电子冷却系统中冷却力的大小与电子束的温度密切相关。
Cooling force in electron cooling system is closely related to the temperature of electron beam.
其二则为能量转换和电子冷却领域中常见的多孔介质两相流动问题。
The other area concerns twofers flow and heat transfer in porous media as widely encountered in energy conversion and electronics cooling.
理论研究表明电子冷却微型换热器存在最佳外形尺寸,并给出了一个简单的求解方法。
The theoretical research shows that the electronic cooling micro heat exchangers had an optimum overall dimension, and a solution was given.
根据热电效应原理,采用高精密度电子冷却冷藏库,对草莓及蓝莓果实进行了贮藏保鲜研究。
According to the principle of heat electrics effect, used electrical cold storage to store strawberry and blueberry fruit.
功率集成电路的功率密度越来越高,发热问题越来越严重,为现代传热技术在电子冷却领域的应用提出了新的课题。
The higher power density of the power IC the more serious heat -generating problems, that brings forward a new question of electronic heat cooling for discussion.
这个计划的主要部分是主动能源管理,它能够管理数据中心中的设备、冷却和电子系统。
Active energy management, which allows for the capability to manage facilities, cooling, and electrical systems within the datacenter, is a big part of this initiative.
但是将石墨单原子层冷却到接近绝对零度时,不可思议的事情发生了:电子的速度得到显著增加。
But cool this graphene down to near absolute zero and something extraordinary happens: the electrons speed up dramatically.
此时宇宙已冷却到1000摄氏度,温度低到电子开始登场并结合原子核形成大量的原子。
The universe has cooled to about 1,000c - cool enough for electrons to pair up with nuclei to form the first atoms.
此时宇宙已冷却到1000摄氏度,温度低到电子开始登场并结合原子核形成大量的原子。
The universe has cooled to about 1, 000C - cool enough for electrons to pair up with nuclei to form the first atoms.
该小组已开发出冷却正电子和反质子的改进技术,通过应用这些技术应该能够捕获到更多的反原子。
It has developed better techniques for cooling both positrons and antiprotons, which should allow it to trap more anti-atoms.
应用包括在存储环和反质子和在陷阱的沉重的离子束的最后的减速里的电子离子束的冷却。
Applications include the electron cooling of ion beams in storage rings and the final deceleration of antiprotons and heavy ion beams in traps.
散热器和风扇组合的强迫风冷技术具有设计简单、使用方便、成本低廉等优势,是目前电子设备中应用最广泛的冷却技术。
With the advantages of convenience of design, ease of application and low cost, forced air-cooling with heat sinks and fans are now the most widely used cooling technology for electronic devices.
SprayCool已经申请了专利的这项两阶段液态冷却技术使用了无腐蚀、不导电的液体薄雾。把这种薄雾喷在一个薄片上,然后蒸发并冷却电子设备。
SprayCool patented two-phase liquid cooling technology USES a fine mist of non-corrosive, non-conductive liquid, sprayed in a thin layer, which evaporates and cools electronics.
由放射性钠衰变产生正电子,冷却后形成一个由大约100万个正电子组成的体积同样大小的粒子云团,这团正电子被存放在相邻的一个容器中。
The positrons, produced by the decay of radioactive sodium, are cooled into a similarly sized cloud of around 1m particles and held in a neighbouring trap.
电子在导体冷却时遇到的阻力比导体热时的小。
The electrons meet less resistance when the conductor is cold than when it is hot.
本文介绍了一种计算辐射冷却的理论方法。该方法适合在电子计算机上进行计算。
In this paper, a theoretical calculation method of radiation Cooling adapted to computer calculation is introduced.
电子设备的整体结构形式不仅影响产品的可靠性与美观性,而且还影响冷却系统的合理性与有效性。
The integrated structure of the electronic equipment can not only affect the reliability and good appearance, but also the rationality and effectiveness of the cooling system.
应用化学分析、金相和电子探针显微分析技术对反应器中冷却水管的失效原因进行了分析。
Reasons of failure in cooling pipe of the reactor have been studied by the chemical composition analysis, optical microscopy examination and electron probe microanalysis.
各种各样的小尺寸斯特林制冷器是商用任务,如冷却的电子感应器,有时微处理器。
A wide variety of smaller size Stirling cryocoolers are commercially available for tasks such as the cooling of electronic sensors and sometimes microprocessors.
在适当的应用条件下热电制冷是一种有效的电子设备冷却方法。
Thermoelectric refrigeration is an effective electronics cooling method in proper applied condition.
在适当的应用条件下,热电制冷是一种有效的电子设备冷却方法。
Thermoelectric refrigeration is an efficient electronics cooling method under proper application conditions.
这至关重要,因为氨用于冷却某些电子产品系统。
This is important, because ammonia is used to cool off some of the system's electronics.
从热耗散的角度来看,将液体以射流冲击的形式直接应用于电子器件的冷却,有其独特的优点。
From the aspect of heat dissipation, the liquid directly applied in cooling the electronic devices in the form of jet impingement has its unique advantages.
研究表明,微小矩形多槽道平板热管具有高传热特性,在电子器件冷却等方面有良好的应用前景。
The study indicates that the micro rectangle grooves flat heat pipe is characterized by high heat transfer capability with good prospects for cooling electronic components.
介绍广州地铁1号线车辆电子控制装置冷却风扇的国产化技术方案、电路结构和原理及直流无刷风扇的风叶材料和轴承。
It is presented the localized technical scheme, circuit structure and principles for the cooling fan of control electronics for Guangzhou metro line 1 vehicles.
针对电子器件的高效冷却问题,对表面加工有微结构的硅片上FC- 72的池沸腾换热性能进行了实验研究。
For efficiently cooling electronic components, experiments were conducted to study the pool boiling heat transfer performance of FC-72 over silicon chips with surface microstructures.
管排可以在换热器、太阳能集热器、电子器件冷却以及电解电镀工程中的排管电极等领域发现其应用。
Tube arrays can be found in the area of heat exchanger, solar collector, electronic cooling and electrodes used in the plating bath.
使用这个模型,演化与D /E区电离层的加热时间,加热和冷却时间尺度的电子温度的档案,在本文的计算。
Using this model, evolution profile of electron temperature with heating time in ionospheric D/E region, heating and cooling time scale, are calculated in this paper.
使用这个模型,演化与D /E区电离层的加热时间,加热和冷却时间尺度的电子温度的档案,在本文的计算。
Using this model, evolution profile of electron temperature with heating time in ionospheric D/E region, heating and cooling time scale, are calculated in this paper.
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