Heat transfer in a dipolar flow through a porous channel     

《Journal of The Franklin Institute》1987,324(2):303-317

The theory of constitutive equations for dipolar fluids, obtained by Bleustein and Green, is applied to investigate the Couette and Poiseuille flows between parallel plates maintained at constant but different temperatures in addition to being subjected to uniform injection and suction. Explicit expressions for the velocity and the temperature fields are obtained. It is found that different sets of conditions imposed on the flow parameters lead to different expressions for the velocity distribution which are valid only for restricted ranges of the cross-flow Reynolds number R. A table showing the various conditions imposed on the parameters, the corresponding solutions and the ranges of R for which the solution exist is presented. Velocity and temperature profiles for the dipolar and the Newtonian flows are drawn and compared to bring out the important differences resulting from the variations in R and B, the Brinkman number. For the dipolar Couette flow it is found that the value of B at which a transition from cooling to heating of the suction wall occurs always exceeds its corresponding value for Newtonian flow. Tables comparing the rates of heat transfer at the walls are provided for several values of R and B.  相似文献   

Temperature distribution in toroidal electrical coils of rectangular cross section     

Thomas James Higgins 《Journal of The Franklin Institute》1945,240(2):97-112

The essential content of a recent paper by the present writer comprises a comprehensive discussion of the physical bases underlying derivation of formulas for calculating the temperature distribution T, maximum temperature T_m and average temperature T_a in a toroidal electrical coil of rectangular cross section, internally generated heat and change of wire resistance with temperature being taken into account. Illustratively, the solution for the boundary value condition of constant surface temperature and uniform equivalent thermal conductivity was obtained.For the most part, however, problems that arise in practice are not encompassed in the comparatively simple boundary conditions of constant temperature. Experiment shows that in general the boundary condition is $\text{T ? T′ = ?}\text{K?}\text{?n}$; whereof n denotes the outward drawn normal to the coil surface, $\text{K = (}\text{k}{}_{\mathrm{n}}\text{h}\text{)}$ the ratio of the equivalent thermal conductivity in the direction of n to the emissivity of the boundary surface, and T and T′ are the corresponding temperatures in the coil surface and the immediately adjacent ambient medium. Again, it frequently ensues in practice that the thermal conductivity is substantially different in the directions of the two principal axes of the cross section.In the present paper formulas for T, T_m, and T_a are obtained for electrical coils of ratio of external to internal radius greater than (roughly) two whereof (i) the thermal conductivity is different in the directions of the two principal axes of the cross section, (ii) K is different on but constant over each of the four faces of the coil, and (iii) no restriction is made as to T′ except that over each face it be expressible in a generalized Fourier series. Determination of T is posed as a boundary-value problem in the mathematical theory of heat; the formal solution of T effected by expansions in orthogonal functions; and T_m and T_a then determined through use of their known relationships with T. The resulting formulas are in the form of rapidly-converging singly-infinite trigonometric-hyperbolic series. Illustrative of application of these general formulas, the maximum temperatures in a coil of given dimensions subject to two different sets of surface conditions are calculated and found to be in excellent agreement with the known measured values.The just-mentioned formulas encompass practically all cases encountered in practice except those coils which do not satisfy the restriction as to ratio of radii. For these latter formulas for T, T_m, and T_a are obtained pursuant to conditions of (i) equivalent thermal conductivity different in the directions of the two principal axes of the cross section, (ii) K, and likewise T′, different on but constant over each of the four faces of the coil. These formulas are in the form of rapidly-converging singly-infinite trigonometric- Bessel function (of zero order) series: Illustratively, the maximum temperature in a coil of given dimensions is calculated and found to be in excellent agreement with the known measured value.  相似文献   

Thermal diffusion and diffusion thermo effects on unsteady MHD free convection flow over a stretching surface considering Joule heating and viscous dissipation with thermal stratification,chemical reaction and Hall current     

Aurang Zaib  Sharidan Shafie 《Journal of The Franklin Institute》2014

The present investigation is concerned with the effects of thermal-diffusion and diffusion-thermo on an unsteady MHD free convection boundary layer flow with heat and mass transfer of an electrically conducting fluid over a stretching sheet in the presence of strong magnetic field with Hall current, thermal stratification, chemical reaction, heat generation, thermal radiation, Joule heating and viscous dissipation. The transformed nonlinear boundary layer equations are numerically solved by applying Keller-box method. The influence of various embedded flow parameters on the local skin friction, the local Nusselt number and the local Sherwood number has been carefully analyzed through graphs. It is found that the shear stress and the rate of mass transfer increase with an increasing of current density _Jh$J_h$ while the reverse trend is observed on the rate of heat transfer. It is also found that the shear stress and the rate of heat transfer increase with an increasing of Sr  , whereas the reverse trend is observed on the rate of mass transfer. Further, the shear stress and the rate of mass transfer increase with an increasing of Du$Du$ while the reverse trend is seen on the rate of heat transfer. The numerical results are compared and found to be in good agreement with previously published results under special cases.  相似文献   

Numerical modeling of MHD stability in a cylindrical configuration     

Fateh Mebarek-oudina  Rachid Bessaïh 《Journal of The Franklin Institute》2014

A numerical modeling of natural convection under the influence of either axial (B_z) or radial (B_r) magnetic field in a cylindrical configuration filled with a low-Prandtl number electrically conducting fluid, is studied. The finite volume method is used to discretize the equations of continuity, Navier Stokes and energy. A computer program based on the SIMPLER algorithm is developed. The flow and temperature fields are presented by stream function and isotherms, respectively. Stability diagrams are established according to the numerical results of this investigation. These diagrams put in evidence the dependence of the critical Grashof number, Gr_cr with the increase of the Hartmann number, Ha. The strongest stabilization of the convective flows occurs when the magnetic field is applied in the radial direction. This study confirms the possibility of stabilization of a liquid metal flow in natural convection by application of a radial magnetic field.  相似文献   

The diffusion of moisture in sorbent solids part II. activated alumina     

Stanley H. Jury  Mark A. Pollock  Eul K. Kim 《Journal of The Franklin Institute》1977,303(5):425-436

Ordinary and thermal diffusion of moisture in activated alumina are investigated using a new diffusion cell design and scheme of analysis reported earlier. The specific form of the mass flux equation has a pronounced effect on the magnitude of the associated thermal diffusion ratio. In the case of activated alumina-moist air, if a partial pressure gradient is used, then the thermal diffusion term is small if not zero.Free, Knudsen and surface diffusion all play a part in the diffusion through activated alumina. However, surface diffusion makes the major contribution and for this reason the model in this case can be simplified to a two parameter surface model.The activation energy for surface diffusion is constant and is approximately equal to the mean isosteric heat of absorption. In addition, mean pore radius, turtuosity, and other physical constants are computed from the least square fit of experimental data. Furthermore, the model is theoretically consistent over the entire concentration range (0≦ C_A ≦ C_Asat).A new fact about activated alumina (Grade F1) it that it does not transfer moisture in a nonisothermal condition so long as the partial pressures of moisture on the two sides of the pellet are the same. There appears to be no previous report of this fact in the periodical literature.  相似文献   

A microfluidic platform for studying the effects of small temperature gradients in an incubator environment     

Sarit K. Das  Seok Chung  Ioannis Zervantonakis  Joseph Atnafu    Roger D. Kamm 《Biomicrofluidics》2008,2(3)

Studies on the effects of variations in temperature and mild temperature gradients on cells, gels, and scaffolds are important from the viewpoint of biological function. Small differences in temperature are known to elicit significant variations in cell behavior and individual protein reactivity. For the study of thermal effects and gradients in vitro, it is important to develop microfluidic platforms which are capable of controlling temperature gradients in an environment which mimics the range of physiological conditions. In the present paper, such a microfluidic thermal gradient system (μTGS) system is proposed which can create and maintain a thermal gradient throughout a cell-seeded gel matrix using the hot and cold water supply integrated in the system in the form of a countercurrent heat exchanger. It is found that a uniform temperature gradient can be created and maintained in the device even inside a high temperature and high humidity environment of an incubator. With the help of a hot and cold circuit controlled from outside the incubator the temperature gradient can be regulated. A numerical simulation of the device demonstrates the thermal feature of the chip. Cell viability and activity under a thermal gradient are examined by placing human breast cancer cells in the device.  相似文献   

One-heater flow-through polymerase chain reaction device by heat pipes cooling     

Jyh Jian Chen  Ming Huei Liao  Kun Tze Li  Chia Ming Shen 《Biomicrofluidics》2015,9(1)

This study describes a novel microfluidic reactor capable of flow-through polymerase chain reactions (PCR). For one-heater PCR devices in previous studies, comprehensive simulations and experiments for the chip geometry and the heater arrangement were usually needed before the fabrication of the device. In order to improve the flexibility of the one-heater PCR device, two heat pipes with one fan are used to create the requisite temperature regions in our device. With the integration of one heater onto the chip, the high temperature required for the denaturation stage can be generated at the chip center. By arranging the heat pipes on the opposite sides of the chip, the low temperature needed for the annealing stage is easy to regulate. Numerical calculations and thermal measurements have shown that the temperature distribution in the five-temperature-region PCR chip would be suitable for DNA amplification. In order to ensure temperature uniformity at specific reaction regions, the Re of the sample flow is less than 1. When the microchannel width increases and then decreases gradually between the denaturation and annealing regions, the extension region located in the enlarged part of the channel can be observed numerically and experimentally. From the simulations, the residence time at the extension region with the enlarged channel is 4.25 times longer than that without an enlarged channel at a flow rate of 2 μl/min. The treated surfaces of the flow-through microchannel are characterized using the water contact angle, while the effects of the hydrophilicity of the treated polydimethylsiloxane (PDMS) microchannels on PCR efficiency are determined using gel electrophoresis. By increasing the hydrophilicity of the channel surface after immersing the PDMS substrates into Tween 20 (20%) or BSA (1 mg/ml) solutions, efficient amplifications of DNA segments were proved to occur in our chip device. To our knowledge, our group is the first to introduce heat pipes into the cooling module that has been designed for a PCR device. The unique architecture utilized in this flow-through PCR device is well applied to a low-cost PCR system.  相似文献   

Heat transfer in packed bed heat recuperators-II. The film coefficient for dry sorbent solids     

Stanley H. Jury  Mario C. Berbano 《Journal of The Franklin Institute》1977,303(4):329-343

An elaborate experimental set up is described that was used to measure the thermal expiration curves of heat recuperators, that had been constructed with guard heaters and vacuum insulation to minimize heat losses. A much more general model is used along with a precision numerical analysis technique to show that a film coefficient correlation of the Dittus-Boelter type did an excellent job of representing the results from 162 runs in which three feed gas temperatures, two flow rates, two particle size ranges, one bed diameter and five desciccants were used. For comparison sake the reported film coefficient correlation is finally assembled in a table along with others found in the literature.  相似文献   

南海中央海盆热结构及其地球动力学意义   总被引：1，自引：0，他引：1  

张健  石耀霖 《中国科学院研究生院学报》2004,21(3):407-412

依据南海中央海盆大地热流观测值及地壳结构资料 ,利用地热学方法计算了海盆及周缘壳内温度和热流分布 ,并得出壳幔热结构配分比例 .计算结果表明 ,中央海盆洋壳层内垂向热流变化不大 ,但垂向温度变化较大 ,这是地幔上涌所致 .海盆内成片分布的地热区 ,则是局部地区地幔上涌 ,导致多期次、多方向海底扩张的反映 .海盆区地幔热流在地表实测大地热流中所占比例高于 80 %,地壳下部热流在地壳总热流中所占比例小于 2 0 %.由此推测 ,中央海盆洋壳层 3厚度过薄 ,可能是后期热事件减缓了上地幔的冷却过程 ,而初始地壳熔融程度较低 ,2种因素综合所致  相似文献   

A droplet-based novel approach for viable and low volume consumption surface plasmon resonance bio-sensing inside a polydimethylsiloxane microchip     

T. Ghosh  Y. Xie  C. Mastrangelo 《Biomicrofluidics》2013,7(4)

Over the course of last two decades, surface plasmon resonance (SPR) has emerged as a viable candidate for label-free detection and characterization for a large pool of biological interactions, ranging from hybridization of oligonucleotides to high throughput drug-screening. Conventional SPR bio-sensing involves a step-response method where the SPR sensorgram in response to a switched sequential flow of analyte and buffer is plotted in real-time and fitted to an exponential curve to extract the associative and dissociative reaction rates. Such measurement schemes involve continuous flow conditions where a substantial reagent volume is consumed and is subject to dispersive mixing at flow switching zones. In this paper, we demonstrate a new plug-train SPR technique in a microfluidic chip that separates and singulates solvent plugs in analyte and buffer by an immiscible air phase. Bio-samples are first discretized within plug droplets with volumes in order of few hundred nanoliters or less followed by pressure-driven transport onto SPR sensing sites of this hydrophobically modified SPR microdevise. The kinetic constants k_a and k_d for a model protein-small molecule interaction pair are extracted from a plug-train signal and are shown to be in reasonable agreement with our previous reports.  相似文献   

高温太阳能蓄热器性能试验研究     

宋长华  王梅兰  李隆键 《科技通报》2012,28(4):182-184

根据太阳能的时变特点,研制了高温太阳能蓄热装置,并在西藏地区进行了现场测试。测试结果表明,太阳能蓄热温度达到420℃以上,蓄热一次可用于加热5L以上开水。该太阳能蓄热装置可用于烧制开水、食物蒸煮等,具有推广使用价值。  相似文献   

二氧化铀热导率的实验及数值模拟研究评价     

王增辉  黄潇凤 《中国科学院研究生院学报》2009,26(3):415-418

二氧化铀是一种稳定的陶瓷燃料,它具有熔点高和物理化学性质稳定的特性,作为核燃料二氧化铀的导热性能将直接影响核燃料芯块内的温度分布和芯块中心的最高温度,分析比较了二氧化铀热导率的实验研究结果和关联式,发现已有实验结果间的差异已经缩小.通过开展非平衡分子动力学模拟分析表明,二氧化铀热导率在中温区模拟较为准确可靠.在低温区时,需对能量输运粒子的动能计算进行量子修正;在高温区,需建立声子能量输运模型、电子气能量输运模型和光子辐射部分的能量输运模型,进一步建立二氧化铀的热导率计算程序.  相似文献   

Secondary electron emission from oxide-coated cathodes     

Martin A. Pomerantz 《Journal of The Franklin Institute》1946,241(6):415-433

The secondary electron emission from alkaline-earth oxide-coated cathodes has been investigated under both continuous and pulsed bombardment. Various factors affecting the yield, such as dependence upon primary voltage, collecting voltage, temperature, time, and angle of incidence, are noted, and the present state of the theory is discussed.Experiments have been performed with three types of apparatus. Yield vs. Energy data reveal values of δ of 4–7 at room temperature, with a more or less flat maximum at approximately 1,000 volts primary energy.The yield increases with temperature in an exponential manner, and plots of log Δδ (i.e. δ_K° ? δ_300°K) vs. 1/T give straight lines. Values of Q₁ between 0.9 – 1.5 eV. are generally indicated, and from extrapolation of these curves, yields exceeding 100 at 850° C. are deduced. The secondary emission depends upon the degree of activation, and increases with enhancement of the thermionic emission characteristics. Short-time effects such as growth or decay of secondary current after the onset of primary bombardment or persistence after the cessation of bombardment have not been observed, and values of yield obtained by pulsed methods are in accord with those obtained under D.C. conditions. Tail phenomena reported by J. B. Johnson and interpreted as “enhanced thermionic emission” from oxidecoated cathodes become manifest only under experimental conditions characterized by certain space-charge effects, and have been effectively simulated by bombarding a tantalum target adjacent to an electron-emitting tungsten filament. Various measurements of the energy distribution of secondary electrons as a function of primary voltage and temperature have been obtained. It was observed that the average energy of the secondary electrons decreases with temperature at a rate which more than compensates for the increase in the number of secondaries emitted per incident primary. The mechanism of the observed dependence of yield upon temperature is not well understood. Various alternative explanations are discussed and, in the light of the present state of our knowledge, regarded as untenable.  相似文献   

基于“三流合一”视角的碳中和贡献力评价研究 ——以传统能源企业为例     

黄绮煜  张妍  李涛 《科技管理研究》2023,(2):186-196

针对学术界对于微观主体碳中和贡献的评价不足、维度单一化等问题，基于“三流合一”的研究视角，构建涵盖物质流、价值流和信息流三大系统维度共24项指标的企业碳中和贡献力评价指标体系；并采用熵值法、层次分析法与灰色关联分析法相结合的综合评价模型，选取传统能源企业为案例对象进行评估分析。结果表明：目前我国火电企业碳中和贡献力的不均衡发展问题突出，不同火电企业之间、同一火电企业内各系统维度间以及同一企业同一系统维度内各要素间均存在着明显差异。其中，物质流系统是主导性影响因素，但价值流和信息流系统的影响效果不可忽视。因此，传统能源企业应当充分调动市场、技术、金融等多元要素，促进碳素物质流、价值流与信息流系统的耦合，以提升碳中和行动的全面性与高效性。  相似文献   

A new three-dimensional heat flux-temperature integral relationship for half-space transient diffusion     

Jay I. Frankel  Majid Keyhani  Rao V. Arimilli 《Journal of The Franklin Institute》2010,347(9):1681-1688

This paper derives a new integral relationship between heat flux and temperature in a transient, three-dimensional heat conducting Cartesian half space (x>0, y∈(−∞,∞), z∈(−∞,∞)). A unified mathematical treatment has been developed based on operational and transform methods; and singular integral equation regularization. Regularization is accomplished based on a series of observations involving the diffusive nature of the operator. This newly developed relationship provides the local heat flux perpendicular to the front surface at any location within the half space. This expression suggests that an embedded plane of temperature sensors parallel to the surface can be used to acquire the local, in-depth heat flux in the x-direction. The relationship does not require a priori knowledge of the surface boundary condition which has analytically been removed in the process. The ill-posed nature of diffusion is highlighted owing to the appearance of the heating/cooling rate (°C/s) in the integrand of the new relationship. Integral relationships of this type are highly useful for experimental investigations since the in-depth heat flux can be extracted from well-established temperature transducers.  相似文献   

Do knowledge conditions make a difference?: Investment, finance and ownership in German industries     

David B. Audretsch  Jürgen Weigand 《Research Policy》2005,34(5):595-613

This paper examines the impact of industry knowledge conditions, the mode of corporate control and firm size on tangible investments and its financing. Based on a large panel data set of German firms we investigate whether financing constraints exist for tangible investment and whether there is systematic variation across firms engaged in activities reflecting different knowledge conditions. In particular, we compare the extent of financing constraints for firm in knowledge intensive (hi-K) industries with those in less knowledge-based (lo-K) industries. This distinction is important because knowledge-based economic activity tends to be subject to high degrees of uncertainty, asymmetric information and spillovers of newly created knowledge, making access to external sources of finance difficult. Our surprising empirical finding is that firms in hi-K industries are less finance constrained than are their counterparts in lo-K industries. However, the mode of corporate control and firm size play an important role. After controlling for firm size and manager versus owner control, we observe that the small manager-controlled firms in both hi-K and lo-K industries are most finance constrained. By contrast, no financing constraints seem to exist for the smaller owner-controlled firms in hi-K industries. This latter result contrasts sharply with results of Anglo-Saxon studies.  相似文献   

Surface superconductivity in the type II Weyl semimetal TaIrTe4     

Ying Xing  Zhibin Shao  Jun Ge  Jiawei Luo  Jinhua Wang  Zengwei Zhu  Jun Liu  Yong Wang  Zhiying Zhao  Jiaqiang Yan  David Mandrus  Binghai Yan  Xiong-Jun Liu  Minghu Pan  Jian Wang 《国家科学评论(英文版)》2020,7(3):579

The search for unconventional superconductivity in Weyl semimetal materials is currently an exciting pursuit, since such superconducting phases could potentially be topologically non-trivial and host exotic Majorana modes. The layered material TaIrTe₄ is a newly predicted time-reversal invariant type II Weyl semimetal with the minimum number of Weyl points. Here, we report the discovery of surface superconductivity in Weyl semimetal TaIrTe₄. Our scanning tunneling microscopy/spectroscopy (STM/STS) visualizes Fermi arc surface states of TaIrTe₄ that are consistent with the previous angle-resolved photoemission spectroscopy results. By a systematic study based on STS at ultralow temperature, we observe uniform superconducting gaps on the sample surface. The superconductivity is further confirmed by electrical transport measurements at ultralow temperature, with an onset transition temperature (T_c) up to 1.54 K being observed. The normalized upper critical field h*(T/T_c) behavior and the stability of the superconductivity against the ferromagnet indicate that the discovered superconductivity is unconventional with the p-wave pairing. The systematic STS, and thickness- and angular-dependent transport measurements reveal that the detected superconductivity is quasi-1D and occurs in the surface states. The discovery of the surface superconductivity in TaIrTe₄ provides a new novel platform to explore topological superconductivity and Majorana modes.  相似文献   

Bond graph fluid line models for inclusion with dynamic systems simulations     

Donald L. Margolis 《Journal of The Franklin Institute》1979,308(3):255-268

A procedure is presented whereby the control volume equations for one-dimensional, compressible gas dynamics are cast into first-order, state variable form. These equations are interpreted using causal bond graphs. The resulting bond graph is shown to reduce to the classic I-C chain under acoustic constraints and to a more recently developed model of low speed thermal energy transport subject to associated constraints.Through example it is demonstrated that the control volume bond graph is easily coupled to an overall system model and thus can be digitally simulated as part of the overall nonlinear state space representation. The result is that a very accurate gas dynamic model can be coupled with an overall dynamic system model without requiring a prohibitively large number of equations.  相似文献   

矩形微槽内水的流动沸腾换热及可视化实验研究     

王际辉  唐大伟  颜晓虹 《中国科学院研究生院学报》2007,24(1):34-38

本实验以水为工质，对截面尺寸为0.4mm×0.4mm水平布置的不锈钢矩形微槽内流动沸腾进行换热特性和可视化研究.质量流速范围为G＝62.5～187.5kg/m2s，进口温度分别为Tin＝30、45、 60°C.实验结果表明，在较低干度下，换热系数随着干度的增加而增加；干度较大时，换热系数保持不变直至换热恶化.质量流速的增加使换热系数有较大增加，进口温度的变化对换热系数几乎没有影响.可视化研究发现低壁面过热度时，有大量气泡产生；在本实验范围内，微槽内沸腾的流型主要有塞状流和环状流两种.  相似文献   

A hydrodynamic focusing microchannel based on micro-weir shear lift force     

Ruey-Jen Yang  Hui-Hsiung Hou  Yao-Nan Wang  Che-Hsin Lin  Lung-Ming Fu 《Biomicrofluidics》2012,6(3)

A novel microflow cytometer is proposed in which the particles are focused in the horizontal and vertical directions by means of the Saffman shear lift force generated within a micro-weir microchannel. The proposed device is fabricated on stress-relieved glass substrates and is characterized both numerically and experimentally using fluorescent particles with diameters of 5 μm and 10 μm, respectively. The numerical results show that the micro-weir structures confine the particle stream to the center of the microchannel without the need for a shear flow. Moreover, the experimental results show that the particles emerging from the micro-weir microchannel pass through the detection region in a one-by-one fashion. The focusing effect of the micro-weir microchannel is quantified by computing the normalized variance of the optical detection signal intensity. It is shown that the focusing performance of the micro-weir structure is equal to 99.76% and 99.57% for the 5-μm and 10-μm beads, respectively. Overall, the results presented in this study confirm that the proposed microcytometer enables the reliable sorting and counting of particles with different diameters.  相似文献