,采用COMSOL Multiphysics 5.4计算软件构建了压力容器、蒸汽发生器和主氦风机三维数值模型,并通过示范工程加热试验值验证了模型的可靠性,并获得了一回路加热过程中温度场动态特性。为了解决高温气冷堆示范工程一回路首次加热效率低的问题,提出了将辅助蒸汽通入到蒸汽发生器,并动态调整辅助蒸汽运行参数来加热一回路氦气的方法,结果表明:相较于主氦风机单独加热方式,外加辅助蒸汽热源可节省加热时间约31.3 h,同时可将堆芯最终平衡温度由250℃提高至265℃;在满足运行准则的前提下,更有利于碳砖和石墨堆内构件的除湿。该研究结果为高温气冷堆一回路热试提供了有力支持。

基于自产热和外传热的锂离子电池热学模型参数辨识方法

锂离子电池热学模型参数(热容和热阻)的准确辨识对电池热电耦合建模及状态参数估计至关重要。然而传统测量方法成本高且测试周期长,如何利用充放电工况结合产热和传热机理研究快速热参数辨识方法具有重要意义。以8A×h软包锂离子电池为研究对象,建立分布式热路模型;设计双向脉冲工况实验,采用自适应粒子群算法(APSO)进行辨识;同时采用其他工况进行验证,实验和仿真温度误差小于0.1℃。另外,将热容和热阻转换为比热容和导热系数,并与其他文献中同类电池的参数进行比对,量级接近。研究结果表明,该方法可以有效解决层叠式软包锂离子电池热学模型参数辨识难的问题,且简便易行、成本低。

套管式地埋管换热器节能特性的研究与应用

大庆油田进入开发后期存在着一定数量的废弃井,采用套管式地埋管换热器可以获取到废弃井的中深层的地热能。首先对废弃井转换为地热井的可行性进行分析,通过确定中深层地埋管换热方式,建立外入内出型传热计算模型并对废弃井结构改造。再具体分析大庆油田的地层土壤温度分布和确定边界条件,得出符合现实的理论计算公式。进一步分析套管式地埋管换热器取热评价指标与传热影响因素研究,得到流体流量和进口温度对传热影响因素,及循环流体进口温度对运行特性的影响对取热效率的影响规律。最后,通过对两种工况的废弃井现场试验,得到套管式地埋管换热器平均换热量为478.5 kWh。为利用大庆油田1700口废弃井的节能改造找到了一条切实可行的出路。

高温熔盐印刷电路板式换热器的热工水力特性研究

印刷电路板式换热器(Printed Circuit Heat Exchanger,PCHE)换热效率高,结构紧凑,可作为小型模块化熔盐堆热量传输的关键设备,对其流动换热特性的研究具有重要意义。采用数值模拟方法,以翼型通道的熔盐(FNaBe)-氦气换热器为研究对象,通过计算流体动力学(Computational Fluid Dynamics,CFD)数值模拟计算对其熔盐侧的传热特性和阻力特性进行对比分析,分别得到不同温度、翅片类型和不同节距结构下的熔盐(FNaBe)-氦气换热器的流动换热特性,并与传统直通道结构对比进行综合评估。研究结果表明,数值模拟的计算结果与实验结果对比符合较好,翼型翅片流道结构相较于直通道结构能够强化传热、降低阻力,其中节距为8 mm的NACA0025翼型翅片流道结构的流动传热特性最好。本研究建立的数值模拟方法能够用于印刷电路板式换热器的流动传热特性的预测,拟合出节距为8 mm的NACA0025翼型翅片结构的经验关联式,为后续换热器的设计提供理论基础。

基于多特征量的GIS触头温度预测方法

为防止因气体绝缘开关(gas insulated switchgear,GIS)触头温升造成的事故,有必要对GIS触头温度进行监测与预测。针对触头温度不易直接测量以及其温度易受运行工况与外界因素影响的问题,文中提出了一种基于多特征量的GIS触头温度预测方法。文中通过建立三维仿真模型,分析了在不同接触电阻值、负荷电流、环境温度、风速、SF 6压强、太阳辐射强度下GIS的温度分布规律,结合热路理论定性验证了仿真模型的可靠性。通过分析可知,GIS触头温度预测的关键因素为外壳温升、负荷电流、风速、SF 6压强、太阳辐射强度,而环境温度影响可忽略,采取反向传播(back propagation,BP)神经网络用以上多特征量预测触头温升,将得到的预测值与建模方法的计算结果进行对比,误差为-0.7~0.68℃。该预测方法综合考虑多种影响因素对GIS温度场的影响,为基于外置传感器的GIS触头温度预测提供参考。

微型电动汽车动力电池充电保温系统设计研究

为解决微型电动汽车在低温环境下充电困难的问题,提出了一种动力电池充电保温系统。通过对加热部件-加热膜、电路以及热管理系统控制策略3方面进行设计,实现了充电保温功能和充电保温等待功能,确保充电时保持动力电池温度在适宜范围内的效用。实验结果表明,该充电保温系统可有效实现温度的调节,保证充电的正常运转。

Micro segment analysis of supercritical methane thermal-hydraulic performance and pseudo-boiling in a PCHE straight channel

The printed circuit heat exchanger(PCHE) is receiving wide attention as a new kind of compact heat exchanger and is considered as a promising vaporizer in the LNG process. In this paper, a PCHE straight channel in the length of 500 mm is established, with a semicircular cross section in a diameter of 1.2 mm.Numerical simulation is employed to investigate the flow and heat transfer performance of supercritical methane in the channel. The pseudo-boiling theory is adopted and the liquid-like, two-phase-like, and vapor-like regimes are divided for supercritical methane to analyze the heat transfer and flow features.The results are presented in micro segment to show the local convective heat transfer coefficient and pressure drop. It shows that the convective heat transfer coefficient in segments along the channel has a significant peak feature near the pseudo-critical point and a heat transfer deterioration when the average fluid temperature in the segment is higher than the pseudo-critical point. The reason is explained with the generation of vapor-like film near the channel wall that the peak feature related to a nucleateboiling-like state and heat transfer deterioration related to a film-boiling-like state. The effects of parameters, including mass flow rate, pressure, and wall heat flux on flow and heat transfer were analyzed.In calculating of the averaged heat transfer coefficient of the whole channel, the traditional method shows significant deviation and the micro segment weighted average method is adopted. The pressure drop can mainly be affected by the mass flux and pressure and little affected by the wall heat flux. The peak of the convective heat transfer coefficient can only form at high mass flux, low wall heat flux, and near critical pressure, in which condition the nucleate-boiling-like state is easier to appear. Moreover,heat transfer deterioration will always appear, since the supercritical flow will finally develop into a filmboiling-like state. So heat transfer deterioration should be taken seriously in the design and safe operation of vaporizer PCHE. The study of this work clarified the local heat transfer and flow feature of supercritical methane in microchannel and contributed to the deep understanding of supercritical methane flow of the vaporization process in PCHE.

PCHE叶轮整流效果数值模拟研究

PCHE入口处有着成千上万的微型通道,流体进入通道时存在流量分配不均匀的问题,导致PCHE整体换热性能差,本文提出了一种叶轮型整流器来提高流量的均匀性分配。通过数值模拟的方法,以流体流量不均匀系数α和压降P_(l)作为性能指标进行了参数化对比,分析了整流器结构参数(中心圆环D、叶片的数量N和叶片螺距P)对入口封头内流场的影响。研究结果表明,叶轮对中心集中流量的破坏、诱导产生的多个涡流对流场均匀发展起到关键性作用,中心圆环直径越小,螺距越小时,叶轮的整流效果更好,四叶片叶轮由于其几何对称性,引导流体更均匀的分布在流道。

平流层飞艇载荷舱电子设备散热仿真分析

飞艇载荷舱电子设备的温度极大地影响了其工作可靠性,随着飞艇载荷舱应用途径的拓展,载荷总功率不断增长,设备设计功耗及热流密度显著提升,但平流层气体密度仅为地面的1/18,对流散热能力差,散热问题逐渐成为制约技术发展的关键问题。文章为了解决高载荷功率下的散热痛点,引入了两相流体回路散热方法,探究其与风扇强迫散热的散热能力,在分析载荷舱电子设备传热特性的基础上,基于计算流体力学,设计了风扇强迫对流散热系统,同时提出一种采用1,1,1,2-四氟乙烷(R134a)流体回路对平流层载荷舱电子设备散热的方法,并使用表观热容法对其进行仿真,计算了两种散热方式下飞艇载荷舱的温度场和流场,得到了两种方式的散热能力。仿真结果表明,风扇的散热极限工率约为591 W,两相流体回路方式散热可以解决700 W的散热需求,使用风扇散热可以满足基本散热需求;使用两相流体回路方式散热可以对平流层飞艇载荷舱电子设备进行有效热控,为平流层大功率电子设备散热的设计和计算提供思路。

电路参数对石墨加热元件发热特性的影响规律研究

电路参数是石墨加热元件发热性能的决定性因素,对电路参数的影响规律研究是高性能、高可靠性石墨加热器设计的基础。对石墨加热装置的失效过程进行研究,确定发热元件可靠性量化指标——温度均匀度;在此基础上,确定对加热元件热输出性能进行量化的四个电路参数:加热元件厚度、发热条宽度、发热条缝隙、缝隙处的倒圆半径;对发热电路进行参数化建模,并采用有限元电热耦合仿真对加热元件电路参数对加热能力和可靠性的影响机理进行研究。结果表明:加热元件的厚度决定了其热输出能力,而其余三个电路参数决定了加热元件的可靠性。本文的研究成果对高性能石墨加热装置的研制具有重要的支撑作用。

印刷电路板换热器内翅片布置方式的场协同分析与讨论

为了研究超临界CO_(2)的传热性能并提高其换热性能,通过采用超临界CO_(2)作为传热流体,以翼型翅片为例,使用数值模拟的方法探究印刷电路板换热器内的不连续翅片通道,分析几种翅片布置方式的传热和阻力性能,得出翅片的最佳布置方式。同时通过场协同理论,即通过分析温度场、压力场和速度场之间的协同性对模拟结果进行分析与讨论。结果表明,当交错距离为4 mm时,其传热性能与阻力性能均为最优,拥有最小的温度场与速度场协同角和最大的压力场与速度场协同角,表明这种布置方式可以使温度场与速度场的协同性和压力场与速度场的协同性均为最优,且它们之间的协同性均随着入口质量流量的增大而变差。

超临界CO_(2)板式扩散焊矩形微通道换热器扰流格栅结构优化研究

为提升超临界二氧化碳(supercritical carbon dioxide,S-CO_(2))布雷顿循环系统中印刷电路板式换热器(printed circuit heat exchanger,PCHE)的流动传热综合性能,该文通过数值模拟的方法,基于一种全蚀刻工艺的新型矩形截面PCHE,建立以冷热通道换热单元为研究对象的数学物理模型。研究不同运行工况下,通道内扰流格栅间距对S-CO_(2)流动传热特性的影响机理和影响规律。结果表明:不同格栅间距的热通道内S-CO_(2)的流速均沿程逐渐减小,而冷通道内S-CO_(2)的流速反而沿程逐渐增大。冷热通道内的流动摩擦阻力系数(f)和努塞尔数(Nu)均随着格栅间距的增大而逐渐增大,但不同格栅间距的冷通道内的f和Nu均大于其对应的热通道内的f和Nu。当格栅间距为5.97 mm时,矩形截面通道具有相对最优的综合性能,可以在阻力损失较小的情况下实现强化换热。研究结果可为全蚀刻工艺矩形截面PCHE的性能提升和结构优化提供理论依据和数据支撑。

竖进平出型地埋管群换热器结构与控制优化

【目的】为提高浅层地热能利用效率,亟须对影响地源热泵系统性能的地埋管换热器结构和控制开展优化设计。【方法】建立了一种竖进平出型地埋管群换热器模型,研究其换热系统性能,探究其最佳结构及运行方式。【结果】管群布置横纵比越低,单位面积换热量越大,横纵比超过0.15后对系统影响较小;换热器间距越小,土壤利用率越高,但热短路损失越大;双列双出型埋管每延米换热量相较于双列单出型结构提升7%以上;负荷较大工况下叉排布置结构的换热效果更好;整个夏季优化结构的平均出口温度下降2.28℃,换热器周围土壤温度下降1℃以上;实际运行过程中应优先考虑采用流速随负荷变化控制模式。【结论】研究结果可为地源热泵换热器的设计、制造提供理论依据。

翼型肋片印刷电路板式换热器内超临界甲烷的流动与换热性能

针对超临界甲烷在翼型肋片印刷电路板式换热器内的流动和换热性能开展了数值模拟。对比了6种不同型号NACA00 XX翼型肋片的流动和换热性能;研究了翼型肋片均匀分布时,交错、垂直和水平间距3种布局参数对流动和换热性能的影响;设计了3种前疏后密和3种前密后疏的不均匀分布形式的翼型肋片,将流动和换热性能与均匀分布的进行了对比分析。结果表明:NACA0025翼型肋片的综合性能最佳;翼型肋片均匀分布时,无量纲交错间距和无量纲垂直间距分别为1和4时综合性能最佳;翼型肋片非均匀分布时,前密后疏分布的综合性能优于均匀分布的,而前疏后密分布的综合性能劣于均匀分布的;保持翼型肋片数量不变,在拟临界点附近布置更密的翼型肋片能够强化综合性能。