Experiment investigation on visualization and operating characteristics of closed loop plate oscillating heat pipe with parallel channels

Using ethanol or acetone as the working fluid, visualization of oscillations in steady state was observed visually by high-speed cameras, and temperature oscillating and heat transfer characteristics of closed-loop plate oscillating heat pipe with parallel channels(POHP-PC) were experimentally investigated by varying liquid filled ratios(50%, 70%, 85%), section scales(1 mm×1 mm and 1 mm×1.5 mm), inclination angles, working fluids and heating inputs. It was found that during operating there was mixed flow consisting of plug flow and annular flow in channels of oscillating heat pipe at steady-state. There was an equilibrium position for working fluid of condenser during oscillating, and periodic oscillations occurred up and down in the vicinity of equilibrium position. With heat input increasing, equilibrium position rose slowly as a result of vapor pressure of evaporation.Evaporation temperature oscillating amplitude possessed a trend of small-large-small and frequency trend was of small-large during steady-state. It may be generally concluded that temperature, whether evaporator or condenser, fluctuated sharply or rose continuously when oscillating heat pipe coming to dry burning state. Simultaneously, it was found that temperature difference of cooling water possibly dropped with heat input rising during dry burning state. Thermal resistance of No. 2 with acetone was lower than that of No. 1 during experiments, but No. 2 achieving heat transfer limit was earlier than No. 1. However, with ethanol, thermal resistance of No. 1 and No. 2 were similar with the heating input less than 110-120 W and filling ratios of 50% and 70%. And with filling ratio of 85%, heating transfer performance of No. 2 was better compared to No. 1 during all the experiments.

Visual Study on Flow and Operational Characteristics of Flat Plate Closed Loop Pulsating Heat Pipes

This paper presents an experimental study including visualization on a flat plate closed loop pulsating heat pipes.It consists of a total of 40 channels with square cross section(2 mm×2 mm,165 mm long) machined directly on an aluminum plate(180 mm×120 mm×3 mm) covered by a transparent plate.The working fluid employed is ethanol.As a result,various flow patterns and their transitions are observed and found to be related to the fluid fill ratio,input heat load and the device orientation.Also the operational characteristics and working mechanism are discussed.

Parametric Influence on Thermal Performance of Flat Plate Closed Loop Pulsating Heat Pipes

This paper presents an experimental study on a flat plate closed loop pulsating heat pipes. It consisted of total 40 channels with square cross section （2 × 2 mm^2, 165 mm long） machined directly on an aluminum plate（180×120×3 nm^2）, which was covered by a transparent plate. The working fluid employed was ethanol. As the results, the influence parameters of thermal performance were investigated, such as filling ratio, heat load and operational orientations etc. Filling ratio was found to be a critical parameter, and its effect was rather complicated. According to its values the PHP plate could have four distinct working zones with different operational characteristics and heat transfer performance. The effect of heat load on thermal performance was found to be positive, and in general, iucrcasing the heat load would improve heat transfer performance. In order to analyze the effect of gravity on thermal performance, three different heat modes and total seven tilt angles were tested and compared. Successful operation at all orientations with respect to gravity was also achieved.

A Pipe Inspection Using a Circumferential SH-Mode Plate Wave Generated in a Pipe by an Electromagnetic Acoustic Transducer (EMAT)

Inspection of a pipeline is essential for the safe use of such facilities. A trial sensor using an electromagnetic acoustic transducer (EMAT), which can generate the SH-mode plate wave propagating in the circumferential direction, has been developed to realize this objective. It consists of a circulating electromagnetic induction coil around the pipe and many permanent magnets arranged on the surface of the pipe in the circumferential direction. It is postulated that the intensity of the SH-mode plate wave propagating in the circumferential direction is dependent on any defects in the circumferential direction. A resonance method was then utilized to obtain a stronger received signal. As a result, it was confirmed that the resonance status can be detected. The relationship between the signal intensity and the pipe thickness was then evaluated. It was confirmed that the wall thickness of about 20% can be detected under a static condition. Finally, a moving test has been executed by using an axially traveling device manufactured by trial. The test pipes with different sizes of drilled holes were prepared. The change in the received signal intensity according to different sizes of the drilled holes was successfully detected.

倾角对平板型LHP 运行性能的影响

通过改变内部毛细芯结构达到改善环路热管性能、减小环路热管体积的目的,取消储液腔,将传统的长矩形蒸汽槽道更改为特斯拉阀形状,并且将蒸发器进出口设置在蒸发器两侧。研究该热管在不同倾角下的启动性能、运行特性。结果显示:相对于0°倾角运行,倾角的存在能够减少环路热管的启动时间,降低蒸发器温度,存在倾角的条件下启动特性差别不大。随着功率的增加,不同倾角的环路热管热阻减小,仅在倾角(10°以下)较低时有较大的热阻。随着倾角的增加,环路热管热阻随功率的变化无较大改变。

高温烟气管道膨胀节稳定失效分析与设计优化

针对某甲醇制烯烃(MTO)装置再生烟气管道波纹管膨胀节稳定失效的故障,分析了管道支座布置和操作工况变化对膨胀节稳定性的影响,结合管道热位移、盲板力的计算,证明了管道支座的选型及合理布置是保证膨胀节安全、有效服役的关键。提出了膨胀节的改造应用方案和治理措施,为类似工况膨胀节的应用和失效预防提供了经验。

平板微热管阵列换热器的研究现状与展望

平板微热管阵列换热器作为一种高效的传热设备,在当前节能减排的背景下具有广阔的应用前景。本文主要针对平板微热管阵列换热器的优化研究应用现状进行总结分析,得出其传热性能主要影响因素有:平板微热管阵列的微槽尺寸、工质选择、充液率、倾斜角度及换热器的翅片结构尺寸、热流量、运行温度、流动特性等,这些都会对其产生性能影响。在上述性能影响因素当中,对于平板微热管阵列换热器翅片结构尺寸参数的优化研究相对来说仍然较少,需要进一步的重视和探究。

二次供水系统不锈钢改造对水质微生物安全性的成效

二次供水系统材质对输配水质有重要影响。为了研究二次供水系统更新不锈钢材质对管网微生物水质改善成效,采用基于R2A贫营养培养基的异养菌平皿计数(HPC)检测方法和基于16S rRNA基因高通量测序的微生物组学技术对上海市直饮水示范区不锈钢材质改造前后的微生物质量进行了评估。结果表明,不锈钢管道改造可以有效降低二次供水系统中的微生物数量。在夏季对供水末端实施不锈钢材质改造后,供水水质中HPC数量明显下降。其中,高层泵后从改造前的平均968 CFU/mL降至178 CFU/mL,降幅约达82%;6楼立管从改造前的平均1383 CFU/mL降至88 CFU/mL降幅约达93.7%。未改造小区B的HPC整体水平高于改造小区A,改造后的小区B的HPC数量低于改造前。温度对二次供水末端微生物数量影响明显,10月数量明显高于11月和12月。从原水、出厂水到泵房水池进水,优势菌属由不动杆菌属转变为假单胞菌属,入户后Phreatobacter菌属逐渐占据优势。改造前的小区B相比改造后小区A拥有潜在致病表型和生物膜形成能力表型的微生物相对丰度更高,并主要由高丰度的不动杆菌属组成。二次供水不锈钢管材更换可以通过降低有关生物膜形成功能相关和致病相关的细菌丰度来控制饮用水中的部分微生物风险。

平板型环路热管研究现状及发展趋势

平板型环路热管是一种具有平板蒸发器的环路结构热管器件,其利用气液相变原理进行高效热传递。由于平板型环路热管更符合先进电子技术的发展趋势,并具有优异的远距离热传输性能,在航天飞行器、电子设备冷却、余热回收利用等领域具备广阔的应用前景。因此,文章综述了近年来研究者在平板型环路热管的吸液芯、工质、工作特性、理论模型以及异型结构等方面所做出的努力,总结了平板型环路热管上述方向的发展现状,提出平板型环路热管的未来发展趋势,助力先进两相散热技术发展。

U型平板微热管LED散热器散热性能分析

针对目前LED表面发热量较大,局部温度过高,而导致其使用寿命减少的问题,该研究以平板微热管为核心传热元件,与锯齿形翅片结合,设计了一种U型平板微热管散热器。采用试验和仿真模拟相结合的方法,对不同风速、翅片结构、翅高及翅间距等关键影响因素进行分析。结果表明:通过对比分析U型平板微热管在两种室外工况下各测点试验值和模拟值,散热稳定后温度的最大误差分别为4.2%和6.7%,验证了模型的可靠性。风速分别为0.5和3.0 m/s时,锯齿型翅片都具有良好的散热性能。当风速为3.0 m/s时,锯齿型翅片、W型翅片、直翅片散热器稳定后热源温度分别为34.3、35.5和39.1℃。为找到最佳工况和结构,进行了正交分析,当室外风速为3.5 m/s,锯齿型翅片翅高为12 mm,翅间距为8 mm时,U型热管具有较佳的散热性能。研究结果可为LED散热系统的设计提供数据参考和设计思路,拓宽LED光源的应用范围。

水文极复杂矿井井下钻孔封孔技术研究

在水文地质条件复杂或极其复杂矿井的井下钻探工程中,钻孔封孔时出现塌孔及钻孔跑水情况较多,这些情况可能引起突水危险,严重危胁矿井的安全生产。梧桐庄矿为典型大采深复杂化矿井,其井下钻孔受大采深高矿压作用及高承压水影响,容易出现钻孔塌孔和钻孔周边跑水的情况。为了解决以上问题,通过研究使用地面注浆站输送P.O32.5水泥与井下泥浆泵输送P.O42.5R水泥融合提高注浆材料黏合度的方法,将混合的水泥材料通过阻燃抗静电PVC管,在钻孔深度大于50 m的钻孔塌孔和钻孔周边有跑水情况中应用,起到了良好封孔效果,值得相关类似矿井推广应用。

某1000MW机组主蒸汽-高旁管道振动测试及分析

针对某1000 MW火电机组的主蒸汽-高旁管道振动问题,采用三向振动传感器对高旁管道、主蒸汽管道及附属支吊架根部、格栅板、格栅板支撑钢梁结构进行详细的现场测试,并对测试信号进行时域及频域分析。结果显示,整个系统的振动频率一致,最大振动区域位于高旁阀附近管段,从而明确振源并推导出清晰的振动传导链,同时发现该管道振动特有的频率特征,完全有别于常规汽水管道的宽频振动情况,为后续振动处理指明方向。

高寒地区平板热管式太阳能集热系统热性能研究

基于呼和浩特地区高寒气候条件,搭建两组完全一致的平板热管式太阳能集热系统,通过实验对比分析太阳辐射强度、传热工质流量、集热板表面积尘等因素对集热器瞬时集热效率以及系统热性能的影响。结果表明,在同等外界条件下,集热器的集热效率随着工质流量的增加而增大,集热效率与太阳辐射强度变化趋势相近,随积尘密度的增加,集热板表面积尘导致系统的得热量减少,集热性能下降。

断层错动区隧道波纹板支护力学性能研究

地震引起的永久性地层运动容易导致隧道结构破坏,波纹结构具有良好的大变形能力,在隧道支护中的应用逐渐增多,但是断层错动作用下隧道波纹板支护的力学性能研究较少。本文首先介绍了自主设计的走滑断层模拟装置,利用相似比理论,选取松散沙土和PVC螺旋波纹管进行了跨断层隧道波纹板支护的模型试验,得到了不同错动距离下螺旋波纹管的环向和轴向变形。然后参考规范确定了管土相互作用的土弹簧系数,对断层错动作用的螺旋波纹管进行数值模拟并与试验对比,得到了土弹簧系数的变化规律。最后研究了断层错动下加强肋刚度和土体约束作用对隧道波纹板支护性能的影响规律,结果表明:最大轴向拉压应变发生在断层左右两侧;加强肋刚度增大到一定数值后,波纹板变形和最大错动距离基本保持稳定;波纹板达到相同的变形时,土体约束作用越强错动距离越小。

超薄空间复杂边界条件下气体流动压降实验

随着超薄热管等元件进一步超薄化,蒸汽腔厚度减小导致蒸汽流动压降急剧增大,传热热阻增加,传输极限降低。搭建了超薄受限空间气体流动压降实验装置,开展空气流动实验,获得了不同通道高度(0.1~0.5 mm)、不同表面丝网孔径(0.036~0.104 mm)和不同流速(1~10 m/s)下的压降变化。结果表明:通道高度和流速对压降产生显著影响,而表面丝网孔径并不会;3个影响因素按显著程度依次为通道高度、流速、表面丝网孔径;随表面丝网孔径的减小,压降逐渐增大;随通道高度的减小,压降先缓慢增大,在减至0.3 mm后压降开始剧烈上升;随流速的增加,压降增大且近似呈正比例变化关系。最后基于实验数据修正了微通道层流情况下沿程阻力系数相关性预测关联式,以便更准确地预测气体压降。

探讨夹套伴热隔断板的设计方法

由夹套内管、夹套外管等组件组成的夹套管系统用于化工装置中常用的夹套伴热中。在复杂夹套管系的分支线处,需在内管和套管之间增加隔断板,使伴热载体流向单一,以确保良好的伴热效果。本文结合案例分析,探讨夹套伴热隔断板的设计思路,介绍隔断板尺寸、材质、设置间距的要求,对比分析单泵进出口夹套管线设置隔断板的方案。结果表明,通过优化隔断板设置方案,能实现在保证伴热效果的同时节约材料和伴热介质的能量。针对夹套管线施工过程中存在的问题,提出三种解决方案。

炼厂管廊架螺栓连接板等不规则钢结构的长效防腐措施

某炼厂处于湿热海洋大气腐蚀环境影响中,厂区管廊架钢结构螺栓连接板部位出现较严重的腐蚀现象,常规油漆防腐效果不理想,实现不了长效保护。氧化聚合包覆防腐技术克服了油漆涂装防腐的局限性,防护年限长,贴合性高,致密性好,一次到位,综合维护成本低,安全保障性高,是针对像管廊架钢结构螺栓连接板等不规则部位的最佳长效防腐维护方案。

钢管板组合桩结构特点及施工工艺

港口码头施工的过程中需要做好板桩码头桩基施工工作,桩基的质量决定着后续工程的施工质量。随着港口建设的不断发展,对码头质量要求逐步增高,传统的板桩结构已不能满足码头结构大型化、深水化的要求,因此钢管板组合桩结构形式逐渐得到了广泛应用,此类组合在复杂的地质情况下仍能适应,并且具有力学性能好、施工较为简单、工期短和经济效益高等特点。以印度尼西亚锦江码头工程为例,介绍该结构特点及施工工艺。

冲压模具排气孔作用和设计要求

介绍了模具排气孔的作用和对冲压生产冲压件的影响,详细阐述了模具排气孔、防尘管、防尘盖板的设计原则和标准。对模具设计人员在实践工作中具有针对性的借鉴意义,统一了模具开发标准和模具制造规范性,从而保障了模具质量和生产出冲压件的质量。

采用拉缝板连接的现浇框架填充墙抗震性能试验研究

为研究拉缝板连接的现浇PVC管空心填充墙对结构抗震性能的影响。试验设计了6榀足尺单层单跨混凝土框架试件,其中:2榀空框架,2榀无拉缝板刚性连接的PVC管空心填充墙框架和2榀有拉缝板柔性连接的PVC管空心填充墙框架,通过对各试件进行低周反复荷载试验,研究了拉缝板连接的现浇填充墙框架的破坏特征、滞回曲线、骨架曲线、耗能比和刚度退化等抗震性能指标。同时对拉缝板进行抗压承载力试验和材料拉伸试验。结果表明:加入PVC空心填充墙能提升框架的初始刚度和承载力;有PVC结构拉缝板的试件组的抗震性能介于空框架与无PVC结构拉缝板的试件组之间,加入PVC结构拉缝板能一定程度提高框架的耗能能力,减缓整体框架刚度退化。