微型节流制冷器启动时间的理论分析

为了减少红外用微型节流制冷器的启动时间,采用带有预冷级的节流制冷器.用预冷级对制冷级进行预冷,让制冷级在发生节流前的温度更低,从而使其发生节流制冷后能更快到达红外探测器的工作温度,缩短启动时间.通过分析单级节流制冷器和带有预冷级快速节流制冷器的工作原理,阐明了带有预冷级节流制冷器启动快的原因,实验结果表明,在采用相同的制冷工质时,采用带有预冷级的节流制冷器启动时间比单级快.在今后的工作中,制冷级和预冷级分别采用不同的制冷工质,将会取得更好的效果.     

Composition,Enthalpy, and Vaporization Temperature Calculation of Ag‐SiO<Subscript>2</Subscript> Plasmas with Air in the Temperature Range from 1000 to 6000 K and for Pressure Included between 1 and 50 bars

With the Gibbs free energy minimization method, the molar fraction of chemical species are determined in temperature range included between 1000 and 6000 K for several proportions of air, silver and silica and for pressures included between 1 and 50 bars. The enthalpy and the vaporization temperature of liquid silver and liquid silica are studied. The key role of pressure on composition, enthalpy and the vaporization temperature is shown. The electrical neutrality is study, and the importance of ionized gaseous silver at low temperature is shown even for low amount of silver. The increase of electronegative ions (Ag^– and O^–) with pressure is shown. The vapor pressures fitting coefficients of Ag and SiO₂ are given.     

In Situ Explosive Detection Using a Miniature Plasma Ion Source and a Portable Mass Spectrometer

A small low-temperature plasma (LTP) ionization probe was coupled to a portable mass spectrometer for the rapid detection of trace explosives on surfaces. Using only a small diaphragm pump to supply ambient air to the LTP source, 100 ng each of pentaerythritol tetranitrate (PETN), 1,3,5-trinitroperhydro-1,3,5-triazine (RDX), and 2,4,6-trinitrophenylmethylnitramine (Tetryl) were detectable on glass in under 1 minute. The main ion signal from these molecules (M) is the [M + NO₃]^? species. While much optimization remains, it is believed that this miniature LTP source will remove the need for external gas cylinders and additional heating for in situ explosives detection using portable mass spectrometers.     

Highly efficient capillary polymerase chain reaction using an oscillation droplet microreactor

The current work presents the development of a capillary-based oscillation droplet approach to maximize the potential of a continuous-flow polymerase chain reaction (PCR). Through the full utilization of interfacial chemistry, a water-in-oil (w/o) droplet was generated by allowing an oil–water plug to flow along a polytetrafluoroethylene (PTFE) capillary. The w/o droplet functioned as the reactor for oscillating-flow PCR to provide a stable reaction environment, accelerate reagent mixing, and eliminate surface adsorption. The capillary PCR approach proposed in the current research offers high amplification efficiency, fast reaction speed, and easy system control attributable to the oscillation droplet reactor. Experimental results show that the droplet-based micro-PCR assay requires lower reaction volume (2 μL) and shorter reaction time (12 min) compared with conventional PCR methods. Taking the amplification of the New Delhi metallo-beta-lactamase (NDM-1) gene as an example, the present work demonstrates that the oscillation droplet PCR assay is capable of achieving high efficiency up to 89.5% and a detection limit of 10 DNA copies. The miniature PCR protocol developed in the current work is fast, robust, and low-cost, thus exhibiting the potential for expansion into various practical applications.     

Stability assessment and operating parameter optimization on experimental results in very small plasma focus,using sensitivity analysis

Regarding the importance of stability in small-scale plasma focus devices for producing the repeatable and strength pinching, a sensitivity analysis approach has been used for applicability in design parameters optimization of an actually very low energy device (84 nF, 48 nH, 8–9.5 kV, ～2.7–3.7 J). To optimize the devices functional specification, four different coaxial electrode configurations have been studied, scanning an argon gas pressure range from 0.6 to 1.5 mbar via the charging voltage variation study from 8.3 to 9.3 kV. The strength and efficient pinching was observed for the tapered anode configuration, over an expanded operating pressure range of 0.6 to 1.5 mbar. The analysis results showed that the most sensitive of the pinch voltage was associated with $0.88\pm 0.8\text{mbar}$ argon gas pressure and 8.3–8.5 kV charging voltage, respectively, as the optimum operating parameters. From the viewpoint of stability assessment of the device, it was observed that the least variation in stable operation of the device was for a charging voltage range of 8.3 to 8.7 kV in an operating pressure range from 0.6 to 1.1 mbar.     

Transient analysis of boiling heat transfer in periodic drying out miniature pools

The evolution of the two-phase thermal control technique is moving in the direction of the use of devices which operate in stable periodic or chaotic unsteady regimes. In these devices the heat transfer coefficient relative to the evaporator walls therefore changes over time and it is hardly predictable, especially in the case of boiling regime. This paper deals with the analysis of the boiling coefficient evolutions over time during the operations of a thermal control devices which periodically operates, the Periodic Two-Phase Thermosyphon (PTPT). An experimental technique for measuring the transient boiling heat transfer coefficient in a thick flat evaporator is shown.     

微型蒸气压缩制冷系统实验研究

该制冷系统由微型回转式压缩机、管带式换热器和毛细管等组成,制冷剂为R134a。单机重2.21kg,体积210mm×140mm×160mm。2.0kg锂电池确保系统150min内持续提供73.6W冷量。利用空气焓差台测量压缩机转速、蒸发器进风温度和送风量等参数对于系统性能的影响。实验结果确定了影响性能的主要因素,且表明主动调节可使系统满足不同的制冷量和冷却温度要求。     

Miniature plasma focus as a novel device for synthesis of soft magnetic FeCo thin films

The Letter reports the first ever application of low energy miniature plasma focus device as a deposition facility for nanostructured thin films. We demonstrate successful utilization of a 120 J fast miniature plasma focus device as a novel facility for the deposition of magnetically soft FeCo thin films. Different gas types and the substrate materials were used to investigate their effects on magnetic properties of the films. The FeCo films deposited on Si₍₁₀₀₎ with hydrogen as the filling gas were found to have an average grain size of 10.8±1.2 nm with narrow size distribution and soft magnetic properties with coercivity of about 6.3 Oe. The experimental coercivity value matched reasonably well with the theoretical calculation done using ripple theory.     

主动式冷却系统微型化发展现状

常规的制冷系统在一些特殊场合下不能用作消除热害的理想解决方案.得益于微系统工艺和微尺度传热传质理论的不断完善,以蒸气压缩系统、吸收式系统和热电系统为代表的主动冷却系统在微型化和轻量化方面取得显著进展.文中基于国内外最新文献分别介绍了这三种主动冷却系统的优、缺点及发展现状,通过实例对比说明蒸气压缩系统具有较大发展潜力,就...     

A simple method to prepare miniature quartz fiber boats with superhydrophobicity

According to the reformed Cassie-Baxter equation, a superhydrophobic quartz fiber bundle boat was fabricated from mimicking the lotus leaf venation using chemical surface modifications and roughness introductions. Water contact angles as high as 165.8° were achieved for quartz fiber cloths. The loading capacities of the miniature boats made from the superhydrophobic quartz fiber bundles were measured. The highest loading weight, 10.19 g, was obtained by the boats with 2.0 mm spacing distance between fiber bundles. The striking loading capacities were believed to stem from the air film surrounding the superhydrophobic surfaces of the boats. The results of this study presented new applications of artificial hydrophobic surfaces in areas of aquatic devices.